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LocalAI/core/http/middleware/request_test.go
Tai An 67c34bbb96 fix(middleware): parse OpenAI-spec tool_choice in /v1/chat/completions (#9559) 
* fix(middleware): parse OpenAI-spec tool_choice in /v1/chat/completions

Follows up on #9526 (the 3-site setter fix) by addressing the remaining
clause in #9508 — string mode and OpenAI-spec specific-function shape both
silently failed in the /v1/chat/completions parsing path.

Signed-off-by: Ettore Di Giacinto <mudler@localai.io>

* fix(middleware): restore LF endings and cover tool_choice parsing with specs

The previous commit on this branch saved core/http/middleware/request.go
with CRLF line endings, ballooning the diff against master to 684 / 651
for what is in reality a ~50-line parsing change. Restore LF (matches
.editorconfig end_of_line = lf).

Add 11 Ginkgo specs under "SetModelAndConfig tool_choice parsing
(chat completions)" that parallel the existing MergeOpenResponsesConfig
specs from #9509. They drive the full middleware chain (SetModelAndConfig
+ SetOpenAIRequest) and assert:

  * "required"  -> ShouldUseFunctions=true, no specific name
  * "none"      -> ShouldUseFunctions=false (tools disabled per OpenAI spec)
  * "auto"      -> default, tools available, no specific name
  * {type:function, function:{name:X}}  (spec)    -> X is forced
  * {type:function, name:X}             (legacy)  -> X is forced
  * nested wins when both forms are present
  * malformed shapes (no type, wrong type, no name, empty name) are no-ops

Update the inline comment on the string case to describe the actual
mechanism: "none" reaches SetFunctionCallString("none") downstream and
is then honored by ShouldUseFunctions() returning false. Before this PR
json.Unmarshal([]byte("none"), &functions.Tool{}) failed silently, so
"none" was ignored - making "none" actually work is a real behavior fix
this PR brings.

Signed-off-by: Ettore Di Giacinto <mudler@localai.io>
Assisted-by: Claude:opus-4-7 [Claude Code]

* fix(middleware): preserve pre-#9559 support for JSON-string-encoded tool_choice

Some non-spec clients send tool_choice as a JSON-encoded string of an
object form, e.g. "{\"type\":\"function\",\"function\":{\"name\":\"X\"}}".
The pre-#9559 code accepted this by accident: its case string: branch
ran json.Unmarshal([]byte(content), &functions.Tool{}), which succeeded
for that double-encoded shape even though it failed for the legitimate
plain string modes "auto" / "none" / "required".

The first version of this PR routed every string straight to
SetFunctionCallString as a mode, which fixed the plain-string cases but
silently regressed the double-encoded one (funcs.Select("{...}") returns
nothing). Restore the fallback: when a string looks like a JSON object,
try parsing it as a tool_choice map first; fall through to mode-string
handling only when no usable name comes out.

Factor the map-name extraction into a small helper
(extractToolChoiceFunctionName) so the string-fallback and the regular
map case go through identical code, and accept both the OpenAI-spec
nested shape and the legacy/Anthropic flat shape from either entry
point.

Add 3 Ginkgo specs covering the double-encoded case (nested form, legacy
form, and the fall-through when the JSON has no usable name).

Signed-off-by: Ettore Di Giacinto <mudler@localai.io>
Assisted-by: Claude:opus-4-7 [Claude Code]

* test(middleware): silence errcheck on AfterEach os.RemoveAll

The new tool_choice parsing tests added a second AfterEach that calls
os.RemoveAll(modelDir) without checking the error; errcheck flagged it.
Suppress with the standard _ = idiom. The pre-existing AfterEach on the
earlier Describe still elides the check the same way it did before -
leaving that untouched to keep this commit minimal.

