mirror of
https://github.com/router-for-me/CLIProxyAPI.git
synced 2026-02-03 04:50:52 +08:00
367a05bdf6
Expose thinking/effort normalization helpers from the executor package so conversion tests use production code and stay aligned with runtime validation behavior.
339 lines
10 KiB
Go
339 lines
10 KiB
Go
package executor
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import (
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"fmt"
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"net/http"
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"strings"
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"github.com/router-for-me/CLIProxyAPI/v6/internal/config"
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"github.com/router-for-me/CLIProxyAPI/v6/internal/util"
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"github.com/tidwall/gjson"
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"github.com/tidwall/sjson"
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)
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// ApplyThinkingMetadata applies thinking config from model suffix metadata (e.g., (high), (8192))
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// for standard Gemini format payloads. It normalizes the budget when the model supports thinking.
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func ApplyThinkingMetadata(payload []byte, metadata map[string]any, model string) []byte {
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budgetOverride, includeOverride, ok := util.ResolveThinkingConfigFromMetadata(model, metadata)
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if !ok || (budgetOverride == nil && includeOverride == nil) {
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return payload
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}
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if !util.ModelSupportsThinking(model) {
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return payload
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}
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if budgetOverride != nil {
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norm := util.NormalizeThinkingBudget(model, *budgetOverride)
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budgetOverride = &norm
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}
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return util.ApplyGeminiThinkingConfig(payload, budgetOverride, includeOverride)
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}
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// applyThinkingMetadataCLI applies thinking config from model suffix metadata (e.g., (high), (8192))
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// for Gemini CLI format payloads (nested under "request"). It normalizes the budget when the model supports thinking.
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func applyThinkingMetadataCLI(payload []byte, metadata map[string]any, model string) []byte {
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budgetOverride, includeOverride, ok := util.ResolveThinkingConfigFromMetadata(model, metadata)
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if !ok || (budgetOverride == nil && includeOverride == nil) {
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return payload
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}
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if !util.ModelSupportsThinking(model) {
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return payload
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}
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if budgetOverride != nil {
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norm := util.NormalizeThinkingBudget(model, *budgetOverride)
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budgetOverride = &norm
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}
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return util.ApplyGeminiCLIThinkingConfig(payload, budgetOverride, includeOverride)
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}
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// ApplyReasoningEffortMetadata applies reasoning effort overrides from metadata to the given JSON path.
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// Metadata values take precedence over any existing field when the model supports thinking, intentionally
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// overwriting caller-provided values to honor suffix/default metadata priority.
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func ApplyReasoningEffortMetadata(payload []byte, metadata map[string]any, model, field string, allowCompat bool) []byte {
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if len(metadata) == 0 {
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return payload
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}
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if field == "" {
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return payload
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}
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baseModel := util.ResolveOriginalModel(model, metadata)
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if baseModel == "" {
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baseModel = model
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}
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if !util.ModelSupportsThinking(baseModel) && !allowCompat {
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return payload
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}
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if effort, ok := util.ReasoningEffortFromMetadata(metadata); ok && effort != "" {
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if util.ModelUsesThinkingLevels(baseModel) || allowCompat {
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if updated, err := sjson.SetBytes(payload, field, effort); err == nil {
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return updated
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}
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}
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}
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// Fallback: numeric thinking_budget suffix for level-based (OpenAI-style) models.
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if util.ModelUsesThinkingLevels(baseModel) || allowCompat {
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if budget, _, _, matched := util.ThinkingFromMetadata(metadata); matched && budget != nil {
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if effort, ok := util.OpenAIThinkingBudgetToEffort(baseModel, *budget); ok && effort != "" {
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if *budget == 0 && effort == "none" && util.ModelUsesThinkingLevels(baseModel) {
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if _, supported := util.NormalizeReasoningEffortLevel(baseModel, effort); !supported {
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return StripThinkingFields(payload, false)
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}
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}
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if updated, err := sjson.SetBytes(payload, field, effort); err == nil {
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return updated
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}
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}
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}
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}
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return payload
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}
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// applyPayloadConfig applies payload default and override rules from configuration
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// to the given JSON payload for the specified model.
