// Package config provides configuration loading, defaults, and validation.
package config

import (
	"crypto/rand"
	"encoding/hex"
	"fmt"
	"log"
	"net/url"
	"os"
	"strings"
	"time"

	"github.com/spf13/viper"
)

const (
	RunModeStandard = "standard"
	RunModeSimple   = "simple"
)

const DefaultCSPPolicy = "default-src 'self'; script-src 'self' https://challenges.cloudflare.com; style-src 'self' 'unsafe-inline' https://fonts.googleapis.com; img-src 'self' data: https:; font-src 'self' data: https://fonts.gstatic.com; connect-src 'self' https:; frame-src https://challenges.cloudflare.com; frame-ancestors 'none'; base-uri 'self'; form-action 'self'"

// 连接池隔离策略常量
// 用于控制上游 HTTP 连接池的隔离粒度，影响连接复用和资源消耗
const (
	// ConnectionPoolIsolationProxy: 按代理隔离
	// 同一代理地址共享连接池，适合代理数量少、账户数量多的场景
	ConnectionPoolIsolationProxy = "proxy"
	// ConnectionPoolIsolationAccount: 按账户隔离
	// 每个账户独立连接池，适合账户数量少、需要严格隔离的场景
	ConnectionPoolIsolationAccount = "account"
	// ConnectionPoolIsolationAccountProxy: 按账户+代理组合隔离（默认）
	// 同一账户+代理组合共享连接池，提供最细粒度的隔离
	ConnectionPoolIsolationAccountProxy = "account_proxy"
)

type Config struct {
	Server       ServerConfig         `mapstructure:"server"`
	CORS         CORSConfig           `mapstructure:"cors"`
	Security     SecurityConfig       `mapstructure:"security"`
	Billing      BillingConfig        `mapstructure:"billing"`
	Turnstile    TurnstileConfig      `mapstructure:"turnstile"`
	Database     DatabaseConfig       `mapstructure:"database"`
	Redis        RedisConfig          `mapstructure:"redis"`
	Ops          OpsConfig            `mapstructure:"ops"`
	JWT          JWTConfig            `mapstructure:"jwt"`
	LinuxDo      LinuxDoConnectConfig `mapstructure:"linuxdo_connect"`
	Default      DefaultConfig        `mapstructure:"default"`
	RateLimit    RateLimitConfig      `mapstructure:"rate_limit"`
	Pricing      PricingConfig        `mapstructure:"pricing"`
	Gateway      GatewayConfig        `mapstructure:"gateway"`
	Concurrency  ConcurrencyConfig    `mapstructure:"concurrency"`
	TokenRefresh TokenRefreshConfig   `mapstructure:"token_refresh"`
	RunMode      string               `mapstructure:"run_mode" yaml:"run_mode"`
	Timezone     string               `mapstructure:"timezone"` // e.g. "Asia/Shanghai", "UTC"
	Gemini       GeminiConfig         `mapstructure:"gemini"`
	Update       UpdateConfig         `mapstructure:"update"`
}

type GeminiConfig struct {
	OAuth GeminiOAuthConfig `mapstructure:"oauth"`
	Quota GeminiQuotaConfig `mapstructure:"quota"`
}

type GeminiOAuthConfig struct {
	ClientID     string `mapstructure:"client_id"`
	ClientSecret string `mapstructure:"client_secret"`
	Scopes       string `mapstructure:"scopes"`
}

type GeminiQuotaConfig struct {
	Tiers  map[string]GeminiTierQuotaConfig `mapstructure:"tiers"`
	Policy string                           `mapstructure:"policy"`
}

type GeminiTierQuotaConfig struct {
	ProRPD          *int64 `mapstructure:"pro_rpd" json:"pro_rpd"`
	FlashRPD        *int64 `mapstructure:"flash_rpd" json:"flash_rpd"`
	CooldownMinutes *int   `mapstructure:"cooldown_minutes" json:"cooldown_minutes"`
}

type UpdateConfig struct {
	// ProxyURL 用于访问 GitHub 的代理地址
	// 支持 http/https/socks5/socks5h 协议
	// 例如: "http://127.0.0.1:7890", "socks5://127.0.0.1:1080"
	ProxyURL string `mapstructure:"proxy_url"`
}

type LinuxDoConnectConfig struct {
	Enabled             bool   `mapstructure:"enabled"`
	ClientID            string `mapstructure:"client_id"`
	ClientSecret        string `mapstructure:"client_secret"`
	AuthorizeURL        string `mapstructure:"authorize_url"`
	TokenURL            string `mapstructure:"token_url"`
	UserInfoURL         string `mapstructure:"userinfo_url"`
	Scopes              string `mapstructure:"scopes"`
	RedirectURL         string `mapstructure:"redirect_url"`          // 后端回调地址（需在提供方后台登记）
	FrontendRedirectURL string `mapstructure:"frontend_redirect_url"` // 前端接收 token 的路由（默认：/auth/linuxdo/callback）
	TokenAuthMethod     string `mapstructure:"token_auth_method"`     // client_secret_post / client_secret_basic / none
	UsePKCE             bool   `mapstructure:"use_pkce"`

	// 可选：用于从 userinfo JSON 中提取字段的 gjson 路径。
	// 为空时，服务端会尝试一组常见字段名。
	UserInfoEmailPath    string `mapstructure:"userinfo_email_path"`
	UserInfoIDPath       string `mapstructure:"userinfo_id_path"`
	UserInfoUsernamePath string `mapstructure:"userinfo_username_path"`
}