Assisted-by: Claude:opus-4-7 [Claude Code]
Signed-off-by: Ettore Di Giacinto <mudler@localai.io>

---------

Signed-off-by: Ettore Di Giacinto <mudler@localai.io>
Co-authored-by: Ettore Di Giacinto <mudler@localai.io>
2026-05-14 00:14:38 +02:00

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package middleware_test
import (
"encoding/json"
"net/http"
"net/http/httptest"
"os"
"path/filepath"
"strings"
"github.com/labstack/echo/v4"
"github.com/mudler/LocalAI/core/config"
. "github.com/mudler/LocalAI/core/http/middleware"
"github.com/mudler/LocalAI/core/schema"
"github.com/mudler/LocalAI/pkg/model"
"github.com/mudler/LocalAI/pkg/system"
. "github.com/onsi/ginkgo/v2"
. "github.com/onsi/gomega"
)
// newRequestApp creates a minimal Echo app with SetModelAndConfig middleware.
func newRequestApp(re *RequestExtractor) *echo.Echo {
e := echo.New()
e.POST("/v1/chat/completions",
func(c echo.Context) error {
return c.String(http.StatusOK, "ok")
},
re.SetModelAndConfig(func() schema.LocalAIRequest {
return new(schema.OpenAIRequest)
}),
)
return e
}
func postJSON(e *echo.Echo, path, body string) *httptest.ResponseRecorder {
req := httptest.NewRequest(http.MethodPost, path, strings.NewReader(body))
req.Header.Set("Content-Type", "application/json")
rec := httptest.NewRecorder()
e.ServeHTTP(rec, req)
return rec
}
var _ = Describe("SetModelAndConfig middleware", func() {
var (
app *echo.Echo
modelDir string
)
BeforeEach(func() {
var err error
modelDir, err = os.MkdirTemp("", "localai-test-models-*")
Expect(err).ToNot(HaveOccurred())
ss := &system.SystemState{
Model: system.Model{ModelsPath: modelDir},
}
appConfig := config.NewApplicationConfig()
appConfig.SystemState = ss
mcl := config.NewModelConfigLoader(modelDir)
ml := model.NewModelLoader(ss)
re := NewRequestExtractor(mcl, ml, appConfig)
app = newRequestApp(re)
})
AfterEach(func() {
os.RemoveAll(modelDir)
})
Context("when the model does not exist", func() {
It("returns 404 with a helpful error message", func() {
rec := postJSON(app, "/v1/chat/completions",
`{"model":"nonexistent-model","messages":[{"role":"user","content":"hi"}]}`)
Expect(rec.Code).To(Equal(http.StatusNotFound))
var resp schema.ErrorResponse
Expect(json.Unmarshal(rec.Body.Bytes(), &resp)).To(Succeed())
Expect(resp.Error).ToNot(BeNil())
Expect(resp.Error.Message).To(ContainSubstring("nonexistent-model"))
Expect(resp.Error.Message).To(ContainSubstring("not found"))
Expect(resp.Error.Type).To(Equal("invalid_request_error"))
})
})
Context("when the model exists as a config file", func() {
BeforeEach(func() {
cfgContent := []byte("name: test-model\nbackend: llama-cpp\n")
err := os.WriteFile(filepath.Join(modelDir, "test-model.yaml"), cfgContent, 0644)
Expect(err).ToNot(HaveOccurred())
})
It("passes through to the handler", func() {
rec := postJSON(app, "/v1/chat/completions",
`{"model":"test-model","messages":[{"role":"user","content":"hi"}]}`)
Expect(rec.Code).To(Equal(http.StatusOK))
})
})
Context("when the model exists as a pre-loaded config", func() {
var mcl *config.ModelConfigLoader
BeforeEach(func() {
// Simulate a model installed via gallery: config is loaded in memory
// (not just a YAML file on disk). Recreate the app with the pre-loaded config.
ss := &system.SystemState{
Model: system.Model{ModelsPath: modelDir},
}
appConfig := config.NewApplicationConfig()
appConfig.SystemState = ss
mcl = config.NewModelConfigLoader(modelDir)
// Pre-load a config as if installed via gallery
cfgContent := []byte("name: gallery-model\nbackend: llama-cpp\nmodel: gallery-model\n")
err := os.WriteFile(filepath.Join(modelDir, "gallery-model.yaml"), cfgContent, 0644)
Expect(err).ToNot(HaveOccurred())
Expect(mcl.ReadModelConfig(filepath.Join(modelDir, "gallery-model.yaml"))).To(Succeed())
ml := model.NewModelLoader(ss)
re := NewRequestExtractor(mcl, ml, appConfig)
