Files
majordomo/provider/llamaswap/mesh.go
T
steve e98493bcfb
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feat: media expansion surfaces — edit mask, upscale, background removal, interpolation, diarization, meshgen (ADR-0020)
- imagegen.EditRequest.Mask -> sd-server img2img inpainting (white=repaint)
- imagegen.Upscaler + BackgroundRemover, videogen.Interpolator,
  audio.DiarizationModel: new optional provider-minted surfaces
- NEW meshgen leaf package (image->3D, glb/stl/obj)
- provider/llamaswap: all five via the /upstream/<model>/<path> passthrough
  (upstreamPath helper, shared one-file multipart builder); binary success
  bodies validated (non-image, non-video, JSON-mesh rejection); diarization
  pins output=json (vtt/srt drop speaker labels)

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-12 23:52:34 -04:00

129 lines
4.4 KiB
Go

// mesh.go implements meshgen.Provider against a Hunyuan3D-2.1-style
// api_server reached through llama-swap's /upstream passthrough (ADR-0020):
//
// POST /upstream/<id>/generate JSON {image: <b64>, type: "glb"|"stl"|...}
//
// The response body IS the encoded mesh (binary, Content-Type
// application/octet-stream), so one request yields exactly one asset.
package llamaswap
import (
"bytes"
"context"
"encoding/base64"
"encoding/json"
"fmt"
"net/http"
"strings"
"gitea.stevedudenhoeffer.com/steve/majordomo/llm"
"gitea.stevedudenhoeffer.com/steve/majordomo/meshgen"
)
// maxMeshResponseBytes caps the /generate body — a high-resolution textured
// mesh legitimately passes the 64MB JSON cap, but stays far under video
// scale.
const maxMeshResponseBytes = 256 << 20
// MeshModel implements meshgen.Provider. The id selects which upstream
// llama-swap loads.
func (p *Provider) MeshModel(id string, opts ...meshgen.ModelOption) (meshgen.Model, error) {
if err := p.requireBaseURL(); err != nil {
return nil, err
}
_ = meshgen.ApplyModelOptions(opts)
return &meshModel{p: p, id: id}, nil
}
type meshModel struct {
p *Provider
id string
}
// hunyuanGenerateRequest is the Hunyuan3D api_server /generate shape.
// Optional fields are pointers/omitempty so unset values fall back to the
// server's defaults (mirrors the sd-server wire structs).
type hunyuanGenerateRequest struct {
Image string `json:"image"`
Type string `json:"type,omitempty"`
Texture bool `json:"texture"`
RemoveBackground *bool `json:"remove_background,omitempty"`
OctreeResolution int `json:"octree_resolution,omitempty"`
NumInferenceSteps *int `json:"num_inference_steps,omitempty"`
GuidanceScale *float64 `json:"guidance_scale,omitempty"`
Seed *int64 `json:"seed,omitempty"`
FaceCount int `json:"face_count,omitempty"`
}
// meshFormats maps the supported output containers to MIME types.
var meshFormats = map[string]string{
"glb": "model/gltf-binary",
"stl": "model/stl",
"obj": "model/obj",
}
// Generate implements meshgen.Model.
func (m *meshModel) Generate(ctx context.Context, req meshgen.Request, opts ...meshgen.Option) (*meshgen.Result, error) {
req = req.Apply(opts...)
if len(req.Image.Data) == 0 {
return nil, fmt.Errorf("%w: mesh generation requires an image", llm.ErrUnsupported)
}
format := strings.ToLower(strings.TrimSpace(req.Format))
if format == "" {
format = "glb"
}
mimeType, ok := meshFormats[format]
if !ok {
return nil, fmt.Errorf("%w: unsupported mesh format %q (want glb, stl, or obj)", llm.ErrUnsupported, req.Format)
}
if req.OctreeResolution < 0 || req.FaceCount < 0 {
return nil, fmt.Errorf("%w: octree resolution and face count must be >= 0", llm.ErrUnsupported)
}
path, err := upstreamPath(m.id, "/generate")
if err != nil {
return nil, err
}
wire := hunyuanGenerateRequest{
Image: base64.StdEncoding.EncodeToString(req.Image.Data),
Type: format,
Texture: req.Texture,
RemoveBackground: req.RemoveBackground,
OctreeResolution: req.OctreeResolution,
NumInferenceSteps: req.Steps,
GuidanceScale: req.GuidanceScale,
Seed: req.Seed,
FaceCount: req.FaceCount,
}
// doRaw + manual JSON encode (not doJSON): the SUCCESS body is binary
// mesh bytes, not JSON.
encoded, err := json.Marshal(wire)
if err != nil {
return nil, fmt.Errorf("llama-swap: encode mesh request: %w", err)
}
raw, _, err := m.p.doRaw(ctx, http.MethodPost, path, m.id, "application/json", bytes.NewReader(encoded), maxMeshResponseBytes)
if err != nil {
return nil, err
}
if len(raw) == 0 {
return nil, &llm.APIError{Provider: m.p.name, Model: m.id, Message: "mesh response contained no data"}
}
// A JSON body on the success path is the server reporting a soft error
// (or an API drift) — never hand it back as "the mesh".
if first := strings.TrimLeft(string(raw[:min(len(raw), 64)]), " \t\r\n"); strings.HasPrefix(first, "{") || strings.HasPrefix(first, "[") {
return nil, &llm.APIError{Provider: m.p.name, Model: m.id,
Message: "mesh response is JSON, not mesh bytes: " + truncateForError(raw)}
}
return &meshgen.Result{Mesh: meshgen.Mesh{Data: raw, Format: format, MIME: mimeType}}, nil
}
// truncateForError bounds a payload quoted into an error message.
func truncateForError(b []byte) string {
const cap = 500
if len(b) > cap {
return string(b[:cap]) + "..."
}
return string(b)
}