// TokenRefreshConfig OAuth token自动刷新配置
type TokenRefreshConfig struct {
	// 是否启用自动刷新
	Enabled bool `mapstructure:"enabled"`
	// 检查间隔（分钟）
	CheckIntervalMinutes int `mapstructure:"check_interval_minutes"`
	// 提前刷新时间（小时），在token过期前多久开始刷新
	RefreshBeforeExpiryHours float64 `mapstructure:"refresh_before_expiry_hours"`
	// 最大重试次数
	MaxRetries int `mapstructure:"max_retries"`
	// 重试退避基础时间（秒）
	RetryBackoffSeconds int `mapstructure:"retry_backoff_seconds"`
}

type PricingConfig struct {
	// 价格数据远程URL（默认使用LiteLLM镜像）
	RemoteURL string `mapstructure:"remote_url"`
	// 哈希校验文件URL
	HashURL string `mapstructure:"hash_url"`
	// 本地数据目录
	DataDir string `mapstructure:"data_dir"`
	// 回退文件路径
	FallbackFile string `mapstructure:"fallback_file"`
	// 更新间隔（小时）
	UpdateIntervalHours int `mapstructure:"update_interval_hours"`
	// 哈希校验间隔（分钟）
	HashCheckIntervalMinutes int `mapstructure:"hash_check_interval_minutes"`
}

type ServerConfig struct {
	Host              string   `mapstructure:"host"`
	Port              int      `mapstructure:"port"`
	Mode              string   `mapstructure:"mode"`                // debug/release
	ReadHeaderTimeout int      `mapstructure:"read_header_timeout"` // 读取请求头超时（秒）
	IdleTimeout       int      `mapstructure:"idle_timeout"`        // 空闲连接超时（秒）
	TrustedProxies    []string `mapstructure:"trusted_proxies"`     // 可信代理列表（CIDR/IP）
}

type CORSConfig struct {
	AllowedOrigins   []string `mapstructure:"allowed_origins"`
	AllowCredentials bool     `mapstructure:"allow_credentials"`
}

type SecurityConfig struct {
	URLAllowlist    URLAllowlistConfig   `mapstructure:"url_allowlist"`
	ResponseHeaders ResponseHeaderConfig `mapstructure:"response_headers"`
	CSP             CSPConfig            `mapstructure:"csp"`
	ProxyProbe      ProxyProbeConfig     `mapstructure:"proxy_probe"`
}

type URLAllowlistConfig struct {
	Enabled           bool     `mapstructure:"enabled"`
	UpstreamHosts     []string `mapstructure:"upstream_hosts"`
	PricingHosts      []string `mapstructure:"pricing_hosts"`
	CRSHosts          []string `mapstructure:"crs_hosts"`
	AllowPrivateHosts bool     `mapstructure:"allow_private_hosts"`
	// 关闭 URL 白名单校验时，是否允许 http URL（默认只允许 https）
	AllowInsecureHTTP bool `mapstructure:"allow_insecure_http"`
}

type ResponseHeaderConfig struct {
	Enabled           bool     `mapstructure:"enabled"`
	AdditionalAllowed []string `mapstructure:"additional_allowed"`
	ForceRemove       []string `mapstructure:"force_remove"`
}

type CSPConfig struct {
	Enabled bool   `mapstructure:"enabled"`
	Policy  string `mapstructure:"policy"`
}

type ProxyProbeConfig struct {
	InsecureSkipVerify bool `mapstructure:"insecure_skip_verify"` // 已禁用：禁止跳过 TLS 证书验证
}

type BillingConfig struct {
	CircuitBreaker CircuitBreakerConfig `mapstructure:"circuit_breaker"`
}

type CircuitBreakerConfig struct {
	Enabled             bool `mapstructure:"enabled"`
	FailureThreshold    int  `mapstructure:"failure_threshold"`
	ResetTimeoutSeconds int  `mapstructure:"reset_timeout_seconds"`
	HalfOpenRequests    int  `mapstructure:"half_open_requests"`
}

type ConcurrencyConfig struct {
	// PingInterval: 并发等待期间的 SSE ping 间隔（秒）
	PingInterval int `mapstructure:"ping_interval"`
}

// GatewayConfig API网关相关配置
type GatewayConfig struct {
	// 等待上游响应头的超时时间（秒），0表示无超时
	// 注意：这不影响流式数据传输，只控制等待响应头的时间
	ResponseHeaderTimeout int `mapstructure:"response_header_timeout"`
	// 请求体最大字节数，用于网关请求体大小限制
	MaxBodySize int64 `mapstructure:"max_body_size"`
	// ConnectionPoolIsolation: 上游连接池隔离策略（proxy/account/account_proxy）
	ConnectionPoolIsolation string `mapstructure:"connection_pool_isolation"`

	// HTTP 上游连接池配置（性能优化：支持高并发场景调优）
	// MaxIdleConns: 所有主机的最大空闲连接总数
	MaxIdleConns int `mapstructure:"max_idle_conns"`
	// MaxIdleConnsPerHost: 每个主机的最大空闲连接数（关键参数，影响连接复用率）
	MaxIdleConnsPerHost int `mapstructure:"max_idle_conns_per_host"`
	// MaxConnsPerHost: 每个主机的最大连接数（包括活跃+空闲），0表示无限制
	MaxConnsPerHost int `mapstructure:"max_conns_per_host"`
	// IdleConnTimeoutSeconds: 空闲连接超时时间（秒）
	IdleConnTimeoutSeconds int `mapstructure:"idle_conn_timeout_seconds"`
	// MaxUpstreamClients: 上游连接池客户端最大缓存数量
	// 当使用连接池隔离策略时，系统会为不同的账户/代理组合创建独立的 HTTP 客户端
	// 此参数限制缓存的客户端数量，超出后会淘汰最久未使用的客户端
	// 建议值：预估的活跃账户数 * 1.2（留有余量）
	MaxUpstreamClients int `mapstructure:"max_upstream_clients"`
	// ClientIdleTTLSeconds: 上游连接池客户端空闲回收阈值（秒）
	// 超过此时间未使用的客户端会被标记为可回收
	// 建议值：根据用户访问频率设置，一般 10-30 分钟
	ClientIdleTTLSeconds int `mapstructure:"client_idle_ttl_seconds"`
	// ConcurrencySlotTTLMinutes: 并发槽位过期时间（分钟）
	// 应大于最长 LLM 请求时间，防止请求完成前槽位过期
	ConcurrencySlotTTLMinutes int `mapstructure:"concurrency_slot_ttl_minutes"`

	// StreamDataIntervalTimeout: 流数据间隔超时（秒），0表示禁用
	StreamDataIntervalTimeout int `mapstructure:"stream_data_interval_timeout"`
	// StreamKeepaliveInterval: 流式 keepalive 间隔（秒），0表示禁用
	StreamKeepaliveInterval int `mapstructure:"stream_keepalive_interval"`
	// MaxLineSize: 上游 SSE 单行最大字节数（0使用默认值）
	MaxLineSize int `mapstructure:"max_line_size"`

	// 是否记录上游错误响应体摘要（避免输出请求内容）
	LogUpstreamErrorBody bool `mapstructure:"log_upstream_error_body"`
	// 上游错误响应体记录最大字节数（超过会截断）
	LogUpstreamErrorBodyMaxBytes int `mapstructure:"log_upstream_error_body_max_bytes"`