app = newRequestApp(re)
})
It("passes through to the handler", func() {
rec := postJSON(app, "/v1/chat/completions",
`{"model":"gallery-model","messages":[{"role":"user","content":"hi"}]}`)
Expect(rec.Code).To(Equal(http.StatusOK))
})
})
Context("when the model name contains a slash (HuggingFace ID)", func() {
It("skips the existence check and passes through", func() {
rec := postJSON(app, "/v1/chat/completions",
`{"model":"stabilityai/stable-diffusion-xl-base-1.0","messages":[{"role":"user","content":"hi"}]}`)
Expect(rec.Code).To(Equal(http.StatusOK))
})
})
Context("when no model is specified", func() {
It("passes through without checking", func() {
rec := postJSON(app, "/v1/chat/completions",
`{"messages":[{"role":"user","content":"hi"}]}`)
// No model name → middleware doesn't reject, handler runs
Expect(rec.Code).To(Equal(http.StatusOK))
})
})
})
// ---------------------------------------------------------------------------
// MergeOpenResponsesConfig — tool_choice parsing
// ---------------------------------------------------------------------------
//
// The OpenAI chat/completions spec nests the function name under "function":
// {"type":"function", "function":{"name":"my_function"}}
// The legacy Anthropic-compat shape puts it at the top level:
// {"type":"function", "name":"my_function"}
// Both need to reach SetFunctionCallNameString (not SetFunctionCallString,
// which is the mode field "none"/"auto"/"required").
//
// These specs assert both shapes populate the specific-function name and that
// downstream predicates (ShouldCallSpecificFunction, FunctionToCall) return
// the expected values so grammar-based forcing actually engages.
var _ = Describe("MergeOpenResponsesConfig tool_choice parsing", func() {
var cfg *config.ModelConfig
BeforeEach(func() {
cfg = &config.ModelConfig{}
})
Context("string tool_choice", func() {
It("sets mode to required for tool_choice=\"required\"", func() {
req := &schema.OpenResponsesRequest{ToolChoice: "required"}
Expect(MergeOpenResponsesConfig(cfg, req)).To(Succeed())
// "required" is a mode, not a specific function.
Expect(cfg.ShouldCallSpecificFunction()).To(BeFalse())
// ShouldUseFunctions must be true so tools are sent to the model.
Expect(cfg.ShouldUseFunctions()).To(BeTrue())
})
It("leaves config untouched for tool_choice=\"auto\"", func() {
req := &schema.OpenResponsesRequest{ToolChoice: "auto"}
Expect(MergeOpenResponsesConfig(cfg, req)).To(Succeed())
Expect(cfg.ShouldCallSpecificFunction()).To(BeFalse())
Expect(cfg.FunctionToCall()).To(Equal(""))
})
It("leaves config untouched for tool_choice=\"none\"", func() {
req := &schema.OpenResponsesRequest{ToolChoice: "none"}
Expect(MergeOpenResponsesConfig(cfg, req)).To(Succeed())
Expect(cfg.ShouldCallSpecificFunction()).To(BeFalse())
Expect(cfg.FunctionToCall()).To(Equal(""))
})
})
Context("specific-function tool_choice (OpenAI spec shape)", func() {
It("parses {type:function, function:{name:...}} and sets the specific-function name", func() {
req := &schema.OpenResponsesRequest{
ToolChoice: map[string]any{
"type": "function",
"function": map[string]any{"name": "get_weather"},
},
}
Expect(MergeOpenResponsesConfig(cfg, req)).To(Succeed())
// This is the key invariant the fix restores: a correctly-formed
// OpenAI tool_choice must result in ShouldCallSpecificFunction()=true.
Expect(cfg.ShouldCallSpecificFunction()).To(BeTrue())
Expect(cfg.FunctionToCall()).To(Equal("get_weather"))
})
It("prefers the nested function.name over a stray top-level name", func() {
// Defense-in-depth: both shapes present, OpenAI spec wins.
req := &schema.OpenResponsesRequest{
ToolChoice: map[string]any{
"type": "function",
"function": map[string]any{"name": "correct_name"},
"name": "legacy_name",
},
}
Expect(MergeOpenResponsesConfig(cfg, req)).To(Succeed())
