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0b877ca8a3c8d177f8049c75a27970a2cd919293
new-api/relay/responses_handler.go
CaIon 98952198bb refactor: Introduce standardized API error 
This commit refactors the application's error handling mechanism by introducing a new standardized error type, `types.NewAPIError`. It also renames common JSON utility functions for better clarity.

Previously, internal error handling was tightly coupled to the `dto.OpenAIError` format. This change decouples the internal logic from the external API representation.

Key changes:
- A new `types.NewAPIError` struct is introduced to serve as a canonical internal representation for all API errors.
- All relay adapters (OpenAI, Claude, Gemini, etc.) are updated to return `*types.NewAPIError`.
- Controllers now convert the internal `NewAPIError` to the client-facing `OpenAIError` format at the API boundary, ensuring backward compatibility.
- Channel auto-disable/enable logic is updated to use the new standardized error type.
- JSON utility functions are renamed to align with Go's standard library conventions (e.g., `UnmarshalJson` -> `Unmarshal`, `EncodeJson` -> `Marshal`).
2025-07-10 15:02:40 +08:00

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package relay
import (
"bytes"
"encoding/json"
"errors"
"fmt"
"io"
"net/http"
"one-api/common"
"one-api/dto"
relaycommon "one-api/relay/common"
"one-api/relay/helper"
"one-api/service"
"one-api/setting"
"one-api/setting/model_setting"
"one-api/types"
"strings"
"github.com/gin-gonic/gin"
)
func getAndValidateResponsesRequest(c *gin.Context) (*dto.OpenAIResponsesRequest, error) {
request := &dto.OpenAIResponsesRequest{}
err := common.UnmarshalBodyReusable(c, request)
if err != nil {
return nil, err
}
if request.Model == "" {
return nil, errors.New("model is required")
}
if len(request.Input) == 0 {
return nil, errors.New("input is required")
}
return request, nil
}
func checkInputSensitive(textRequest *dto.OpenAIResponsesRequest, info *relaycommon.RelayInfo) ([]string, error) {
sensitiveWords, err := service.CheckSensitiveInput(textRequest.Input)
return sensitiveWords, err
}
func getInputTokens(req *dto.OpenAIResponsesRequest, info *relaycommon.RelayInfo) int {
inputTokens := service.CountTokenInput(req.Input, req.Model)
info.PromptTokens = inputTokens
return inputTokens
}
func ResponsesHelper(c *gin.Context) (newAPIError *types.NewAPIError) {
req, err := getAndValidateResponsesRequest(c)
if err != nil {
common.LogError(c, fmt.Sprintf("getAndValidateResponsesRequest error: %s", err.Error()))
return types.NewError(err, types.ErrorCodeInvalidRequest)
}
relayInfo := relaycommon.GenRelayInfoResponses(c, req)
if setting.ShouldCheckPromptSensitive() {
sensitiveWords, err := checkInputSensitive(req, relayInfo)
if err != nil {
common.LogWarn(c, fmt.Sprintf("user sensitive words detected: %s", strings.Join(sensitiveWords, ", ")))
return types.NewError(err, types.ErrorCodeSensitiveWordsDetected)
}
}
err = helper.ModelMappedHelper(c, relayInfo, req)
if err != nil {
return types.NewError(err, types.ErrorCodeChannelModelMappedError)
}
if value, exists := c.Get("prompt_tokens"); exists {
promptTokens := value.(int)
relayInfo.SetPromptTokens(promptTokens)
} else {
promptTokens := getInputTokens(req, relayInfo)
c.Set("prompt_tokens", promptTokens)
}
priceData, err := helper.ModelPriceHelper(c, relayInfo, relayInfo.PromptTokens, int(req.MaxOutputTokens))
if err != nil {
return types.NewError(err, types.ErrorCodeModelPriceError)
}
// pre consume quota
preConsumedQuota, userQuota, newAPIError := preConsumeQuota(c, priceData.ShouldPreConsumedQuota, relayInfo)
if newAPIError != nil {
return newAPIError
}
defer func() {
if newAPIError != nil {
returnPreConsumedQuota(c, relayInfo, userQuota, preConsumedQuota)
}
}()
adaptor := GetAdaptor(relayInfo.ApiType)
if adaptor == nil {
return types.NewError(fmt.Errorf("invalid api type: %d", relayInfo.ApiType), types.ErrorCodeInvalidApiType)
}
adaptor.Init(relayInfo)
var requestBody io.Reader
if model_setting.GetGlobalSettings().PassThroughRequestEnabled {
body, err := common.GetRequestBody(c)
if err != nil {
return types.NewError(err, types.ErrorCodeReadRequestBodyFailed)
}
requestBody = bytes.NewBuffer(body)
} else {
convertedRequest, err := adaptor.ConvertOpenAIResponsesRequest(c, relayInfo, *req)
if err != nil {
return types.NewError(err, types.ErrorCodeConvertRequestFailed)
}
jsonData, err := json.Marshal(convertedRequest)
if err != nil {
return types.NewError(err, types.ErrorCodeConvertRequestFailed)
}
// apply param override
if len(relayInfo.ParamOverride) > 0 {
reqMap := make(map[string]interface{})
err = json.Unmarshal(jsonData, &reqMap)
if err != nil {
return types.NewError(err, types.ErrorCodeChannelParamOverrideInvalid)
}
for key, value := range relayInfo.ParamOverride {
reqMap[key] = value
}
jsonData, err = json.Marshal(reqMap)
if err != nil {
return types.NewError(err, types.ErrorCodeConvertRequestFailed)
}
}
if common.DebugEnabled {
println("requestBody: ", string(jsonData))
}
requestBody = bytes.NewBuffer(jsonData)
}
var httpResp *http.Response
resp, err := adaptor.DoRequest(c, relayInfo, requestBody)
if err != nil {
return types.NewError(err, types.ErrorCodeDoRequestFailed)
}
statusCodeMappingStr := c.GetString("status_code_mapping")
if resp != nil {
httpResp = resp.(*http.Response)
if httpResp.StatusCode != http.StatusOK {
newAPIError = service.RelayErrorHandler(httpResp, false)
// reset status code 重置状态码
service.ResetStatusCode(newAPIError, statusCodeMappingStr)
return newAPIError
}
}
usage, newAPIError := adaptor.DoResponse(c, httpResp, relayInfo)
if newAPIError != nil {
// reset status code 重置状态码
service.ResetStatusCode(newAPIError, statusCodeMappingStr)
return newAPIError
}
if strings.HasPrefix(relayInfo.OriginModelName, "gpt-4o-audio") {
service.PostAudioConsumeQuota(c, relayInfo, usage.(*dto.Usage), preConsumedQuota, userQuota, priceData, "")
} else {
postConsumeQuota(c, relayInfo, usage.(*dto.Usage), preConsumedQuota, userQuota, priceData, "")
}
return nil
}
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