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// Defaults only fill missing fields, while overrides always overwrite existing values.
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func applyPayloadConfig(cfg *config.Config, model string, payload []byte) []byte {
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return applyPayloadConfigWithRoot(cfg, model, "", "", payload)
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}
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// applyPayloadConfigWithRoot behaves like applyPayloadConfig but treats all parameter
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// paths as relative to the provided root path (for example, "request" for Gemini CLI)
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// and restricts matches to the given protocol when supplied.
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func applyPayloadConfigWithRoot(cfg *config.Config, model, protocol, root string, payload []byte) []byte {
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if cfg == nil || len(payload) == 0 {
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return payload
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}
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rules := cfg.Payload
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if len(rules.Default) == 0 && len(rules.Override) == 0 {
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return payload
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}
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model = strings.TrimSpace(model)
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if model == "" {
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return payload
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}
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out := payload
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// Apply default rules: first write wins per field across all matching rules.
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for i := range rules.Default {
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rule := &rules.Default[i]
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if !payloadRuleMatchesModel(rule, model, protocol) {
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continue
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}
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for path, value := range rule.Params {
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fullPath := buildPayloadPath(root, path)
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if fullPath == "" {
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continue
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}
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if gjson.GetBytes(out, fullPath).Exists() {
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continue
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}
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updated, errSet := sjson.SetBytes(out, fullPath, value)
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if errSet != nil {
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continue
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}
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out = updated
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}
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}
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// Apply override rules: last write wins per field across all matching rules.
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for i := range rules.Override {
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rule := &rules.Override[i]
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if !payloadRuleMatchesModel(rule, model, protocol) {
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continue
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}
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for path, value := range rule.Params {
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fullPath := buildPayloadPath(root, path)
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if fullPath == "" {
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continue
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}
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updated, errSet := sjson.SetBytes(out, fullPath, value)
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if errSet != nil {
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continue
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}
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out = updated
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}
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}
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return out
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}
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func payloadRuleMatchesModel(rule *config.PayloadRule, model, protocol string) bool {
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if rule == nil {
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return false
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}
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if len(rule.Models) == 0 {
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return false
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}
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for _, entry := range rule.Models {
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name := strings.TrimSpace(entry.Name)
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if name == "" {
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continue
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}
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if ep := strings.TrimSpace(entry.Protocol); ep != "" && protocol != "" && !strings.EqualFold(ep, protocol) {
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continue
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}
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if matchModelPattern(name, model) {
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return true
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}
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}
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return false
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}
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// buildPayloadPath combines an optional root path with a relative parameter path.
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// When root is empty, the parameter path is used as-is. When root is non-empty,
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// the parameter path is treated as relative to root.
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func buildPayloadPath(root, path string) string {
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r := strings.TrimSpace(root)
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p := strings.TrimSpace(path)
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if r == "" {
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return p
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}
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if p == "" {
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return r
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}
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if strings.HasPrefix(p, ".") {
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p = p[1:]
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}
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return r + "." + p
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}
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// matchModelPattern performs simple wildcard matching where '*' matches zero or more characters.
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// Examples:
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//
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// "*-5" matches "gpt-5"
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// "gpt-*" matches "gpt-5" and "gpt-4"
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// "gemini-*-pro" matches "gemini-2.5-pro" and "gemini-3-pro".
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func matchModelPattern(pattern, model string) bool {
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pattern = strings.TrimSpace(pattern)
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model = strings.TrimSpace(model)
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if pattern == "" {
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return false
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}
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if pattern == "*" {
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return true
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}
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// Iterative glob-style matcher supporting only '*' wildcard.
