package providers import ( "bufio" "bytes" "clawgo/pkg/config" "clawgo/pkg/logger" "context" "encoding/json" "fmt" "io" "net/http" "net/url" "regexp" "strings" "time" ) type HTTPProvider struct { apiKey string apiBase string defaultModel string supportsResponsesCompact bool authMode string timeout time.Duration httpClient *http.Client } func NewHTTPProvider(apiKey, apiBase, defaultModel string, supportsResponsesCompact bool, authMode string, timeout time.Duration) *HTTPProvider { normalizedBase := normalizeAPIBase(apiBase) return &HTTPProvider{ apiKey: apiKey, apiBase: normalizedBase, defaultModel: strings.TrimSpace(defaultModel), supportsResponsesCompact: supportsResponsesCompact, authMode: authMode, timeout: timeout, httpClient: &http.Client{Timeout: timeout}, } } func (p *HTTPProvider) Chat(ctx context.Context, messages []Message, tools []ToolDefinition, model string, options map[string]interface{}) (*LLMResponse, error) { if p.apiBase == "" { return nil, fmt.Errorf("API base not configured") } logger.DebugCF("provider", logger.C0133, map[string]interface{}{ "api_base": p.apiBase, "model": model, "messages_count": len(messages), "tools_count": len(tools), "timeout": p.timeout.String(), }) body, statusCode, contentType, err := p.callResponses(ctx, messages, tools, model, options) if err != nil { return nil, err } if statusCode != http.StatusOK { preview := previewResponseBody(body) return nil, fmt.Errorf("API error (status %d, content-type %q): %s", statusCode, contentType, preview) } if !json.Valid(body) { return nil, fmt.Errorf("API error (status %d, content-type %q): non-JSON response: %s", statusCode, contentType, previewResponseBody(body)) } return parseResponsesAPIResponse(body) } func (p *HTTPProvider) ChatStream(ctx context.Context, messages []Message, tools []ToolDefinition, model string, options map[string]interface{}, onDelta func(string)) (*LLMResponse, error) { if onDelta == nil { onDelta = func(string) {} } if p.apiBase == "" { return nil, fmt.Errorf("API base not configured") } body, status, ctype, err := p.callResponsesStream(ctx, messages, tools, model, options, onDelta) if err != nil { return nil, err } if status != http.StatusOK { return nil, fmt.Errorf("API error (status %d, content-type %q): %s", status, ctype, previewResponseBody(body)) } if !json.Valid(body) { return nil, fmt.Errorf("API error (status %d, content-type %q): non-JSON response: %s", status, ctype, previewResponseBody(body)) } return parseResponsesAPIResponse(body) } func (p *HTTPProvider) callResponses(ctx context.Context, messages []Message, tools []ToolDefinition, model string, options map[string]interface{}) ([]byte, int, string, error) { input := make([]map[string]interface{}, 0, len(messages)) pendingCalls := map[string]struct{}{} for _, msg := range messages { input = append(input, toResponsesInputItemsWithState(msg, pendingCalls)...) } requestBody := map[string]interface{}{ "model": model, "input": input, } responseTools := buildResponsesTools(tools, options) if len(responseTools) > 0 { requestBody["tools"] = responseTools requestBody["tool_choice"] = "auto" if tc, ok := rawOption(options, "tool_choice"); ok { requestBody["tool_choice"] = tc } if tc, ok := rawOption(options, "responses_tool_choice"); ok { requestBody["tool_choice"] = tc } } if maxTokens, ok := int64FromOption(options, "max_tokens"); ok { requestBody["max_output_tokens"] = maxTokens } if temperature, ok := float64FromOption(options, "temperature"); ok { requestBody["temperature"] = temperature } if include, ok := stringSliceOption(options, "responses_include"); ok && len(include) > 0 { requestBody["include"] = include } if metadata, ok := mapOption(options, "responses_metadata"); ok && len(metadata) > 0 { requestBody["metadata"] = metadata } if prevID, ok := stringOption(options, "responses_previous_response_id"); ok && prevID != "" { requestBody["previous_response_id"] = prevID } return p.postJSON(ctx, endpointFor(p.apiBase, "/responses"), requestBody) } func toResponsesInputItems(msg Message) []map[string]interface{} { return toResponsesInputItemsWithState(msg, nil) } func toResponsesInputItemsWithState(msg Message, pendingCalls map[string]struct{}) []map[string]interface{} { role := strings.ToLower(strings.TrimSpace(msg.Role)) switch role { case "system", "developer", "user": if content := responsesMessageContent(msg); len(content) > 0 { return []map[string]interface{}{{ "type": "message", "role": role, "content": content, }} } return []map[string]interface{}{responsesMessageItem(role, msg.Content, "input_text")} case "assistant": items := make([]map[string]interface{}, 0, 1+len(msg.ToolCalls)) if msg.Content != "" || len(msg.ToolCalls) == 0 { items = append(items, responsesMessageItem(role, msg.Content, "output_text")) } for _, tc := range msg.ToolCalls { callID := tc.ID if callID == "" { continue } name := tc.Name argsRaw := "" if tc.Function != nil { if tc.Function.Name != "" { name = tc.Function.Name } argsRaw = tc.Function.Arguments } if name == "" { continue } if argsRaw == "" { argsJSON, err := json.Marshal(tc.Arguments) if err != nil { argsRaw = "{}" } else { argsRaw = string(argsJSON) } } if pendingCalls != nil { pendingCalls[callID] = struct{}{} } items = append(items, map[string]interface{}{ "type": "function_call", "call_id": callID, "name": name, "arguments": argsRaw, }) } if len(items) == 0 { return []map[string]interface{}{responsesMessageItem(role, msg.Content, "output_text")} } return items case "tool": callID := msg.ToolCallID if callID == "" { return nil } if pendingCalls != nil { if _, ok := pendingCalls[callID]; !ok { // Strict pairing: drop orphan/duplicate tool outputs instead of degrading role. return nil } delete(pendingCalls, callID) } return []map[string]interface{}{map[string]interface{}{ "type": "function_call_output", "call_id": callID, "output": msg.Content, }} default: return []map[string]interface{}{responsesMessageItem("user", msg.Content, "input_text")} } } func responsesMessageContent(msg Message) []map[string]interface{} { content := make([]map[string]interface{}, 0, len(msg.ContentParts)) for _, part := range msg.ContentParts { switch strings.ToLower(strings.TrimSpace(part.Type)) { case "input_text", "text": if part.Text == "" { continue } content = append(content, map[string]interface{}{ "type": "input_text", "text": part.Text, }) case "input_image", "image": entry := map[string]interface{}{ "type": "input_image", } if part.ImageURL != "" { entry["image_url"] = part.ImageURL } if part.FileID != "" { entry["file_id"] = part.FileID } if detail := strings.TrimSpace(part.Detail); detail != "" { entry["detail"] = detail } if _, ok := entry["image_url"]; !ok { if _, ok := entry["file_id"]; !ok { continue } } content = append(content, entry) case "input_file", "file": entry := map[string]interface{}{ "type": "input_file", } if part.FileData != "" { entry["file_data"] = part.FileData } if part.FileID != "" { entry["file_id"] = part.FileID } if part.FileURL != "" { entry["file_url"] = part.FileURL } if part.Filename != "" { entry["filename"] = part.Filename } if _, ok := entry["file_data"]; !ok { if _, ok := entry["file_id"]; !ok { if _, ok := entry["file_url"]; !ok { continue } } } content = append(content, entry) } } return content } func buildResponsesTools(tools []ToolDefinition, options map[string]interface{}) []map[string]interface{} { responseTools := make([]map[string]interface{}, 0, len(tools)+2) for _, t := range tools { typ := strings.ToLower(strings.TrimSpace(t.Type)) if typ == "" { typ = "function" } if typ == "function" { name := strings.TrimSpace(t.Function.Name) if name == "" { name = strings.TrimSpace(t.Name) } if name == "" { continue } entry := map[string]interface{}{ "type": "function", "name": name, "parameters": map[string]interface{}{}, } if t.Function.Parameters != nil { entry["parameters"] = t.Function.Parameters } else if t.Parameters != nil { entry["parameters"] = t.Parameters } desc := strings.TrimSpace(t.Function.Description) if desc == "" { desc = strings.TrimSpace(t.Description) } if desc != "" { entry["description"] = desc } if t.Function.Strict != nil { entry["strict"] = *t.Function.Strict } else if t.Strict != nil { entry["strict"] = *t.Strict } responseTools = append(responseTools, entry) continue } // Built-in tool types (web_search, file_search, code_interpreter, etc.). entry := map[string]interface{}{ "type": typ, } if name := strings.TrimSpace(t.Name); name != "" { entry["name"] = name } if desc := strings.TrimSpace(t.Description); desc != "" { entry["description"] = desc } if t.Strict != nil { entry["strict"] = *t.Strict } for k, v := range t.Parameters { entry[k] = v } responseTools = append(responseTools, entry) } if extraTools, ok := mapSliceOption(options, "responses_tools"); ok { responseTools = append(responseTools, extraTools...) } return responseTools } func rawOption(options map[string]interface{}, key string) (interface{}, bool) { if options == nil { return nil, false } v, ok := options[key] if !ok || v == nil { return nil, false } return v, true } func stringOption(options map[string]interface{}, key string) (string, bool) { v, ok := rawOption(options, key) if !ok { return "", false } s, ok := v.(string) if !ok { return "", false } return strings.TrimSpace(s), true } func mapOption(options map[string]interface{}, key string) (map[string]interface{}, bool) { v, ok := rawOption(options, key) if !ok { return nil, false } m, ok := v.(map[string]interface{}) return m, ok } func stringSliceOption(options map[string]interface{}, key string) ([]string, bool) { v, ok := rawOption(options, key) if !ok { return nil, false } switch t := v.(type) { case []string: out := make([]string, 0, len(t)) for _, item := range t { if s := strings.TrimSpace(item); s != "" { out = append(out, s) } } return out, true case []interface{}: out := make([]string, 0, len(t)) for _, item := range t { s := strings.TrimSpace(fmt.Sprintf("%v", item)) if s != "" { out = append(out, s) } } return out, true } return nil, false } func mapSliceOption(options map[string]interface{}, key string) ([]map[string]interface{}, bool) { v, ok := rawOption(options, key) if !ok { return nil, false } switch t := v.(type) { case []map[string]interface{}: return t, true case []interface{}: out := make([]map[string]interface{}, 0, len(t)) for _, item := range t { m, ok := item.(map[string]interface{}) if ok { out = append(out, m) } } return out, true } return nil, false } func responsesMessageItem(role, text, contentType string) map[string]interface{} { ct := contentType if ct == "" { ct = "input_text" } return map[string]interface{}{ "type": "message", "role": role, "content": []map[string]interface{}{ { "type": ct, "text": text, }, }, } } func (p *HTTPProvider) callResponsesStream(ctx context.Context, messages []Message, tools []ToolDefinition, model string, options map[string]interface{}, onDelta func(string)) ([]byte, int, string, error) { input := make([]map[string]interface{}, 0, len(messages)) pendingCalls := map[string]struct{}{} for _, msg := range messages { input = append(input, toResponsesInputItemsWithState(msg, pendingCalls)...) } requestBody := map[string]interface{}{ "model": model, "input": input, "stream": true, } responseTools := buildResponsesTools(tools, options) if len(responseTools) > 0 { requestBody["tools"] = responseTools requestBody["tool_choice"] = "auto" if tc, ok := rawOption(options, "tool_choice"); ok { requestBody["tool_choice"] = tc } if tc, ok := rawOption(options, "responses_tool_choice"); ok { requestBody["tool_choice"] = tc } } if maxTokens, ok := int64FromOption(options, "max_tokens"); ok { requestBody["max_output_tokens"] = maxTokens } if temperature, ok := float64FromOption(options, "temperature"); ok { requestBody["temperature"] = temperature } if include, ok := stringSliceOption(options, "responses_include"); ok && len(include) > 0 { requestBody["include"] = include } if streamOpts, ok := mapOption(options, "responses_stream_options"); ok && len(streamOpts) > 0 { requestBody["stream_options"] = streamOpts } return p.postJSONStream(ctx, endpointFor(p.apiBase, "/responses"), requestBody, func(event string) { var obj map[string]interface{} if err := json.Unmarshal([]byte(event), &obj); err != nil { return } typ := strings.TrimSpace(fmt.Sprintf("%v", obj["type"])) if typ == "response.output_text.delta" { if d := strings.TrimSpace(fmt.Sprintf("%v", obj["delta"])); d != "" { onDelta(d) } return } if delta, ok := obj["delta"].(map[string]interface{}); ok { if txt := strings.TrimSpace(fmt.Sprintf("%v", delta["text"])); txt != "" { onDelta(txt) } } }) } func (p *HTTPProvider) postJSONStream(ctx context.Context, endpoint string, payload interface{}, onEvent func(string)) ([]byte, int, string, error) { jsonData, err := json.Marshal(payload) if err != nil { return nil, 0, "", fmt.Errorf("failed to marshal request: %w", err) } req, err := http.NewRequestWithContext(ctx, http.MethodPost, endpoint, bytes.NewReader(jsonData)) if err != nil { return nil, 0, "", fmt.Errorf("failed to create request: %w", err) } req.Header.Set("Content-Type", "application/json") req.Header.Set("Accept", "text/event-stream") if p.apiKey != "" { if p.authMode == "oauth" { req.Header.Set("Authorization", "Bearer "+p.apiKey) } else if strings.Contains(p.apiBase, "googleapis.com") { req.Header.Set("x-goog-api-key", p.apiKey) } else { req.Header.Set("Authorization", "Bearer "+p.apiKey) } } resp, err := p.httpClient.Do(req) if err != nil { return nil, 0, "", fmt.Errorf("failed to send request: %w", err) } defer resp.Body.Close() ctype := strings.TrimSpace(resp.Header.Get("Content-Type")) if !strings.Contains(strings.ToLower(ctype), "text/event-stream") { body, readErr := io.ReadAll(resp.Body) if readErr != nil { return nil, resp.StatusCode, ctype, fmt.Errorf("failed to read response: %w", readErr) } return body, resp.StatusCode, ctype, nil } scanner := bufio.NewScanner(resp.Body) scanner.Buffer(make([]byte, 0, 64*1024), 2*1024*1024) var dataLines []string var finalJSON []byte for scanner.Scan() { line := scanner.Text() if strings.TrimSpace(line) == "" { if len(dataLines) > 0 { payload := strings.Join(dataLines, "\n") dataLines = dataLines[:0] if strings.TrimSpace(payload) == "[DONE]" { continue } if onEvent != nil { onEvent(payload) } var obj map[string]interface{} if err := json.Unmarshal([]byte(payload), &obj); err == nil { if typ := strings.TrimSpace(fmt.Sprintf("%v", obj["type"])); typ == "response.completed" { if respObj, ok := obj["response"]; ok { if b, err := json.Marshal(respObj); err == nil { finalJSON = b } } } if choices, ok := obj["choices"]; ok { if b, err := json.Marshal(map[string]interface{}{"choices": choices, "usage": obj["usage"]}); err == nil { finalJSON = b } } } } continue } if strings.HasPrefix(line, "data:") { dataLines = append(dataLines, strings.TrimSpace(strings.TrimPrefix(line, "data:"))) } } if err := scanner.Err(); err != nil { return nil, resp.StatusCode, ctype, fmt.Errorf("failed to read stream: %w", err) } if len(finalJSON) == 0 { finalJSON = []byte("{}") } return finalJSON, resp.StatusCode, ctype, nil } func (p *HTTPProvider) postJSON(ctx context.Context, endpoint string, payload interface{}) ([]byte, int, string, error) { jsonData, err := json.Marshal(payload) if err != nil { return nil, 0, "", fmt.Errorf("failed to marshal request: %w", err) } req, err := http.NewRequestWithContext(ctx, http.MethodPost, endpoint, bytes.NewReader(jsonData)) if err != nil { return nil, 0, "", fmt.Errorf("failed to create request: %w", err) } req.Header.Set("Content-Type", "application/json") if p.apiKey != "" { if p.authMode == "oauth" { req.Header.Set("Authorization", "Bearer "+p.apiKey) } else if strings.Contains(p.apiBase, "googleapis.com") { req.Header.Set("x-goog-api-key", p.apiKey) } else { req.Header.Set("Authorization", "Bearer "+p.apiKey) } } resp, err := p.httpClient.Do(req) if err != nil { return nil, 0, "", fmt.Errorf("failed to send request: %w", err) } defer resp.Body.Close() body, readErr := io.ReadAll(resp.Body) if readErr != nil { return nil, resp.StatusCode, strings.TrimSpace(resp.Header.Get("Content-Type")), fmt.Errorf("failed to read response: %w", readErr) } return body, resp.StatusCode, strings.TrimSpace(resp.Header.Get("Content-Type")), nil } func parseResponsesAPIResponse(body []byte) (*LLMResponse, error) { var resp struct { Status string `json:"status"` Output []struct { ID string `json:"id"` Type string `json:"type"` CallID string `json:"call_id"` Name string `json:"name"` ArgsRaw string `json:"arguments"` Role string `json:"role"` Content []struct { Type string `json:"type"` Text string `json:"text"` } `json:"content"` } `json:"output"` OutputText string `json:"output_text"` Usage struct { InputTokens int `json:"input_tokens"` OutputTokens int `json:"output_tokens"` TotalTokens int `json:"total_tokens"` } `json:"usage"` } if err := json.Unmarshal(body, &resp); err != nil { return nil, fmt.Errorf("failed to unmarshal response: %w", err) } toolCalls := make([]ToolCall, 0) outputText := strings.TrimSpace(resp.OutputText) for _, item := range resp.Output { switch strings.TrimSpace(item.Type) { case "function_call": name := strings.TrimSpace(item.Name) if name == "" { continue } args := map[string]interface{}{} if strings.TrimSpace(item.ArgsRaw) != "" { if err := json.Unmarshal([]byte(item.ArgsRaw), &args); err != nil { args["raw"] = item.ArgsRaw } } id := strings.TrimSpace(item.CallID) if id == "" { id = strings.TrimSpace(item.ID) } if id == "" { id = fmt.Sprintf("call_%d", len(toolCalls)+1) } toolCalls = append(toolCalls, ToolCall{ID: id, Name: name, Arguments: args}) case "message": if outputText == "" { texts := make([]string, 0, len(item.Content)) for _, c := range item.Content { if strings.TrimSpace(c.Type) == "output_text" && strings.TrimSpace(c.Text) != "" { texts = append(texts, c.Text) } } if len(texts) > 0 { outputText = strings.Join(texts, "\n") } } } } if len(toolCalls) == 0 { compatCalls, cleanedContent := parseCompatFunctionCalls(outputText) if len(compatCalls) > 0 { toolCalls = compatCalls outputText = cleanedContent } } finishReason := strings.TrimSpace(resp.Status) if finishReason == "" || finishReason == "completed" { finishReason = "stop" } var usage *UsageInfo if resp.Usage.TotalTokens > 0 || resp.Usage.InputTokens > 0 || resp.Usage.OutputTokens > 0 { usage = &UsageInfo{PromptTokens: resp.Usage.InputTokens, CompletionTokens: resp.Usage.OutputTokens, TotalTokens: resp.Usage.TotalTokens} } return &LLMResponse{Content: strings.TrimSpace(outputText), ToolCalls: toolCalls, FinishReason: finishReason, Usage: usage}, nil } func previewResponseBody(body []byte) string { preview := strings.TrimSpace(string(body)) preview = strings.ReplaceAll(preview, "\n", " ") preview = strings.ReplaceAll(preview, "\r", " ") if preview == "" { return "" } const maxLen = 600 if len(preview) > maxLen { return preview[:maxLen] + "..." } return preview } func int64FromOption(options map[string]interface{}, key string) (int64, bool) { if options == nil { return 0, false } v, ok := options[key] if !ok { return 0, false } switch t := v.(type) { case int: return int64(t), true case int64: return t, true case float64: return int64(t), true default: return 0, false } } func float64FromOption(options map[string]interface{}, key string) (float64, bool) { if options == nil { return 0, false } v, ok := options[key] if !ok { return 0, false } switch t := v.(type) { case float32: return float64(t), true case float64: return t, true case int: return float64(t), true default: return 0, false } } func normalizeAPIBase(raw string) string { trimmed := strings.TrimSpace(raw) if trimmed == "" { return "" } u, err := url.Parse(trimmed) if err != nil { return strings.TrimRight(trimmed, "/") } u.Path = strings.TrimRight(u.Path, "/") return strings.TrimRight(u.String(), "/") } func endpointFor(base, relative string) string { b := strings.TrimRight(strings.TrimSpace(base), "/") if b == "" { return relative } if strings.HasSuffix(b, relative) { return b } if relative == "/responses/compact" && strings.HasSuffix(b, "/responses") { return b + "/compact" } if relative == "/responses" && strings.HasSuffix(b, "/responses/compact") { return strings.TrimSuffix(b, "/compact") } return b + relative } func parseCompatFunctionCalls(content string) ([]ToolCall, string) { if strings.TrimSpace(content) == "" || !strings.Contains(content, "") { return nil, content } blockRe := regexp.MustCompile(`(?is)\s*(.*?)\s*`) blocks := blockRe.FindAllStringSubmatch(content, -1) if len(blocks) == 0 { return nil, content } toolCalls := make([]ToolCall, 0, len(blocks)) for i, block := range blocks { raw := block[1] invoke := extractTag(raw, "invoke") if invoke != "" { raw = invoke } name := extractTag(raw, "toolname") if strings.TrimSpace(name) == "" { name = extractTag(raw, "tool_name") } name = strings.TrimSpace(name) if name == "" { continue } args := map[string]interface{}{} paramsRaw := strings.TrimSpace(extractTag(raw, "parameters")) if paramsRaw != "" { if strings.HasPrefix(paramsRaw, "{") && strings.HasSuffix(paramsRaw, "}") { _ = json.Unmarshal([]byte(paramsRaw), &args) } if len(args) == 0 { paramTagRe := regexp.MustCompile(`(?is)<([a-zA-Z0-9_:-]+)>\s*(.*?)\s*`) matches := paramTagRe.FindAllStringSubmatch(paramsRaw, -1) for _, m := range matches { if len(m) < 4 || !strings.EqualFold(strings.TrimSpace(m[1]), strings.TrimSpace(m[3])) { continue } k := strings.TrimSpace(m[1]) v := strings.TrimSpace(m[2]) if k == "" || v == "" { continue } args[k] = v } } } toolCalls = append(toolCalls, ToolCall{ID: fmt.Sprintf("compat_call_%d", i+1), Name: name, Arguments: args}) } cleaned := strings.TrimSpace(blockRe.ReplaceAllString(content, "")) return toolCalls, cleaned } func extractTag(src string, tag string) string { re := regexp.MustCompile(fmt.Sprintf(`(?is)<%s>\s*(.*?)