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mudler--localai/backend/go/vibevoice-cpp/vibevoicecpp_integration_test.go
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263 lines
9.0 KiB
Go

package main
// Real end-to-end streaming integration test for the vibevoice-cpp
// backend. It drives the actual Go -> purego -> C path against the real
// model, proving that TTSStream delivers audio incrementally (measurable
// time-to-first-audio) while TTS only yields anything after full
// synthesis. Gated behind VIBEVOICE_IT=1 so normal `go test` and CI stay
// unaffected - it needs the built engine .so and ~1.7 GB of model files.
//
// Run:
//
// VIBEVOICE_IT=1 \
// VIBEVOICECPP_LIBRARY=<abs path to libgovibevoicecpp-fallback.so> \
// go test ./... -run TestVibevoiceCpp -v -timeout 600s
//
// Optional overrides (default to the staged bundle under
// ~/_git/vibevoice-models):
//
// VIBEVOICE_IT_MODEL vibevoice-realtime-0.5B-q8_0.gguf (abs path)
// VIBEVOICE_IT_TOKENIZER tokenizer.gguf (abs path)
// VIBEVOICE_IT_VOICE voice-en-Carter_man.gguf (abs path)
import (
"fmt"
"io"
"os"
"path/filepath"
"sync"
"time"
"github.com/ebitengine/purego"
pb "github.com/mudler/LocalAI/pkg/grpc/proto"
. "github.com/onsi/ginkgo/v2"
. "github.com/onsi/gomega"
)
// itDefaultModelDir is where Task 6 staged the model bundle. Individual
// files can be overridden via the VIBEVOICE_IT_* env vars.
const itDefaultModelDir = "/home/mudler/_git/vibevoice-models"
// itLibLoaded guards the one-time purego Dlopen + RegisterLibFunc into
// the package-level Cpp* vars. purego cannot free a loaded library and
// the Cpp* symbols are process-global, so we bind exactly once.
var itLibLoaded sync.Once
// integrationOrSkip enforces the VIBEVOICE_IT=1 gate and binds the C ABI
// symbols into the package vars the backend calls (mirrors main.go's
// libFuncs list). It Skip()s the spec when the gate is off or the .so /
// model files are missing, so the suite stays green in every other run.
func integrationOrSkip() (model, tokenizer, voice string) {
if os.Getenv("VIBEVOICE_IT") != "1" {
Skip("VIBEVOICE_IT!=1, skipping real-model streaming integration test")
}
lib := os.Getenv("VIBEVOICECPP_LIBRARY")
if lib == "" {
Skip("VIBEVOICECPP_LIBRARY not set, cannot dlopen the engine .so")
}
if _, err := os.Stat(lib); err != nil {
Skip("engine .so not found at " + lib)
}
model = itEnvOr("VIBEVOICE_IT_MODEL", filepath.Join(itDefaultModelDir, "vibevoice-realtime-0.5B-q8_0.gguf"))
tokenizer = itEnvOr("VIBEVOICE_IT_TOKENIZER", filepath.Join(itDefaultModelDir, "tokenizer.gguf"))
voice = itEnvOr("VIBEVOICE_IT_VOICE", filepath.Join(itDefaultModelDir, "voice-en-Carter_man.gguf"))
for _, p := range []string{model, tokenizer, voice} {
if _, err := os.Stat(p); err != nil {
Skip("model file missing: " + p)
}
}
itLibLoaded.Do(func() {
handle, err := purego.Dlopen(lib, purego.RTLD_NOW|purego.RTLD_GLOBAL)
Expect(err).ToNot(HaveOccurred(), "dlopen %s", lib)
// Mirror the libFuncs list in main.go verbatim so the test binds
// the exact same symbols the production backend binary does.
purego.RegisterLibFunc(&CppLoad, handle, "vv_capi_load")
purego.RegisterLibFunc(&CppTTS, handle, "vv_capi_tts")
purego.RegisterLibFunc(&CppTTSStream, handle, "vv_capi_tts_stream")
purego.RegisterLibFunc(&CppASR, handle, "vv_capi_asr")
purego.RegisterLibFunc(&CppUnload, handle, "vv_capi_unload")
purego.RegisterLibFunc(&CppVersion, handle, "vv_capi_version")
})
return model, tokenizer, voice
}
func itEnvOr(key, def string) string {
if v := os.Getenv(key); v != "" {
return v
}
return def
}
// itParseWavPCM returns the int16 PCM samples from a standard WAV file by
// locating the "data" sub-chunk, so it works regardless of how many
// bytes of header/metadata the engine wrote.
func itParseWavPCM(b []byte) []int16 {
// Find the "data" sub-chunk id, then its 4-byte little-endian size.
idx := -1
for i := 12; i+8 <= len(b); i += 2 {
if string(b[i:i+4]) == "data" {
idx = i
break
}
}
Expect(idx).To(BeNumerically(">=", 0), "no data chunk in WAV")
pcmStart := idx + 8
size := int(b[idx+4]) | int(b[idx+5])<<8 | int(b[idx+6])<<16 | int(b[idx+7])<<24
if size <= 0 || pcmStart+size > len(b) {
size = len(b) - pcmStart
}
n := size / 2
out := make([]int16, n)
for i := 0; i < n; i++ {
out[i] = int16(uint16(b[pcmStart+i*2]) | uint16(b[pcmStart+i*2+1])<<8)
}
return out
}
// itRMS computes the root-mean-square of int16 PCM as a sanity signal:
// > 0 means non-silent, and NaN/Inf-free means well-formed samples.
