package provider import ( "context" "errors" "fmt" "io" "log/slog" "strings" "time" "github.com/charmbracelet/catwalk/pkg/catwalk" "github.com/charmbracelet/crush/internal/config" "github.com/charmbracelet/crush/internal/llm/tools" "github.com/charmbracelet/crush/internal/log" "github.com/charmbracelet/crush/internal/message" "github.com/openai/openai-go" "github.com/openai/openai-go/option" "github.com/openai/openai-go/packages/param" "github.com/openai/openai-go/shared" ) type openaiClient struct { providerOptions providerClientOptions client openai.Client } type OpenAIClient ProviderClient func newOpenAIClient(opts providerClientOptions) OpenAIClient { return &openaiClient{ providerOptions: opts, client: createOpenAIClient(opts), } } func createOpenAIClient(opts providerClientOptions) openai.Client { openaiClientOptions := []option.RequestOption{} if opts.apiKey != "" { openaiClientOptions = append(openaiClientOptions, option.WithAPIKey(opts.apiKey)) } if opts.baseURL != "" { resolvedBaseURL, err := config.Get().Resolve(opts.baseURL) if err == nil { openaiClientOptions = append(openaiClientOptions, option.WithBaseURL(resolvedBaseURL)) } } if config.Get().Options.Debug { httpClient := log.NewHTTPClient() openaiClientOptions = append(openaiClientOptions, option.WithHTTPClient(httpClient)) } for key, value := range opts.extraHeaders { openaiClientOptions = append(openaiClientOptions, option.WithHeader(key, value)) } for extraKey, extraValue := range opts.extraBody { openaiClientOptions = append(openaiClientOptions, option.WithJSONSet(extraKey, extraValue)) } return openai.NewClient(openaiClientOptions...) } func (o *openaiClient) convertMessages(messages []message.Message) (openaiMessages []openai.ChatCompletionMessageParamUnion) { isAnthropicModel := o.providerOptions.config.ID == string(catwalk.InferenceProviderOpenRouter) && strings.HasPrefix(o.Model().ID, "anthropic/") // Add system message first systemMessage := o.providerOptions.systemMessage if o.providerOptions.systemPromptPrefix != "" { systemMessage = o.providerOptions.systemPromptPrefix + "\n" + systemMessage } systemTextBlock := openai.ChatCompletionContentPartTextParam{Text: systemMessage} if isAnthropicModel && !o.providerOptions.disableCache { systemTextBlock.SetExtraFields( map[string]any{ "cache_control": map[string]string{ "type": "ephemeral", }, }, ) } var content []openai.ChatCompletionContentPartTextParam content = append(content, systemTextBlock) system := openai.SystemMessage(content) openaiMessages = append(openaiMessages, system) for i, msg := range messages { cache := false if i > len(messages)-3 { cache = true } switch msg.Role { case message.User: var content []openai.ChatCompletionContentPartUnionParam textBlock := openai.ChatCompletionContentPartTextParam{Text: msg.Content().String()} content = append(content, openai.ChatCompletionContentPartUnionParam{OfText: &textBlock}) for _, binaryContent := range msg.BinaryContent() { imageURL := openai.ChatCompletionContentPartImageImageURLParam{URL: binaryContent.String(catwalk.InferenceProviderOpenAI)} imageBlock := openai.ChatCompletionContentPartImageParam{ImageURL: imageURL} content = append(content, openai.ChatCompletionContentPartUnionParam{OfImageURL: &imageBlock}) } if cache && !o.providerOptions.disableCache && isAnthropicModel { textBlock.SetExtraFields(map[string]any{ "cache_control": map[string]string{ "type": "ephemeral", }, }) } openaiMessages = append(openaiMessages, openai.UserMessage(content)) case message.Assistant: assistantMsg := openai.ChatCompletionAssistantMessageParam{ Role: "assistant", } hasContent := false if msg.Content().String() != "" { hasContent = true textBlock := openai.ChatCompletionContentPartTextParam{Text: msg.Content().String()} if cache && !o.providerOptions.disableCache && isAnthropicModel { textBlock.SetExtraFields(map[string]any{ "cache_control": map[string]string{ "type": "ephemeral", }, }) } assistantMsg.Content = openai.ChatCompletionAssistantMessageParamContentUnion{ OfArrayOfContentParts: []openai.ChatCompletionAssistantMessageParamContentArrayOfContentPartUnion{ { OfText: &textBlock, }, }, } } if len(msg.ToolCalls()) > 0 { hasContent = true assistantMsg.Content = openai.ChatCompletionAssistantMessageParamContentUnion{ OfString: param.NewOpt(msg.Content().String()), } assistantMsg.ToolCalls = make([]openai.ChatCompletionMessageToolCallParam, len(msg.ToolCalls())) for i, call := range msg.ToolCalls() { assistantMsg.ToolCalls[i] = openai.ChatCompletionMessageToolCallParam{ ID: call.ID, Type: "function", Function: openai.ChatCompletionMessageToolCallFunctionParam{ Name: call.Name, Arguments: call.Input, }, } } } if !hasContent { slog.Warn("There is a message without content, investigate, this should not happen") continue } openaiMessages = append(openaiMessages, openai.ChatCompletionMessageParamUnion{ OfAssistant: &assistantMsg, }) case message.Tool: for _, result := range msg.ToolResults() { openaiMessages = append(openaiMessages, openai.ToolMessage(result.Content, result.ToolCallID), ) } } } return } func (o *openaiClient) convertTools(tools []tools.BaseTool) []openai.ChatCompletionToolParam { openaiTools := make([]openai.ChatCompletionToolParam, len(tools)) for i, tool := range tools { info := tool.Info() openaiTools[i] = openai.ChatCompletionToolParam{ Function: openai.FunctionDefinitionParam{ Name: info.Name, Description: openai.String(info.Description), Parameters: openai.FunctionParameters{ "type": "object", "properties": info.Parameters, "required": info.Required, }, }, } } return openaiTools } func (o *openaiClient) finishReason(reason string) message.FinishReason { switch reason { case "stop": return message.FinishReasonEndTurn case "length": return message.FinishReasonMaxTokens case "tool_calls": return message.FinishReasonToolUse default: return message.FinishReasonUnknown } } func (o *openaiClient) preparedParams(messages []openai.ChatCompletionMessageParamUnion, tools []openai.ChatCompletionToolParam) openai.ChatCompletionNewParams { model := o.providerOptions.model(o.providerOptions.modelType) cfg := config.Get() modelConfig := cfg.Models[config.SelectedModelTypeLarge] if o.providerOptions.modelType == config.SelectedModelTypeSmall { modelConfig = cfg.Models[config.SelectedModelTypeSmall] } reasoningEffort := modelConfig.ReasoningEffort params := openai.ChatCompletionNewParams{ Model: openai.ChatModel(model.ID), Messages: messages, Tools: tools, } maxTokens := model.DefaultMaxTokens if modelConfig.MaxTokens > 0 { maxTokens = modelConfig.MaxTokens } // Override max tokens if set in provider options if o.providerOptions.maxTokens > 0 { maxTokens = o.providerOptions.maxTokens } if model.CanReason { params.MaxCompletionTokens = openai.Int(maxTokens) switch reasoningEffort { case "low": params.ReasoningEffort = shared.ReasoningEffortLow case "medium": params.ReasoningEffort = shared.ReasoningEffortMedium case "high": params.ReasoningEffort = shared.ReasoningEffortHigh default: params.ReasoningEffort = shared.ReasoningEffort(reasoningEffort) } } else { params.MaxTokens = openai.Int(maxTokens) } return params } func (o *openaiClient) send(ctx context.Context, messages []message.Message, tools []tools.BaseTool) (response *ProviderResponse, err error) { params := o.preparedParams(o.convertMessages(messages), o.convertTools(tools)) attempts := 0 for { attempts++ openaiResponse, err := o.client.Chat.Completions.New( ctx, params, ) // If there is an error we are going to see if we can retry the call if err != nil { retry, after, retryErr := o.shouldRetry(attempts, err) if retryErr != nil { return nil, retryErr } if retry { slog.Warn("Retrying due to rate limit", "attempt", attempts, "max_retries", maxRetries) select { case <-ctx.Done(): return nil, ctx.Err() case <-time.After(time.Duration(after) * time.Millisecond): continue } } return nil, retryErr } if len(openaiResponse.Choices) == 0 { return nil, fmt.Errorf("received empty response from OpenAI API - check endpoint configuration") } content := "" if openaiResponse.Choices[0].Message.Content != "" { content = openaiResponse.Choices[0].Message.Content } toolCalls := o.toolCalls(*openaiResponse) finishReason := o.finishReason(string(openaiResponse.Choices[0].FinishReason)) if len(toolCalls) > 0 { finishReason = message.FinishReasonToolUse } return &ProviderResponse{ Content: content, ToolCalls: toolCalls, Usage: o.usage(*openaiResponse), FinishReason: finishReason, }, nil } } func (o *openaiClient) stream(ctx context.Context, messages []message.Message, tools []tools.BaseTool) <-chan ProviderEvent { params := o.preparedParams(o.convertMessages(messages), o.convertTools(tools)) params.StreamOptions = openai.ChatCompletionStreamOptionsParam{ IncludeUsage: openai.Bool(true), } attempts := 0 eventChan := make(chan ProviderEvent) go func() { for { attempts++ // Kujtim: fixes an issue with anthropig models on openrouter if len(params.Tools) == 0 { params.Tools = nil } openaiStream := o.client.Chat.Completions.NewStreaming( ctx, params, ) acc := openai.ChatCompletionAccumulator{} currentContent := "" toolCalls := make([]message.ToolCall, 0) var currentToolCallID string var currentToolCall openai.ChatCompletionMessageToolCall var msgToolCalls []openai.ChatCompletionMessageToolCall currentToolIndex := 0 for openaiStream.Next() { chunk := openaiStream.Current() // Kujtim: this is an issue with openrouter qwen, its sending -1 for the tool index if len(chunk.Choices) > 0 && len(chunk.Choices[0].Delta.ToolCalls) > 0 && chunk.Choices[0].Delta.ToolCalls[0].Index == -1 { chunk.Choices[0].Delta.ToolCalls[0].Index = int64(currentToolIndex) currentToolIndex++ } acc.AddChunk(chunk) // This fixes multiple tool calls for some providers for _, choice := range chunk.Choices { if choice.Delta.Content != "" { eventChan <- ProviderEvent{ Type: EventContentDelta, Content: choice.Delta.Content, } currentContent += choice.Delta.Content } else if len(choice.Delta.ToolCalls) > 0 { toolCall := choice.Delta.ToolCalls[0] // Detect tool use start if currentToolCallID == "" { if toolCall.ID != "" { currentToolCallID = toolCall.ID eventChan <- ProviderEvent{ Type: EventToolUseStart, ToolCall: &message.ToolCall{ ID: toolCall.ID, Name: toolCall.Function.Name, Finished: false, }, } currentToolCall = openai.ChatCompletionMessageToolCall{ ID: toolCall.ID, Type: "function", Function: openai.ChatCompletionMessageToolCallFunction{ Name: toolCall.Function.Name, Arguments: toolCall.Function.Arguments, }, } } } else { // Delta tool use if toolCall.ID == "" || toolCall.ID == currentToolCallID { currentToolCall.Function.Arguments += toolCall.Function.Arguments } else { // Detect new tool use if toolCall.ID != currentToolCallID { msgToolCalls = append(msgToolCalls, currentToolCall) currentToolCallID = toolCall.ID eventChan <- ProviderEvent{ Type: EventToolUseStart, ToolCall: &message.ToolCall{ ID: toolCall.ID, Name: toolCall.Function.Name, Finished: false, }, } currentToolCall = openai.ChatCompletionMessageToolCall{ ID: toolCall.ID, Type: "function", Function: openai.ChatCompletionMessageToolCallFunction{ Name: toolCall.Function.Name, Arguments: toolCall.Function.Arguments, }, } } } } } // Kujtim: some models send finish stop even for tool calls if choice.FinishReason == "tool_calls" || (choice.FinishReason == "stop" && currentToolCallID != "") { msgToolCalls = append(msgToolCalls, currentToolCall) if len(acc.Choices) > 0 { acc.Choices[0].Message.ToolCalls = msgToolCalls } } } } err := openaiStream.Err() if err == nil || errors.Is(err, io.EOF) { if len(acc.Choices) == 0 { eventChan <- ProviderEvent{ Type: EventError, Error: fmt.Errorf("received empty streaming response from OpenAI API - check endpoint