Expect(cfg.FunctionToCall()).To(Equal("correct_name"))
})
})
Context("specific-function tool_choice (legacy Anthropic-compat shape)", func() {
It("parses {type:function, name:...} and sets the specific-function name", func() {
req := &schema.OpenResponsesRequest{
ToolChoice: map[string]any{
"type": "function",
"name": "get_weather",
},
}
Expect(MergeOpenResponsesConfig(cfg, req)).To(Succeed())
Expect(cfg.ShouldCallSpecificFunction()).To(BeTrue())
Expect(cfg.FunctionToCall()).To(Equal("get_weather"))
})
})
Context("malformed tool_choice", func() {
It("is a no-op when type is missing", func() {
req := &schema.OpenResponsesRequest{
ToolChoice: map[string]any{
"function": map[string]any{"name": "get_weather"},
},
}
Expect(MergeOpenResponsesConfig(cfg, req)).To(Succeed())
Expect(cfg.ShouldCallSpecificFunction()).To(BeFalse())
})
It("is a no-op when type is not \"function\"", func() {
req := &schema.OpenResponsesRequest{
ToolChoice: map[string]any{
"type": "object",
"function": map[string]any{"name": "get_weather"},
},
}
Expect(MergeOpenResponsesConfig(cfg, req)).To(Succeed())
Expect(cfg.ShouldCallSpecificFunction()).To(BeFalse())
})
It("is a no-op when name is missing from both shapes", func() {
req := &schema.OpenResponsesRequest{
ToolChoice: map[string]any{
"type": "function",
"function": map[string]any{},
},
}
Expect(MergeOpenResponsesConfig(cfg, req)).To(Succeed())
Expect(cfg.ShouldCallSpecificFunction()).To(BeFalse())
Expect(cfg.FunctionToCall()).To(Equal(""))
})
It("is a no-op when name is empty string", func() {
req := &schema.OpenResponsesRequest{
ToolChoice: map[string]any{
"type": "function",
"function": map[string]any{"name": ""},
},
}
Expect(MergeOpenResponsesConfig(cfg, req)).To(Succeed())
Expect(cfg.ShouldCallSpecificFunction()).To(BeFalse())
})
})
Context("nil tool_choice", func() {
It("is a no-op", func() {
req := &schema.OpenResponsesRequest{ToolChoice: nil}
Expect(MergeOpenResponsesConfig(cfg, req)).To(Succeed())
Expect(cfg.ShouldCallSpecificFunction()).To(BeFalse())
Expect(cfg.FunctionToCall()).To(Equal(""))
})
})
})
// ---------------------------------------------------------------------------
// SetModelAndConfig + SetOpenAIRequest - /v1/chat/completions tool_choice parsing
// ---------------------------------------------------------------------------
//
// Parallel to the MergeOpenResponsesConfig specs above, but for the chat
// completions path. The parsing block lives in mergeOpenAIRequestAndModelConfig
// (called from SetOpenAIRequest), so these tests drive the full middleware
// chain the way the production /v1/chat/completions route does.
//
// What we assert per shape:
// - "required" -> ShouldUseFunctions=true, no specific name
// - "none" -> ShouldUseFunctions=false (tools disabled)
// - "auto" -> ShouldUseFunctions=true, no specific name
// - {type:function, function:{name:"X"}} (spec) -> ShouldCallSpecificFunction=true, FunctionToCall="X"
// - {type:function, name:"X"} (legacy) -> ShouldCallSpecificFunction=true, FunctionToCall="X"
// - nested+flat both present -> nested wins
// - malformed (no type / no name) -> no-op
var _ = Describe("SetModelAndConfig tool_choice parsing (chat completions)", func() {
var (
app *echo.Echo
modelDir string
capturedConfig *config.ModelConfig
)
BeforeEach(func() {
var err error
modelDir, err = os.MkdirTemp("", "localai-test-models-*")
Expect(err).ToNot(HaveOccurred())
cfgContent := []byte("name: test-model\nbackend: llama-cpp\n")
Expect(os.WriteFile(filepath.Join(modelDir, "test-model.yaml"), cfgContent, 0644)).To(Succeed())
ss := &system.SystemState{
Model: system.Model{ModelsPath: modelDir},
}
appConfig := config.NewApplicationConfig()
appConfig.SystemState = ss
mcl := config.NewModelConfigLoader(modelDir)
ml := model.NewModelLoader(ss)
re := NewRequestExtractor(mcl, ml, appConfig)