	// API-key 账号在客户端未提供 anthropic-beta 时，是否按需自动补齐（默认关闭以保持兼容）
	InjectBetaForAPIKey bool `mapstructure:"inject_beta_for_apikey"`

	// 是否允许对部分 400 错误触发 failover（默认关闭以避免改变语义）
	FailoverOn400 bool `mapstructure:"failover_on_400"`

	// Scheduling: 账号调度相关配置
	Scheduling GatewaySchedulingConfig `mapstructure:"scheduling"`
}

// GatewaySchedulingConfig accounts scheduling configuration.
type GatewaySchedulingConfig struct {
	// 粘性会话排队配置
	StickySessionMaxWaiting  int           `mapstructure:"sticky_session_max_waiting"`
	StickySessionWaitTimeout time.Duration `mapstructure:"sticky_session_wait_timeout"`

	// 兜底排队配置
	FallbackWaitTimeout time.Duration `mapstructure:"fallback_wait_timeout"`
	FallbackMaxWaiting  int           `mapstructure:"fallback_max_waiting"`

	// 负载计算
	LoadBatchEnabled bool `mapstructure:"load_batch_enabled"`

	// 过期槽位清理周期（0 表示禁用）
	SlotCleanupInterval time.Duration `mapstructure:"slot_cleanup_interval"`
}

func (s *ServerConfig) Address() string {
	return fmt.Sprintf("%s:%d", s.Host, s.Port)
}

// DatabaseConfig 数据库连接配置
// 性能优化：新增连接池参数，避免频繁创建/销毁连接
type DatabaseConfig struct {
	Host     string `mapstructure:"host"`
	Port     int    `mapstructure:"port"`
	User     string `mapstructure:"user"`
	Password string `mapstructure:"password"`
	DBName   string `mapstructure:"dbname"`
	SSLMode  string `mapstructure:"sslmode"`
	// 连接池配置（性能优化：可配置化连接池参数）
	// MaxOpenConns: 最大打开连接数，控制数据库连接上限，防止资源耗尽
	MaxOpenConns int `mapstructure:"max_open_conns"`
	// MaxIdleConns: 最大空闲连接数，保持热连接减少建连延迟
	MaxIdleConns int `mapstructure:"max_idle_conns"`
	// ConnMaxLifetimeMinutes: 连接最大存活时间，防止长连接导致的资源泄漏
	ConnMaxLifetimeMinutes int `mapstructure:"conn_max_lifetime_minutes"`
	// ConnMaxIdleTimeMinutes: 空闲连接最大存活时间，及时释放不活跃连接
	ConnMaxIdleTimeMinutes int `mapstructure:"conn_max_idle_time_minutes"`
}

func (d *DatabaseConfig) DSN() string {
	// 当密码为空时不包含 password 参数，避免 libpq 解析错误
	if d.Password == "" {
		return fmt.Sprintf(
			"host=%s port=%d user=%s dbname=%s sslmode=%s",
			d.Host, d.Port, d.User, d.DBName, d.SSLMode,
		)
	}
	return fmt.Sprintf(
		"host=%s port=%d user=%s password=%s dbname=%s sslmode=%s",
		d.Host, d.Port, d.User, d.Password, d.DBName, d.SSLMode,
	)
}

// DSNWithTimezone returns DSN with timezone setting
func (d *DatabaseConfig) DSNWithTimezone(tz string) string {
	if tz == "" {
		tz = "Asia/Shanghai"
	}
	// 当密码为空时不包含 password 参数，避免 libpq 解析错误
	if d.Password == "" {
		return fmt.Sprintf(
			"host=%s port=%d user=%s dbname=%s sslmode=%s TimeZone=%s",
			d.Host, d.Port, d.User, d.DBName, d.SSLMode, tz,
		)
	}
	return fmt.Sprintf(
		"host=%s port=%d user=%s password=%s dbname=%s sslmode=%s TimeZone=%s",
		d.Host, d.Port, d.User, d.Password, d.DBName, d.SSLMode, tz,
	)
}

// RedisConfig Redis 连接配置
// 性能优化：新增连接池和超时参数，提升高并发场景下的吞吐量
type RedisConfig struct {
	Host     string `mapstructure:"host"`
	Port     int    `mapstructure:"port"`
	Password string `mapstructure:"password"`
	DB       int    `mapstructure:"db"`
	// 连接池与超时配置（性能优化：可配置化连接池参数）
	// DialTimeoutSeconds: 建立连接超时，防止慢连接阻塞
	DialTimeoutSeconds int `mapstructure:"dial_timeout_seconds"`
	// ReadTimeoutSeconds: 读取超时，避免慢查询阻塞连接池
	ReadTimeoutSeconds int `mapstructure:"read_timeout_seconds"`
	// WriteTimeoutSeconds: 写入超时，避免慢写入阻塞连接池
	WriteTimeoutSeconds int `mapstructure:"write_timeout_seconds"`
	// PoolSize: 连接池大小，控制最大并发连接数
	PoolSize int `mapstructure:"pool_size"`
	// MinIdleConns: 最小空闲连接数，保持热连接减少冷启动延迟
	MinIdleConns int `mapstructure:"min_idle_conns"`
}

func (r *RedisConfig) Address() string {
	return fmt.Sprintf("%s:%d", r.Host, r.Port)
}

type OpsConfig struct {
	// Enabled controls whether ops features should run.
	//
	// NOTE: vNext still has a DB-backed feature flag (ops_monitoring_enabled) for runtime on/off.
	// This config flag is the "hard switch" for deployments that want to disable ops completely.
	Enabled bool `mapstructure:"enabled"`

	// UsePreaggregatedTables prefers ops_metrics_hourly/daily for long-window dashboard queries.
	UsePreaggregatedTables bool `mapstructure:"use_preaggregated_tables"`

	// Cleanup controls periodic deletion of old ops data to prevent unbounded growth.
	Cleanup OpsCleanupConfig `mapstructure:"cleanup"`

	// MetricsCollectorCache controls Redis caching for expensive per-window collector queries.
	MetricsCollectorCache OpsMetricsCollectorCacheConfig `mapstructure:"metrics_collector_cache"`

	// Pre-aggregation configuration.
	Aggregation OpsAggregationConfig `mapstructure:"aggregation"`
}

type OpsCleanupConfig struct {
	Enabled  bool   `mapstructure:"enabled"`
	Schedule string `mapstructure:"schedule"`