\s*`, regexp.QuoteMeta(tag), regexp.QuoteMeta(tag))) m := re.FindStringSubmatch(src) if len(m) < 2 { return "" } return strings.TrimSpace(m[1]) } func (p *HTTPProvider) GetDefaultModel() string { return p.defaultModel } func (p *HTTPProvider) SupportsResponsesCompact() bool { return p != nil && p.supportsResponsesCompact } func (p *HTTPProvider) BuildSummaryViaResponsesCompact(ctx context.Context, model string, existingSummary string, messages []Message, maxSummaryChars int) (string, error) { if !p.SupportsResponsesCompact() { return "", fmt.Errorf("responses compact is not enabled for this provider") } input := make([]map[string]interface{}, 0, len(messages)+1) if strings.TrimSpace(existingSummary) != "" { input = append(input, responsesMessageItem("system", "Existing summary:\n"+strings.TrimSpace(existingSummary), "input_text")) } pendingCalls := map[string]struct{}{} for _, msg := range messages { input = append(input, toResponsesInputItemsWithState(msg, pendingCalls)...) } if len(input) == 0 { return strings.TrimSpace(existingSummary), nil } compactReq := map[string]interface{}{"model": model, "input": input} compactBody, statusCode, contentType, err := p.postJSON(ctx, endpointFor(p.apiBase, "/responses/compact"), compactReq) if err != nil { return "", fmt.Errorf("responses compact request failed: %w", err) } if statusCode != http.StatusOK { return "", fmt.Errorf("responses compact request failed (status %d, content-type %q): %s", statusCode, contentType, previewResponseBody(compactBody)) } if !json.Valid(compactBody) { return "", fmt.Errorf("responses compact request failed (status %d, content-type %q): non-JSON response: %s", statusCode, contentType, previewResponseBody(compactBody)) } var compactResp struct { Output interface{} `json:"output"` CompactedInput interface{} `json:"compacted_input"` Compacted interface{} `json:"compacted"` } if err := json.Unmarshal(compactBody, &compactResp); err != nil { return "", fmt.Errorf("responses compact request failed: invalid JSON: %w", err) } compactPayload := compactResp.Output if compactPayload == nil { compactPayload = compactResp.CompactedInput } if compactPayload == nil { compactPayload = compactResp.Compacted } payloadBytes, err := json.Marshal(compactPayload) if err != nil { return "", fmt.Errorf("failed to serialize compact output: %w", err) } compactedPayload := strings.TrimSpace(string(payloadBytes)) if compactedPayload == "" || compactedPayload == "null" { return "", fmt.Errorf("empty compact output") } if len(compactedPayload) > 12000 { compactedPayload = compactedPayload[:12000] + "..." } summaryPrompt := fmt.Sprintf( "Compacted conversation JSON:\n%s\n\nReturn a concise markdown summary with sections: Key Facts, Decisions, Open Items, Next Steps.", compactedPayload, ) summaryReq := map[string]interface{}{ "model": model, "input": summaryPrompt, } if maxSummaryChars > 0 { estMaxTokens := maxSummaryChars / 3 if estMaxTokens < 128 { estMaxTokens = 128 } summaryReq["max_output_tokens"] = estMaxTokens } summaryBody, summaryStatus, summaryType, err := p.postJSON(ctx, endpointFor(p.apiBase, "/responses"), summaryReq) if err != nil { return "", fmt.Errorf("responses summary request failed: %w", err) } if summaryStatus != http.StatusOK { return "", fmt.Errorf("responses summary request failed (status %d, content-type %q): %s", summaryStatus, summaryType, previewResponseBody(summaryBody)) } if !json.Valid(summaryBody) { return "", fmt.Errorf("responses summary request failed (status %d, content-type %q): non-JSON response: %s", summaryStatus, summaryType, previewResponseBody(summaryBody)) } summaryResp, err := parseResponsesAPIResponse(summaryBody) if