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pi, si := 0, 0
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starIdx := -1
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matchIdx := 0
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for si < len(model) {
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if pi < len(pattern) && (pattern[pi] == model[si]) {
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pi++
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si++
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continue
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}
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if pi < len(pattern) && pattern[pi] == '*' {
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starIdx = pi
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matchIdx = si
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pi++
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continue
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}
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if starIdx != -1 {
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pi = starIdx + 1
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matchIdx++
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si = matchIdx
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continue
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}
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return false
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}
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for pi < len(pattern) && pattern[pi] == '*' {
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pi++
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}
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return pi == len(pattern)
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}
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// NormalizeThinkingConfig normalizes thinking-related fields in the payload
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// based on model capabilities. For models without thinking support, it strips
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// reasoning fields. For models with level-based thinking, it validates and
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// normalizes the reasoning effort level. For models with numeric budget thinking,
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// it strips the effort string fields.
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func NormalizeThinkingConfig(payload []byte, model string, allowCompat bool) []byte {
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if len(payload) == 0 || model == "" {
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return payload
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}
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if !util.ModelSupportsThinking(model) {
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if allowCompat {
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return payload
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}
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return StripThinkingFields(payload, false)
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}
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if util.ModelUsesThinkingLevels(model) {
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return NormalizeReasoningEffortLevel(payload, model)
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}
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// Model supports thinking but uses numeric budgets, not levels.
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// Strip effort string fields since they are not applicable.
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return StripThinkingFields(payload, true)
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}
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// StripThinkingFields removes thinking-related fields from the payload for
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// models that do not support thinking. If effortOnly is true, only removes
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// effort string fields (for models using numeric budgets).
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func StripThinkingFields(payload []byte, effortOnly bool) []byte {
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fieldsToRemove := []string{
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"reasoning_effort",
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"reasoning.effort",
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}
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if !effortOnly {
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fieldsToRemove = append([]string{"reasoning"}, fieldsToRemove...)
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}
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out := payload
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for _, field := range fieldsToRemove {
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if gjson.GetBytes(out, field).Exists() {
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out, _ = sjson.DeleteBytes(out, field)
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}
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}
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return out
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}
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// NormalizeReasoningEffortLevel validates and normalizes the reasoning_effort
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// or reasoning.effort field for level-based thinking models.
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func NormalizeReasoningEffortLevel(payload []byte, model string) []byte {
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out := payload
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if effort := gjson.GetBytes(out, "reasoning_effort"); effort.Exists() {
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if normalized, ok := util.NormalizeReasoningEffortLevel(model, effort.String()); ok {
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out, _ = sjson.SetBytes(out, "reasoning_effort", normalized)
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}
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}
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if effort := gjson.GetBytes(out, "reasoning.effort"); effort.Exists() {
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if normalized, ok := util.NormalizeReasoningEffortLevel(model, effort.String()); ok {
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out, _ = sjson.SetBytes(out, "reasoning.effort", normalized)
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}
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}
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return out
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}
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// ValidateThinkingConfig checks for unsupported reasoning levels on level-based models.
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// Returns a statusErr with 400 when an unsupported level is supplied to avoid silently
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// downgrading requests.
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func ValidateThinkingConfig(payload []byte, model string) error {
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if len(payload) == 0 || model == "" {
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return nil
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}
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if !util.ModelSupportsThinking(model) || !util.ModelUsesThinkingLevels(model) {
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return nil
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}
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levels := util.GetModelThinkingLevels(model)
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checkField := func(path string) error {
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if effort := gjson.GetBytes(payload, path); effort.Exists() {
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if _, ok := util.NormalizeReasoningEffortLevel(model, effort.String()); !ok {
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return statusErr{
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code: http.StatusBadRequest,
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msg: fmt.Sprintf("unsupported reasoning effort level %q for model %s (supported: %s)", effort.String(), model, strings.Join(levels, ", ")),
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}
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}
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}
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return nil
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}
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if err := checkField("reasoning_effort"); err != nil {
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return err
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}
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if err := checkField("reasoning.effort"); err != nil {
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return err
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}
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return nil
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}
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