	// Retention days (0 disables that cleanup target).
	//
	// vNext requirement: default 30 days across ops datasets.
	ErrorLogRetentionDays      int `mapstructure:"error_log_retention_days"`
	MinuteMetricsRetentionDays int `mapstructure:"minute_metrics_retention_days"`
	HourlyMetricsRetentionDays int `mapstructure:"hourly_metrics_retention_days"`
}

type OpsAggregationConfig struct {
	Enabled bool `mapstructure:"enabled"`
}

type OpsMetricsCollectorCacheConfig struct {
	Enabled bool          `mapstructure:"enabled"`
	TTL     time.Duration `mapstructure:"ttl"`
}

type JWTConfig struct {
	Secret     string `mapstructure:"secret"`
	ExpireHour int    `mapstructure:"expire_hour"`
}

type TurnstileConfig struct {
	Required bool `mapstructure:"required"`
}

type DefaultConfig struct {
	AdminEmail      string  `mapstructure:"admin_email"`
	AdminPassword   string  `mapstructure:"admin_password"`
	UserConcurrency int     `mapstructure:"user_concurrency"`
	UserBalance     float64 `mapstructure:"user_balance"`
	APIKeyPrefix    string  `mapstructure:"api_key_prefix"`
	RateMultiplier  float64 `mapstructure:"rate_multiplier"`
}

type RateLimitConfig struct {
	OverloadCooldownMinutes int `mapstructure:"overload_cooldown_minutes"` // 529过载冷却时间(分钟)
}

func NormalizeRunMode(value string) string {
	normalized := strings.ToLower(strings.TrimSpace(value))
	switch normalized {
	case RunModeStandard, RunModeSimple:
		return normalized
	default:
		return RunModeStandard
	}
}

func Load() (*Config, error) {
	viper.SetConfigName("config")
	viper.SetConfigType("yaml")

	// Add config paths in priority order
	// 1. DATA_DIR environment variable (highest priority)
	if dataDir := os.Getenv("DATA_DIR"); dataDir != "" {
		viper.AddConfigPath(dataDir)
	}
	// 2. Docker data directory
	viper.AddConfigPath("/app/data")
	// 3. Current directory
	viper.AddConfigPath(".")
	// 4. Config subdirectory
	viper.AddConfigPath("./config")
	// 5. System config directory
	viper.AddConfigPath("/etc/sub2api")

	// 环境变量支持
	viper.AutomaticEnv()
	viper.SetEnvKeyReplacer(strings.NewReplacer(".", "_"))

	// 默认值
	setDefaults()

	if err := viper.ReadInConfig(); err != nil {
		if _, ok := err.(viper.ConfigFileNotFoundError); !ok {
			return nil, fmt.Errorf("read config error: %w", err)
		}
		// 配置文件不存在时使用默认值
	}

	var cfg Config
	if err := viper.Unmarshal(&cfg); err != nil {
		return nil, fmt.Errorf("unmarshal config error: %w", err)
	}

	cfg.RunMode = NormalizeRunMode(cfg.RunMode)
	cfg.Server.Mode = strings.ToLower(strings.TrimSpace(cfg.Server.Mode))
	if cfg.Server.Mode == "" {
		cfg.Server.Mode = "debug"
	}
	cfg.JWT.Secret = strings.TrimSpace(cfg.JWT.Secret)
	cfg.CORS.AllowedOrigins = normalizeStringSlice(cfg.CORS.AllowedOrigins)
	cfg.Security.ResponseHeaders.AdditionalAllowed = normalizeStringSlice(cfg.Security.ResponseHeaders.AdditionalAllowed)
	cfg.Security.ResponseHeaders.ForceRemove = normalizeStringSlice(cfg.Security.ResponseHeaders.ForceRemove)
	cfg.Security.CSP.Policy = strings.TrimSpace(cfg.Security.CSP.Policy)

	if cfg.JWT.Secret == "" {
		secret, err := generateJWTSecret(64)
		if err != nil {
			return nil, fmt.Errorf("generate jwt secret error: %w", err)
		}
		cfg.JWT.Secret = secret
		log.Println("Warning: JWT secret auto-generated. Consider setting a fixed secret for production.")
	}

	if err := cfg.Validate(); err != nil {
		return nil, fmt.Errorf("validate config error: %w", err)
	}

	if !cfg.Security.URLAllowlist.Enabled {
		log.Println("Warning: security.url_allowlist.enabled=false; allowlist/SSRF checks disabled (minimal format validation only).")
	}
	if !cfg.Security.ResponseHeaders.Enabled {
		log.Println("Warning: security.response_headers.enabled=false; configurable header filtering disabled (default allowlist only).")
	}

	if cfg.JWT.Secret != "" && isWeakJWTSecret(cfg.JWT.Secret) {
		log.Println("Warning: JWT secret appears weak; use a 32+ character random secret in production.")
	}
	if len(cfg.Security.ResponseHeaders.AdditionalAllowed) > 0 || len(cfg.Security.ResponseHeaders.ForceRemove) > 0 {
		log.Printf("AUDIT: response header policy configured additional_allowed=%v force_remove=%v",
			cfg.Security.ResponseHeaders.AdditionalAllowed,
			cfg.Security.ResponseHeaders.ForceRemove,
		)
	}

	return &cfg, nil
}

func setDefaults() {
	viper.SetDefault("run_mode", RunModeStandard)

	// Server
	viper.SetDefault("server.host", "0.0.0.0")
	viper.SetDefault("server.port", 8080)
	viper.SetDefault("server.mode", "debug")
	viper.SetDefault("server.read_header_timeout", 30) // 30秒读取请求头
	viper.SetDefault("server.idle_timeout", 120)       // 120秒空闲超时
	viper.SetDefault("server.trusted_proxies", []string{})

	// CORS
	viper.SetDefault("cors.allowed_origins", []string{})
	viper.SetDefault("cors.allow_credentials", true)