capturedConfig = nil
app = echo.New()
app.POST("/v1/chat/completions",
func(c echo.Context) error {
if cfg, ok := c.Get(CONTEXT_LOCALS_KEY_MODEL_CONFIG).(*config.ModelConfig); ok {
capturedConfig = cfg
}
return c.String(http.StatusOK, "ok")
},
re.SetModelAndConfig(func() schema.LocalAIRequest { return new(schema.OpenAIRequest) }),
func(next echo.HandlerFunc) echo.HandlerFunc {
return func(c echo.Context) error {
if err := re.SetOpenAIRequest(c); err != nil {
return err
}
return next(c)
}
},
)
})
AfterEach(func() {
_ = os.RemoveAll(modelDir)
})
// chatReq wraps a tool_choice JSON fragment in a minimal valid chat-completions
// payload. The tools array is non-empty so downstream code paths that gate on
// len(input.Functions) see something to work with.
chatReq := func(toolChoiceJSON string) string {
return `{"model":"test-model",` +
`"messages":[{"role":"user","content":"hi"}],` +
`"tools":[{"type":"function","function":{"name":"get_weather"}}],` +
`"tool_choice":` + toolChoiceJSON + `}`
}
Context("string tool_choice", func() {
It("engages mode for tool_choice=\"required\"", func() {
rec := postJSON(app, "/v1/chat/completions", chatReq(`"required"`))
Expect(rec.Code).To(Equal(http.StatusOK))
Expect(capturedConfig).ToNot(BeNil())
Expect(capturedConfig.ShouldCallSpecificFunction()).To(BeFalse())
Expect(capturedConfig.ShouldUseFunctions()).To(BeTrue())
})
It("disables tools for tool_choice=\"none\"", func() {
// Before #9559 this was a silent no-op (json.Unmarshal of "none"
// into functions.Tool failed); now "none" is honored per OpenAI spec.
rec := postJSON(app, "/v1/chat/completions", chatReq(`"none"`))
Expect(rec.Code).To(Equal(http.StatusOK))
Expect(capturedConfig).ToNot(BeNil())
Expect(capturedConfig.ShouldUseFunctions()).To(BeFalse())
Expect(capturedConfig.ShouldCallSpecificFunction()).To(BeFalse())
})
It("leaves config untouched for tool_choice=\"auto\"", func() {
rec := postJSON(app, "/v1/chat/completions", chatReq(`"auto"`))
Expect(rec.Code).To(Equal(http.StatusOK))
Expect(capturedConfig).ToNot(BeNil())
Expect(capturedConfig.ShouldCallSpecificFunction()).To(BeFalse())
// "auto" is the default: tools available, model decides.
Expect(capturedConfig.ShouldUseFunctions()).To(BeTrue())
Expect(capturedConfig.FunctionToCall()).To(Equal(""))
})
})
Context("specific-function tool_choice (OpenAI spec shape)", func() {
It("parses {type:function, function:{name:...}} and forces the named function", func() {
rec := postJSON(app, "/v1/chat/completions",
chatReq(`{"type":"function","function":{"name":"get_weather"}}`))
Expect(rec.Code).To(Equal(http.StatusOK))
Expect(capturedConfig).ToNot(BeNil())
// Key invariant: a correctly-formed OpenAI tool_choice must engage
// grammar-based forcing via SetFunctionCallNameString.
Expect(capturedConfig.ShouldCallSpecificFunction()).To(BeTrue())
Expect(capturedConfig.FunctionToCall()).To(Equal("get_weather"))
})
It("prefers the nested function.name over a stray top-level name", func() {
rec := postJSON(app, "/v1/chat/completions",
chatReq(`{"type":"function","function":{"name":"correct_name"},"name":"legacy_name"}`))
Expect(rec.Code).To(Equal(http.StatusOK))
Expect(capturedConfig).ToNot(BeNil())
Expect(capturedConfig.FunctionToCall()).To(Equal("correct_name"))
})
})
Context("specific-function tool_choice (legacy Anthropic-compat shape)", func() {
It("parses {type:function, name:...} and forces the named function", func() {
rec := postJSON(app, "/v1/chat/completions",
chatReq(`{"type":"function","name":"get_weather"}`))
Expect(rec.Code).To(Equal(http.StatusOK))
Expect(capturedConfig).ToNot(BeNil())
Expect(capturedConfig.ShouldCallSpecificFunction()).To(BeTrue())
Expect(capturedConfig.FunctionToCall()).To(Equal("get_weather"))
})
})
// Some non-spec clients send the object form serialized as a JSON string.