func itRMS(pcm []int16) float64 {
if len(pcm) == 0 {
return 0
}
var sumSq float64
for _, s := range pcm {
v := float64(s)
sumSq += v * v
}
return sqrt(sumSq / float64(len(pcm)))
}
// sqrt via Newton's method to avoid dragging math into the file's tiny
// need (keeps the dependency surface of the test minimal).
func sqrt(x float64) float64 {
if x <= 0 {
return 0
}
z := x
for i := 0; i < 40; i++ {
z = 0.5 * (z + x/z)
}
return z
}
var _ = Describe("VibeVoice-cpp real-model streaming (VIBEVOICE_IT=1)", Ordered, func() {
// The paragraph is deliberately long (multiple sentences) so the
// engine decodes several streaming windows and TTFA is meaningfully
// earlier than full synthesis.
const paragraph = "The quick brown fox jumps over the lazy dog near the riverbank. " +
"A gentle breeze carried the sound of distant bells across the quiet valley. " +
"Streaming synthesis lets you hear the very first words while the rest is still being generated."
var v *VibevoiceCpp
BeforeAll(func() {
model, tokenizer, voice := integrationOrSkip()
v = &VibevoiceCpp{}
err := v.Load(&pb.ModelOptions{
ModelFile: model,
ModelPath: filepath.Dir(model),
Options: []string{
"tokenizer=" + tokenizer,
"voice=" + voice,
},
Threads: 4,
})
Expect(err).ToNot(HaveOccurred(), "Load must succeed with the real model")
})
It("streams audio incrementally and beats the batch path to first audio", func() {
// ---- Streaming run -------------------------------------------
results := make(chan []byte, 256)
streamErr := make(chan error, 1)
start := time.Now()
go func() {
streamErr <- v.TTSStream(&pb.TTSRequest{Text: paragraph}, results)
}()
var (
header []byte
ttfa time.Duration
totalStream time.Duration
chunkCount int
pcmBytes int
firstPCM bool
)
for buf := range results {
if header == nil {
header = buf
continue
}
if len(buf) == 0 {
continue
}
if !firstPCM {
ttfa = time.Since(start)
firstPCM = true
}
chunkCount++
pcmBytes += len(buf)
}
totalStream = time.Since(start)
Expect(<-streamErr).ToNot(HaveOccurred(), "TTSStream returned an error")
// First message must be a 44-byte streaming WAV header.
Expect(header).To(HaveLen(44), "first stream message must be the WAV header")
Expect(string(header[0:4])).To(Equal("RIFF"))
Expect(string(header[8:12])).To(Equal("WAVE"))
// Streaming invariants: multiple windows, real audio, early
// delivery (first audio strictly before the stream completes).
Expect(chunkCount).To(BeNumerically(">=", 2), "expected multiple streamed PCM windows")
Expect(pcmBytes).To(BeNumerically(">", 0), "no PCM bytes streamed")
Expect(firstPCM).To(BeTrue(), "never received a PCM chunk")
Expect(ttfa).To(BeNumerically("<", totalStream), "TTFA must precede stream completion")
// ---- Batch baseline ------------------------------------------
tmp, err := os.MkdirTemp("", "vv-it-batch-*")
Expect(err).ToNot(HaveOccurred())
DeferCleanup(func() { _ = os.RemoveAll(tmp) })
dst := filepath.Join(tmp, "batch.wav")
batchStart := time.Now()
Expect(v.TTS(&pb.TTSRequest{Text: paragraph, Dst: dst})).To(Succeed())
totalBatch := time.Since(batchStart)
wav, err := os.ReadFile(dst)
Expect(err).ToNot(HaveOccurred())
Expect(len(wav)).To(BeNumerically(">", 44), "batch wav has no PCM payload")
Expect(string(wav[0:4])).To(Equal("RIFF"))
Expect(string(wav[8:12])).To(Equal("WAVE"))
batchPCM := itParseWavPCM(wav)
Expect(len(batchPCM)).To(BeNumerically(">", 0), "batch produced no samples")
rms := itRMS(batchPCM)
Expect(rms).To(BeNumerically(">", 0), "batch audio is silent")
Expect(rms).To(BeNumerically("<", 40000), "batch rms out of int16 range (corrupt samples)")
// ---- Headline numbers ----------------------------------------
// Emit to both GinkgoWriter and stderr: GinkgoWriter needs
// -ginkgo.v to surface, stderr is always captured so the headline
// TTFA vs batch numbers are never lost in an unattended run.
ratio := float64(ttfa) / float64(totalBatch)
report := fmt.Sprintf("\n================ vibevoice-cpp streaming TTFA ================\n"+
"input words : ~%d\n"+
"TTFA (first audio) : %v\n"+
"total_stream : %v\n"+
"total_batch : %v\n"+
"stream chunks : %d\n"+
"stream PCM bytes : %d\n"+
"batch samples/rms : %d / %.1f\n"+
"TTFA / total_batch : %.3f (first audio in this fraction of batch's deliver time)\n"+
"==============================================================\n\n",
len(paragraph)/6, ttfa, totalStream, totalBatch, chunkCount, pcmBytes, len(batchPCM), rms, ratio)
for _, out := range []io.Writer{GinkgoWriter, os.Stderr} {
_, _ = io.WriteString(out, report)
}
})
})