	// Security
	viper.SetDefault("security.url_allowlist.enabled", false)
	viper.SetDefault("security.url_allowlist.upstream_hosts", []string{
		"api.openai.com",
		"api.anthropic.com",
		"api.kimi.com",
		"open.bigmodel.cn",
		"api.minimaxi.com",
		"generativelanguage.googleapis.com",
		"cloudcode-pa.googleapis.com",
		"*.openai.azure.com",
	})
	viper.SetDefault("security.url_allowlist.pricing_hosts", []string{
		"raw.githubusercontent.com",
	})
	viper.SetDefault("security.url_allowlist.crs_hosts", []string{})
	viper.SetDefault("security.url_allowlist.allow_private_hosts", true)
	viper.SetDefault("security.url_allowlist.allow_insecure_http", true)
	viper.SetDefault("security.response_headers.enabled", false)
	viper.SetDefault("security.response_headers.additional_allowed", []string{})
	viper.SetDefault("security.response_headers.force_remove", []string{})
	viper.SetDefault("security.csp.enabled", true)
	viper.SetDefault("security.csp.policy", DefaultCSPPolicy)
	viper.SetDefault("security.proxy_probe.insecure_skip_verify", false)

	// Billing
	viper.SetDefault("billing.circuit_breaker.enabled", true)
	viper.SetDefault("billing.circuit_breaker.failure_threshold", 5)
	viper.SetDefault("billing.circuit_breaker.reset_timeout_seconds", 30)
	viper.SetDefault("billing.circuit_breaker.half_open_requests", 3)

	// Turnstile
	viper.SetDefault("turnstile.required", false)

	// LinuxDo Connect OAuth 登录（终端用户 SSO）
	viper.SetDefault("linuxdo_connect.enabled", false)
	viper.SetDefault("linuxdo_connect.client_id", "")
	viper.SetDefault("linuxdo_connect.client_secret", "")
	viper.SetDefault("linuxdo_connect.authorize_url", "https://connect.linux.do/oauth2/authorize")
	viper.SetDefault("linuxdo_connect.token_url", "https://connect.linux.do/oauth2/token")
	viper.SetDefault("linuxdo_connect.userinfo_url", "https://connect.linux.do/api/user")
	viper.SetDefault("linuxdo_connect.scopes", "user")
	viper.SetDefault("linuxdo_connect.redirect_url", "")
	viper.SetDefault("linuxdo_connect.frontend_redirect_url", "/auth/linuxdo/callback")
	viper.SetDefault("linuxdo_connect.token_auth_method", "client_secret_post")
	viper.SetDefault("linuxdo_connect.use_pkce", false)
	viper.SetDefault("linuxdo_connect.userinfo_email_path", "")
	viper.SetDefault("linuxdo_connect.userinfo_id_path", "")
	viper.SetDefault("linuxdo_connect.userinfo_username_path", "")

	// Database
	viper.SetDefault("database.host", "localhost")
	viper.SetDefault("database.port", 5432)
	viper.SetDefault("database.user", "postgres")
	viper.SetDefault("database.password", "postgres")
	viper.SetDefault("database.dbname", "sub2api")
	viper.SetDefault("database.sslmode", "disable")
	viper.SetDefault("database.max_open_conns", 50)
	viper.SetDefault("database.max_idle_conns", 10)
	viper.SetDefault("database.conn_max_lifetime_minutes", 30)
	viper.SetDefault("database.conn_max_idle_time_minutes", 5)

	// Redis
	viper.SetDefault("redis.host", "localhost")
	viper.SetDefault("redis.port", 6379)
	viper.SetDefault("redis.password", "")
	viper.SetDefault("redis.db", 0)
	viper.SetDefault("redis.dial_timeout_seconds", 5)
	viper.SetDefault("redis.read_timeout_seconds", 3)
	viper.SetDefault("redis.write_timeout_seconds", 3)
	viper.SetDefault("redis.pool_size", 128)
	viper.SetDefault("redis.min_idle_conns", 10)

	// Ops (vNext)
	viper.SetDefault("ops.enabled", true)
	viper.SetDefault("ops.use_preaggregated_tables", false)
	viper.SetDefault("ops.cleanup.enabled", true)
	viper.SetDefault("ops.cleanup.schedule", "0 2 * * *")
	// Retention days: vNext defaults to 30 days across ops datasets.
	viper.SetDefault("ops.cleanup.error_log_retention_days", 30)
	viper.SetDefault("ops.cleanup.minute_metrics_retention_days", 30)
	viper.SetDefault("ops.cleanup.hourly_metrics_retention_days", 30)
	viper.SetDefault("ops.aggregation.enabled", true)
	viper.SetDefault("ops.metrics_collector_cache.enabled", true)
	// TTL should be slightly larger than collection interval (1m) to maximize cross-replica cache hits.
	viper.SetDefault("ops.metrics_collector_cache.ttl", 65*time.Second)

	// JWT
	viper.SetDefault("jwt.secret", "")
	viper.SetDefault("jwt.expire_hour", 24)

	// Default
	// Admin credentials are created via the setup flow (web wizard / CLI / AUTO_SETUP).
	// Do not ship fixed defaults here to avoid insecure "known credentials" in production.
	viper.SetDefault("default.admin_email", "")
	viper.SetDefault("default.admin_password", "")
	viper.SetDefault("default.user_concurrency", 5)
	viper.SetDefault("default.user_balance", 0)
	viper.SetDefault("default.api_key_prefix", "sk-")
	viper.SetDefault("default.rate_multiplier", 1.0)

	// RateLimit
	viper.SetDefault("rate_limit.overload_cooldown_minutes", 10)

	// Pricing - 从 price-mirror 分支同步，该分支维护了 sha256 哈希文件用于增量更新检查
	viper.SetDefault("pricing.remote_url", "https://raw.githubusercontent.com/Wei-Shaw/claude-relay-service/price-mirror/model_prices_and_context_window.json")
	viper.SetDefault("pricing.hash_url", "https://raw.githubusercontent.com/Wei-Shaw/claude-relay-service/price-mirror/model_prices_and_context_window.sha256")
	viper.SetDefault("pricing.data_dir", "./data")
	viper.SetDefault("pricing.fallback_file", "./resources/model-pricing/model_prices_and_context_window.json")
	viper.SetDefault("pricing.update_interval_hours", 24)
	viper.SetDefault("pricing.hash_check_interval_minutes", 10)

	// Timezone (default to Asia/Shanghai for Chinese users)
	viper.SetDefault("timezone", "Asia/Shanghai")