configuration"), } return } resultFinishReason := acc.Choices[0].FinishReason if resultFinishReason == "" { // If the finish reason is empty, we assume it was a successful completion // INFO: this is happening for openrouter for some reason resultFinishReason = "stop" } // Stream completed successfully finishReason := o.finishReason(resultFinishReason) if len(acc.Choices[0].Message.ToolCalls) > 0 { toolCalls = append(toolCalls, o.toolCalls(acc.ChatCompletion)...) } if len(toolCalls) > 0 { finishReason = message.FinishReasonToolUse } eventChan <- ProviderEvent{ Type: EventComplete, Response: &ProviderResponse{ Content: currentContent, ToolCalls: toolCalls, Usage: o.usage(acc.ChatCompletion), FinishReason: finishReason, }, } close(eventChan) return } // If there is an error we are going to see if we can retry the call retry, after, retryErr := o.shouldRetry(attempts, err) if retryErr != nil { eventChan <- ProviderEvent{Type: EventError, Error: retryErr} close(eventChan) return } if retry { slog.Warn("Retrying due to rate limit", "attempt", attempts, "max_retries", maxRetries) select { case <-ctx.Done(): // context cancelled if ctx.Err() == nil { eventChan <- ProviderEvent{Type: EventError, Error: ctx.Err()} } close(eventChan) return case <-time.After(time.Duration(after) * time.Millisecond): continue } } eventChan <- ProviderEvent{Type: EventError, Error: retryErr} close(eventChan) return } }() return eventChan } func (o *openaiClient) shouldRetry(attempts int, err error) (bool, int64, error) { if attempts > maxRetries { return false, 0, fmt.Errorf("maximum retry attempts reached for rate limit: %d retries", maxRetries) } if errors.Is(err, context.Canceled) || errors.Is(err, context.DeadlineExceeded) { return false, 0, err } var apiErr *openai.Error retryMs := 0 retryAfterValues := []string{} if errors.As(err, &apiErr) { // Check for token expiration (401 Unauthorized) if apiErr.StatusCode == 401 { o.providerOptions.apiKey, err = config.Get().Resolve(o.providerOptions.config.APIKey) if err != nil { return false, 0, fmt.Errorf("failed to resolve API key: %w", err) } o.client = createOpenAIClient(o.providerOptions) return true, 0, nil } if apiErr.StatusCode != 429 && apiErr.StatusCode != 500 { return false, 0, err } retryAfterValues = apiErr.Response.Header.Values("Retry-After") } if apiErr != nil { slog.Warn("OpenAI API error", "status_code", apiErr.StatusCode, "message", apiErr.Message, "type", apiErr.Type) if len(retryAfterValues) > 0 { slog.Warn("Retry-After header", "values", retryAfterValues) } } else { slog.Error("OpenAI API error", "error", err.Error(), "attempt", attempts, "max_retries", maxRetries) } backoffMs := 2000 * (1 << (attempts - 1)) jitterMs := int(float64(backoffMs) * 0.2) retryMs = backoffMs + jitterMs if len(retryAfterValues) > 0 { if _, err := fmt.Sscanf(retryAfterValues[0], "%d", &retryMs); err == nil { retryMs = retryMs * 1000 } } return true, int64(retryMs), nil } func (o *openaiClient) toolCalls(completion openai.ChatCompletion) []message.ToolCall { var toolCalls []message.ToolCall if len(completion.Choices) > 0 && len(completion.Choices[0].Message.ToolCalls) > 0 { for _, call := range completion.Choices[0].Message.ToolCalls { toolCall := message.ToolCall{ ID: call.ID, Name: call.Function.Name, Input: call.Function.Arguments, Type: "function", Finished: true, } toolCalls = append(toolCalls, toolCall) } } return toolCalls } func (o *openaiClient) usage(completion openai.ChatCompletion) TokenUsage { cachedTokens := completion.Usage.PromptTokensDetails.CachedTokens inputTokens := completion.Usage.PromptTokens - cachedTokens return TokenUsage{ InputTokens: inputTokens, OutputTokens: completion.Usage.CompletionTokens, CacheCreationTokens: 0, // OpenAI doesn't provide this directly CacheReadTokens: cachedTokens, } } func (o *openaiClient) Model() catwalk.Model { return o.providerOptions.model(o.providerOptions.modelType) }