// The pre-#9559 code accepted that by accident; this Context locks in
// continued tolerance so those clients do not silently regress.
Context("double-encoded tool_choice (JSON string of an object, non-spec)", func() {
It("parses a serialized OpenAI-spec nested object", func() {
// tool_choice value is itself a JSON-encoded string containing the
// object form. Use json.Marshal of the inner blob so the escapes
// are correct regardless of the test reader.
inner := `{"type":"function","function":{"name":"get_weather"}}`
encoded, err := json.Marshal(inner)
Expect(err).ToNot(HaveOccurred())
rec := postJSON(app, "/v1/chat/completions", chatReq(string(encoded)))
Expect(rec.Code).To(Equal(http.StatusOK))
Expect(capturedConfig).ToNot(BeNil())
Expect(capturedConfig.ShouldCallSpecificFunction()).To(BeTrue())
Expect(capturedConfig.FunctionToCall()).To(Equal("get_weather"))
})
It("parses a serialized legacy/Anthropic flat object", func() {
inner := `{"type":"function","name":"get_weather"}`
encoded, err := json.Marshal(inner)
Expect(err).ToNot(HaveOccurred())
rec := postJSON(app, "/v1/chat/completions", chatReq(string(encoded)))
Expect(rec.Code).To(Equal(http.StatusOK))
Expect(capturedConfig).ToNot(BeNil())
Expect(capturedConfig.ShouldCallSpecificFunction()).To(BeTrue())
Expect(capturedConfig.FunctionToCall()).To(Equal("get_weather"))
})
It("falls back to mode-string handling when the JSON string parses but has no usable name", func() {
// A JSON-string that decodes to a map without a function name
// should not engage specific-function forcing. We expect it to
// fall through to the mode-string path; the resulting mode is
// the raw blob (nonsense), but ShouldCallSpecificFunction stays
// false - the invariant that matters.
inner := `{"type":"function"}`
encoded, err := json.Marshal(inner)
Expect(err).ToNot(HaveOccurred())
rec := postJSON(app, "/v1/chat/completions", chatReq(string(encoded)))
Expect(rec.Code).To(Equal(http.StatusOK))
Expect(capturedConfig).ToNot(BeNil())
Expect(capturedConfig.ShouldCallSpecificFunction()).To(BeFalse())
})
})
Context("malformed tool_choice", func() {
It("is a no-op when type is missing", func() {
rec := postJSON(app, "/v1/chat/completions",
chatReq(`{"function":{"name":"get_weather"}}`))
Expect(rec.Code).To(Equal(http.StatusOK))
Expect(capturedConfig).ToNot(BeNil())
Expect(capturedConfig.ShouldCallSpecificFunction()).To(BeFalse())
})
It("is a no-op when type is not \"function\"", func() {
rec := postJSON(app, "/v1/chat/completions",
chatReq(`{"type":"object","function":{"name":"get_weather"}}`))
Expect(rec.Code).To(Equal(http.StatusOK))
Expect(capturedConfig).ToNot(BeNil())
Expect(capturedConfig.ShouldCallSpecificFunction()).To(BeFalse())
})
It("is a no-op when name is missing from both shapes", func() {
rec := postJSON(app, "/v1/chat/completions",
chatReq(`{"type":"function","function":{}}`))
Expect(rec.Code).To(Equal(http.StatusOK))
Expect(capturedConfig).ToNot(BeNil())
Expect(capturedConfig.ShouldCallSpecificFunction()).To(BeFalse())
Expect(capturedConfig.FunctionToCall()).To(Equal(""))
})
It("is a no-op when name is empty string", func() {
rec := postJSON(app, "/v1/chat/completions",
chatReq(`{"type":"function","function":{"name":""}}`))
Expect(rec.Code).To(Equal(http.StatusOK))
Expect(capturedConfig).ToNot(BeNil())
Expect(capturedConfig.ShouldCallSpecificFunction()).To(BeFalse())
})
})
Context("nil tool_choice", func() {
It("is a no-op", func() {
rec := postJSON(app, "/v1/chat/completions",
`{"model":"test-model","messages":[{"role":"user","content":"hi"}]}`)
Expect(rec.Code).To(Equal(http.StatusOK))
Expect(capturedConfig).ToNot(BeNil())
Expect(capturedConfig.ShouldCallSpecificFunction()).To(BeFalse())
Expect(capturedConfig.FunctionToCall()).To(Equal(""))
})
})
})
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