	// Gateway
	viper.SetDefault("gateway.response_header_timeout", 600) // 600秒(10分钟)等待上游响应头，LLM高负载时可能排队较久
	viper.SetDefault("gateway.log_upstream_error_body", true)
	viper.SetDefault("gateway.log_upstream_error_body_max_bytes", 2048)
	viper.SetDefault("gateway.inject_beta_for_apikey", false)
	viper.SetDefault("gateway.failover_on_400", false)
	viper.SetDefault("gateway.max_body_size", int64(100*1024*1024))
	viper.SetDefault("gateway.connection_pool_isolation", ConnectionPoolIsolationAccountProxy)
	// HTTP 上游连接池配置（针对 5000+ 并发用户优化）
	viper.SetDefault("gateway.max_idle_conns", 240)           // 最大空闲连接总数（HTTP/2 场景默认）
	viper.SetDefault("gateway.max_idle_conns_per_host", 120)  // 每主机最大空闲连接（HTTP/2 场景默认）
	viper.SetDefault("gateway.max_conns_per_host", 240)       // 每主机最大连接数（含活跃，HTTP/2 场景默认）
	viper.SetDefault("gateway.idle_conn_timeout_seconds", 90) // 空闲连接超时（秒）
	viper.SetDefault("gateway.max_upstream_clients", 5000)
	viper.SetDefault("gateway.client_idle_ttl_seconds", 900)
	viper.SetDefault("gateway.concurrency_slot_ttl_minutes", 30) // 并发槽位过期时间（支持超长请求）
	viper.SetDefault("gateway.stream_data_interval_timeout", 180)
	viper.SetDefault("gateway.stream_keepalive_interval", 10)
	viper.SetDefault("gateway.max_line_size", 10*1024*1024)
	viper.SetDefault("gateway.scheduling.sticky_session_max_waiting", 3)
	viper.SetDefault("gateway.scheduling.sticky_session_wait_timeout", 45*time.Second)
	viper.SetDefault("gateway.scheduling.fallback_wait_timeout", 30*time.Second)
	viper.SetDefault("gateway.scheduling.fallback_max_waiting", 100)
	viper.SetDefault("gateway.scheduling.load_batch_enabled", true)
	viper.SetDefault("gateway.scheduling.slot_cleanup_interval", 30*time.Second)
	viper.SetDefault("concurrency.ping_interval", 10)

	// TokenRefresh
	viper.SetDefault("token_refresh.enabled", true)
	viper.SetDefault("token_refresh.check_interval_minutes", 5)        // 每5分钟检查一次
	viper.SetDefault("token_refresh.refresh_before_expiry_hours", 0.5) // 提前30分钟刷新（适配Google 1小时token）
	viper.SetDefault("token_refresh.max_retries", 3)                   // 最多重试3次
	viper.SetDefault("token_refresh.retry_backoff_seconds", 2)         // 重试退避基础2秒

	// Gemini OAuth - configure via environment variables or config file
	// GEMINI_OAUTH_CLIENT_ID and GEMINI_OAUTH_CLIENT_SECRET
	// Default: uses Gemini CLI public credentials (set via environment)
	viper.SetDefault("gemini.oauth.client_id", "")
	viper.SetDefault("gemini.oauth.client_secret", "")
	viper.SetDefault("gemini.oauth.scopes", "")
	viper.SetDefault("gemini.quota.policy", "")
}

func (c *Config) Validate() error {
	if c.JWT.ExpireHour <= 0 {
		return fmt.Errorf("jwt.expire_hour must be positive")
	}
	if c.JWT.ExpireHour > 168 {
		return fmt.Errorf("jwt.expire_hour must be <= 168 (7 days)")
	}
	if c.JWT.ExpireHour > 24 {
		log.Printf("Warning: jwt.expire_hour is %d hours (> 24). Consider shorter expiration for security.", c.JWT.ExpireHour)
	}
	if c.Security.CSP.Enabled && strings.TrimSpace(c.Security.CSP.Policy) == "" {
		return fmt.Errorf("security.csp.policy is required when CSP is enabled")
	}
	if c.LinuxDo.Enabled {
		if strings.TrimSpace(c.LinuxDo.ClientID) == "" {
			return fmt.Errorf("linuxdo_connect.client_id is required when linuxdo_connect.enabled=true")
		}
		if strings.TrimSpace(c.LinuxDo.AuthorizeURL) == "" {
			return fmt.Errorf("linuxdo_connect.authorize_url is required when linuxdo_connect.enabled=true")
		}
		if strings.TrimSpace(c.LinuxDo.TokenURL) == "" {
			return fmt.Errorf("linuxdo_connect.token_url is required when linuxdo_connect.enabled=true")
		}
		if strings.TrimSpace(c.LinuxDo.UserInfoURL) == "" {
			return fmt.Errorf("linuxdo_connect.userinfo_url is required when linuxdo_connect.enabled=true")
		}
		if strings.TrimSpace(c.LinuxDo.RedirectURL) == "" {
			return fmt.Errorf("linuxdo_connect.redirect_url is required when linuxdo_connect.enabled=true")
		}
		method := strings.ToLower(strings.TrimSpace(c.LinuxDo.TokenAuthMethod))
		switch method {
		case "", "client_secret_post", "client_secret_basic", "none":
		default:
			return fmt.Errorf("linuxdo_connect.token_auth_method must be one of: client_secret_post/client_secret_basic/none")
		}
		if method == "none" && !c.LinuxDo.UsePKCE {
			return fmt.Errorf("linuxdo_connect.use_pkce must be true when linuxdo_connect.token_auth_method=none")
		}
		if (method == "" || method == "client_secret_post" || method == "client_secret_basic") &&
			strings.TrimSpace(c.LinuxDo.ClientSecret) == "" {
			return fmt.Errorf("linuxdo_connect.client_secret is required when linuxdo_connect.enabled=true and token_auth_method is client_secret_post/client_secret_basic")
		}
		if strings.TrimSpace(c.LinuxDo.FrontendRedirectURL) == "" {
			return fmt.Errorf("linuxdo_connect.frontend_redirect_url is required when linuxdo_connect.enabled=true")
		}

		if err := ValidateAbsoluteHTTPURL(c.LinuxDo.AuthorizeURL); err != nil {
			return fmt.Errorf("linuxdo_connect.authorize_url invalid: %w", err)
		}
		if err := ValidateAbsoluteHTTPURL(c.LinuxDo.TokenURL); err != nil {
			return fmt.Errorf("linuxdo_connect.token_url invalid: %w", err)
		}
		if err := ValidateAbsoluteHTTPURL(c.LinuxDo.UserInfoURL); err != nil {
			return fmt.Errorf("linuxdo_connect.userinfo_url invalid: %w", err)
		}
		if err := ValidateAbsoluteHTTPURL(c.LinuxDo.RedirectURL); err != nil {
			return fmt.Errorf("linuxdo_connect.redirect_url invalid: %w", err)
		}
		if err := ValidateFrontendRedirectURL(c.LinuxDo.FrontendRedirectURL); err != nil {
			return fmt.Errorf("linuxdo_connect.frontend_redirect_url invalid: %w", err)
		}