err != nil { return "", fmt.Errorf("responses summary request failed: %w", err) } summary := strings.TrimSpace(summaryResp.Content) if summary == "" { return "", fmt.Errorf("empty summary after responses compact") } if maxSummaryChars > 0 && len(summary) > maxSummaryChars { summary = summary[:maxSummaryChars] } return summary, nil } func CreateProvider(cfg *config.Config) (LLMProvider, error) { name := strings.TrimSpace(cfg.Agents.Defaults.Proxy) if name == "" { name = "proxy" } return CreateProviderByName(cfg, name) } func CreateProviderByName(cfg *config.Config, name string) (LLMProvider, error) { pc, err := getProviderConfigByName(cfg, name) if err != nil { return nil, err } if pc.APIBase == "" { return nil, fmt.Errorf("no API base configured for provider %q", name) } if pc.TimeoutSec <= 0 { return nil, fmt.Errorf("invalid timeout_sec for provider %q: %d", name, pc.TimeoutSec) } defaultModel := "" if len(pc.Models) > 0 { defaultModel = pc.Models[0] } return NewHTTPProvider(pc.APIKey, pc.APIBase, defaultModel, pc.SupportsResponsesCompact, pc.Auth, time.Duration(pc.TimeoutSec)*time.Second), nil } func CreateProviders(cfg *config.Config) (map[string]LLMProvider, error) { configs := getAllProviderConfigs(cfg) if len(configs) == 0 { return nil, fmt.Errorf("no providers configured") } out := make(map[string]LLMProvider, len(configs)) for name := range configs { p, err := CreateProviderByName(cfg, name) if err != nil { return nil, err } out[name] = p } return out, nil } func GetProviderModels(cfg *config.Config, name string) []string { pc, err := getProviderConfigByName(cfg, name) if err != nil { return nil } out := make([]string, 0, len(pc.Models)) seen := map[string]bool{} for _, m := range pc.Models { model := strings.TrimSpace(m) if model == "" || seen[model] { continue } seen[model] = true out = append(out, model) } return out } func ProviderSupportsResponsesCompact(cfg *config.Config, name string) bool { pc, err := getProviderConfigByName(cfg, name) if err != nil { return false } return pc.SupportsResponsesCompact } func ListProviderNames(cfg *config.Config) []string { configs := getAllProviderConfigs(cfg) if len(configs) == 0 { return nil } names := make([]string, 0, len(configs)) for name := range configs { names = append(names, name) } return names } func getAllProviderConfigs(cfg *config.Config) map[string]config.ProviderConfig { out := map[string]config.ProviderConfig{} if cfg == nil { return out } includeLegacyProxy := len(cfg.Providers.Proxies) == 0 || strings.TrimSpace(cfg.Agents.Defaults.Proxy) == "proxy" || containsStringTrimmed(cfg.Agents.Defaults.ProxyFallbacks, "proxy") if includeLegacyProxy && (cfg.Providers.Proxy.APIBase != "" || cfg.Providers.Proxy.APIKey != "" || cfg.Providers.Proxy.TimeoutSec > 0) { out["proxy"] = cfg.Providers.Proxy } for name, pc := range cfg.Providers.Proxies { trimmed := strings.TrimSpace(name) if trimmed == "" { continue } out[trimmed] = pc } return out } func containsStringTrimmed(values []string, target string) bool { t := strings.TrimSpace(target) for _, v := range values { if strings.TrimSpace(v) == t { return true } } return false } func getProviderConfigByName(cfg *config.Config, name string) (config.ProviderConfig, error) { if cfg == nil { return config.ProviderConfig{}, fmt.Errorf("nil config") } trimmed := strings.TrimSpace(name) if trimmed == "" { return config.ProviderConfig{}, fmt.Errorf("empty provider name") } if trimmed == "proxy" { return cfg.Providers.Proxy, nil } pc, ok := cfg.Providers.Proxies[trimmed] if !ok { return config.ProviderConfig{}, fmt.Errorf("provider %q not found", trimmed) } return pc, nil }