		warnIfInsecureURL("linuxdo_connect.authorize_url", c.LinuxDo.AuthorizeURL)
		warnIfInsecureURL("linuxdo_connect.token_url", c.LinuxDo.TokenURL)
		warnIfInsecureURL("linuxdo_connect.userinfo_url", c.LinuxDo.UserInfoURL)
		warnIfInsecureURL("linuxdo_connect.redirect_url", c.LinuxDo.RedirectURL)
		warnIfInsecureURL("linuxdo_connect.frontend_redirect_url", c.LinuxDo.FrontendRedirectURL)
	}
	if c.Billing.CircuitBreaker.Enabled {
		if c.Billing.CircuitBreaker.FailureThreshold <= 0 {
			return fmt.Errorf("billing.circuit_breaker.failure_threshold must be positive")
		}
		if c.Billing.CircuitBreaker.ResetTimeoutSeconds <= 0 {
			return fmt.Errorf("billing.circuit_breaker.reset_timeout_seconds must be positive")
		}
		if c.Billing.CircuitBreaker.HalfOpenRequests <= 0 {
			return fmt.Errorf("billing.circuit_breaker.half_open_requests must be positive")
		}
	}
	if c.Database.MaxOpenConns <= 0 {
		return fmt.Errorf("database.max_open_conns must be positive")
	}
	if c.Database.MaxIdleConns < 0 {
		return fmt.Errorf("database.max_idle_conns must be non-negative")
	}
	if c.Database.MaxIdleConns > c.Database.MaxOpenConns {
		return fmt.Errorf("database.max_idle_conns cannot exceed database.max_open_conns")
	}
	if c.Database.ConnMaxLifetimeMinutes < 0 {
		return fmt.Errorf("database.conn_max_lifetime_minutes must be non-negative")
	}
	if c.Database.ConnMaxIdleTimeMinutes < 0 {
		return fmt.Errorf("database.conn_max_idle_time_minutes must be non-negative")
	}
	if c.Redis.DialTimeoutSeconds <= 0 {
		return fmt.Errorf("redis.dial_timeout_seconds must be positive")
	}
	if c.Redis.ReadTimeoutSeconds <= 0 {
		return fmt.Errorf("redis.read_timeout_seconds must be positive")
	}
	if c.Redis.WriteTimeoutSeconds <= 0 {
		return fmt.Errorf("redis.write_timeout_seconds must be positive")
	}
	if c.Redis.PoolSize <= 0 {
		return fmt.Errorf("redis.pool_size must be positive")
	}
	if c.Redis.MinIdleConns < 0 {
		return fmt.Errorf("redis.min_idle_conns must be non-negative")
	}
	if c.Redis.MinIdleConns > c.Redis.PoolSize {
		return fmt.Errorf("redis.min_idle_conns cannot exceed redis.pool_size")
	}
	if c.Gateway.MaxBodySize <= 0 {
		return fmt.Errorf("gateway.max_body_size must be positive")
	}
	if strings.TrimSpace(c.Gateway.ConnectionPoolIsolation) != "" {
		switch c.Gateway.ConnectionPoolIsolation {
		case ConnectionPoolIsolationProxy, ConnectionPoolIsolationAccount, ConnectionPoolIsolationAccountProxy:
		default:
			return fmt.Errorf("gateway.connection_pool_isolation must be one of: %s/%s/%s",
				ConnectionPoolIsolationProxy, ConnectionPoolIsolationAccount, ConnectionPoolIsolationAccountProxy)
		}
	}
	if c.Gateway.MaxIdleConns <= 0 {
		return fmt.Errorf("gateway.max_idle_conns must be positive")
	}
	if c.Gateway.MaxIdleConnsPerHost <= 0 {
		return fmt.Errorf("gateway.max_idle_conns_per_host must be positive")
	}
	if c.Gateway.MaxConnsPerHost < 0 {
		return fmt.Errorf("gateway.max_conns_per_host must be non-negative")
	}
	if c.Gateway.IdleConnTimeoutSeconds <= 0 {
		return fmt.Errorf("gateway.idle_conn_timeout_seconds must be positive")
	}
	if c.Gateway.IdleConnTimeoutSeconds > 180 {
		log.Printf("Warning: gateway.idle_conn_timeout_seconds is %d (> 180). Consider 60-120 seconds for better connection reuse.", c.Gateway.IdleConnTimeoutSeconds)
	}
	if c.Gateway.MaxUpstreamClients <= 0 {
		return fmt.Errorf("gateway.max_upstream_clients must be positive")
	}
	if c.Gateway.ClientIdleTTLSeconds <= 0 {
		return fmt.Errorf("gateway.client_idle_ttl_seconds must be positive")
	}
	if c.Gateway.ConcurrencySlotTTLMinutes <= 0 {
		return fmt.Errorf("gateway.concurrency_slot_ttl_minutes must be positive")
	}
	if c.Gateway.StreamDataIntervalTimeout < 0 {
		return fmt.Errorf("gateway.stream_data_interval_timeout must be non-negative")
	}
	if c.Gateway.StreamDataIntervalTimeout != 0 &&
		(c.Gateway.StreamDataIntervalTimeout < 30 || c.Gateway.StreamDataIntervalTimeout > 300) {
		return fmt.Errorf("gateway.stream_data_interval_timeout must be 0 or between 30-300 seconds")
	}
	if c.Gateway.StreamKeepaliveInterval < 0 {
		return fmt.Errorf("gateway.stream_keepalive_interval must be non-negative")
	}
	if c.Gateway.StreamKeepaliveInterval != 0 &&
		(c.Gateway.StreamKeepaliveInterval < 5 || c.Gateway.StreamKeepaliveInterval > 30) {
		return fmt.Errorf("gateway.stream_keepalive_interval must be 0 or between 5-30 seconds")
	}
	if c.Gateway.MaxLineSize < 0 {
		return fmt.Errorf("gateway.max_line_size must be non-negative")
	}
	if c.Gateway.MaxLineSize != 0 && c.Gateway.MaxLineSize < 1024*1024 {
		return fmt.Errorf("gateway.max_line_size must be at least 1MB")
	}
	if c.Gateway.Scheduling.StickySessionMaxWaiting <= 0 {
		return fmt.Errorf("gateway.scheduling.sticky_session_max_waiting must be positive")
	}
	if c.Gateway.Scheduling.StickySessionWaitTimeout <= 0 {
		return fmt.Errorf("gateway.scheduling.sticky_session_wait_timeout must be positive")
	}
	if c.Gateway.Scheduling.FallbackWaitTimeout <= 0 {
		return fmt.Errorf("gateway.scheduling.fallback_wait_timeout must be positive")
	}
	if c.Gateway.Scheduling.FallbackMaxWaiting <= 0 {
		return fmt.Errorf("gateway.scheduling.fallback_max_waiting must be positive")
	}
	if c.Gateway.Scheduling.SlotCleanupInterval < 0 {
		return fmt.Errorf("gateway.scheduling.slot_cleanup_interval must be non-negative")
	}
	if c.Ops.MetricsCollectorCache.TTL < 0 {
		return fmt.Errorf("ops.metrics_collector_cache.ttl must be non-negative")
	}
	if c.Ops.Cleanup.ErrorLogRetentionDays < 0 {
		return fmt.Errorf("ops.cleanup.error_log_retention_days must be non-negative")
	}
	if c.Ops.Cleanup.MinuteMetricsRetentionDays < 0 {
		return fmt.Errorf("ops.cleanup.minute_metrics_retention_days must be non-negative")
	}
	if c.Ops.Cleanup.HourlyMetricsRetentionDays < 0 {
		return fmt.Errorf("ops.cleanup.hourly_metrics_retention_days must be non-negative")
	}
	if c.Ops.Cleanup.Enabled && strings.TrimSpace(c.Ops.Cleanup.Schedule) == "" {
		return fmt.Errorf("ops.cleanup.schedule is required when ops.cleanup.enabled=true")
	}
	if c.Concurrency.PingInterval < 5 || c.Concurrency.PingInterval > 30 {
		return fmt.Errorf("concurrency.ping_interval must be between 5-30 seconds")
	}
	return nil
}

func normalizeStringSlice(values []string) []string {
	if len(values) == 0 {
		return values
	}
	normalized := make([]string, 0, len(values))
	for _, v := range values {
		trimmed := strings.TrimSpace(v)
		if trimmed == "" {
			continue
		}
		normalized = append(normalized, trimmed)
	}
	return normalized
}

func isWeakJWTSecret(secret string) bool {
	lower := strings.ToLower(strings.TrimSpace(secret))
	if lower == "" {
		return true
	}
	weak := map[string]struct{}{
		"change-me-in-production": {},
		"changeme":                {},
		"secret":                  {},
		"password":                {},
		"123456":                  {},
		"12345678":                {},
		"admin":                   {},
		"jwt-secret":              {},
	}
	_, exists := weak[lower]
	return exists
}

func generateJWTSecret(byteLength int) (string, error) {
	if byteLength <= 0 {
		byteLength = 32
	}
	buf := make([]byte, byteLength)
	if _, err := rand.Read(buf); err != nil {
		return "", err
	}
	return hex.EncodeToString(buf), nil
}

// GetServerAddress returns the server address (host:port) from config file or environment variable.
// This is a lightweight function that can be used before full config validation,
// such as during setup wizard startup.
// Priority: config.yaml > environment variables > defaults
func GetServerAddress() string {
	v := viper.New()
	v.SetConfigName("config")
	v.SetConfigType("yaml")
	v.AddConfigPath(".")
	v.AddConfigPath("./config")
	v.AddConfigPath("/etc/sub2api")

	// Support SERVER_HOST and SERVER_PORT environment variables
	v.AutomaticEnv()
	v.SetEnvKeyReplacer(strings.NewReplacer(".", "_"))
	v.SetDefault("server.host", "0.0.0.0")
	v.SetDefault("server.port", 8080)

	// Try to read config file (ignore errors if not found)
	_ = v.ReadInConfig()

	host := v.GetString("server.host")
	port := v.GetInt("server.port")
	return fmt.Sprintf("%s:%d", host, port)
}

// ValidateAbsoluteHTTPURL 验证是否为有效的绝对 HTTP(S) URL
func ValidateAbsoluteHTTPURL(raw string) error {
	raw = strings.TrimSpace(raw)
	if raw == "" {
		return fmt.Errorf("empty url")
	}
	u, err := url.Parse(raw)
	if err != nil {
		return err
	}
	if !u.IsAbs() {
		return fmt.Errorf("must be absolute")
	}
	if !isHTTPScheme(u.Scheme) {
		return fmt.Errorf("unsupported scheme: %s", u.Scheme)
	}
	if strings.TrimSpace(u.Host) == "" {
		return fmt.Errorf("missing host")
	}
	if u.Fragment != "" {
		return fmt.Errorf("must not include fragment")
	}
	return nil
}

// ValidateFrontendRedirectURL 验证前端重定向 URL（可以是绝对 URL 或相对路径）
func ValidateFrontendRedirectURL(raw string) error {
	raw = strings.TrimSpace(raw)
	if raw == "" {
		return fmt.Errorf("empty url")
	}
	if strings.ContainsAny(raw, "\r\n") {
		return fmt.Errorf("contains invalid characters")
	}
	if strings.HasPrefix(raw, "/") {
		if strings.HasPrefix(raw, "//") {
			return fmt.Errorf("must not start with //")
		}
		return nil
	}
	u, err := url.Parse(raw)
	if err != nil {
		return err
	}
	if !u.IsAbs() {
		return fmt.Errorf("must be absolute http(s) url or relative path")
	}
	if !isHTTPScheme(u.Scheme) {
		return fmt.Errorf("unsupported scheme: %s", u.Scheme)
	}
	if strings.TrimSpace(u.Host) == "" {
		return fmt.Errorf("missing host")
	}
	if u.Fragment != "" {
		return fmt.Errorf("must not include fragment")
	}
	return nil
}

// isHTTPScheme 检查是否为 HTTP 或 HTTPS 协议
func isHTTPScheme(scheme string) bool {
	return strings.EqualFold(scheme, "http") || strings.EqualFold(scheme, "https")
}

func warnIfInsecureURL(field, raw string) {
	u, err := url.Parse(strings.TrimSpace(raw))
	if err != nil {
		return
	}
	if strings.EqualFold(u.Scheme, "http") {
		log.Printf("Warning: %s uses http scheme; use https in production to avoid token leakage.", field)
	}
}