ref: 3a77c01f43821dcc4f7cae54aff89bb20f2d95a5
dir: /sys/src/cmd/nusb/cam/video.c/
#include <u.h> #include <libc.h> #include <ctype.h> #include <fcall.h> #include <thread.h> #include <9p.h> #include <bio.h> #include "usb.h" #include "uvc.h" #include "dat.h" #include "fns.h" enum { NFrames = 20, /* frames to buffer */ }; VFrame * grabframe(Cam *c) { VFrame *v; VFrame **l; qlock(&c->qulock); if(c->freel != nil) l = &c->freel; else{ assert(c->actl != nil); if(c->actl->p == 0) l = &c->actl; else l = &c->actl->next; } assert(*l != nil); v = *l; *l = v->next; qunlock(&c->qulock); v->next = nil; v->n = 60; v->p = 0; return v; } void pushframe(Cam *c, VFrame *v) { VFrame **l; Req *r; v->next = nil; qlock(&c->qulock); for(l = &c->actl; *l != nil; l = &(*l)->next) ; *l = v; while(c->delreq != nil && c->actl != nil){ r = c->delreq; c->delreq = (Req*)r->qu.next; videoread(r, c, 0); } qunlock(&c->qulock); } void yuy2convert(Format *, VSUncompressedFrame *g, uchar *in, VFrame *out) { int y, x, w, h; double Y0, Y1, U, V, R, G, B; uchar *ip, *op; w = GET2(g->wWidth); h = GET2(g->wHeight); op = out->d + out->n; ip = in; for(y = 0; y < h; y++) for(x = 0; x < w; x += 2){ Y0 = ((int)ip[0] - 16) / 219.0; Y1 = ((int)ip[2] - 16) / 219.0; U = ((int)ip[1] - 128) / 224.0; V = ((int)ip[3] - 128) / 224.0; ip += 4; R = Y0 + V; B = Y0 + U; G = Y0 - 0.509 * V - 0.194 * U; if(R < 0) R = 0; if(R > 1) R = 1; if(G < 0) G = 0; if(G > 1) G = 1; if(B < 0) B = 0; if(B > 1) B = 1; *op++ = R * 255; *op++ = G * 255; *op++ = B * 255; R = Y1 + V; B = Y1 + U; G = Y1 - 0.509 * V - 0.194 * U; if(R < 0) R = 0; if(R > 1) R = 1; if(G < 0) G = 0; if(G > 1) G = 1; if(B < 0) B = 0; if(B > 1) B = 1; *op++ = R * 255; *op++ = G * 255; *op++ = B * 255; } out->n = op - out->d; } struct Converter { uchar guid[16]; void (*fn)(Format *, VSUncompressedFrame *, uchar *, VFrame *); } converters[] = { {{0x59,0x55,0x59,0x32, 0x00,0x00,0x10,0x00, 0x80,0x00,0x00,0xAA, 0x00,0x38,0x9B,0x71}, yuy2convert}, }; struct Converter * getconverter(Format *f) { struct Converter *c; uchar *guid; guid = f->desc->guidFormat; for(c = converters; c < converters + nelem(converters); c++) if(memcmp(guid, c->guid, 16) == 0) return c; werrstr("unknown format %.2X%.2X%.2X%.2X %.2X%.2X%.2X%.2X %.2X%.2X%.2X%.2X %.2X%.2X%.2X%.2X", guid[0], guid[1], guid[2], guid[3], guid[4], guid[5], guid[6], guid[7], guid[8], guid[9], guid[10], guid[11], guid[12], guid[13], guid[14], guid[15]); return nil; } static void freeframes(VFrame **fp) { VFrame *f, *g; for(f = *fp; f != nil; f = g){ g = f->next; free(f); } *fp = nil; } void cvtproc(void *v) { int frsz; Cam *c; Format *f; VSUncompressedFrame *g; uchar *fbuf; int n; int rc; uchar buf[3*1024]; struct Converter *cvt; int bufn; int ob; VFrame *of; c = v; assert(getframedesc(c, c->pc.bFormatIndex, c->pc.bFrameIndex, &f, &g) >= 0); cvt = getconverter(f); assert(cvt != nil); frsz = GET2(g->wWidth) * GET2(g->wHeight) * f->desc->bBitsPerPixel / 8; fbuf = emallocz(frsz, 1); bufn = 0; ob = 0; for(;;){ if(c->abort) break; rc = read(c->ep->dfd, buf, sizeof(buf)); if(c->abort || rc < 0) break; if(rc == 0) continue; if(((ob ^ buf[1]) & 1) != 0 && bufn != 0){ if(!c->framemode || bufn == frsz){ if(bufn < frsz) memset(fbuf + bufn, 0, frsz - bufn); of = grabframe(c); cvt->fn(f, g, fbuf, of); pushframe(c, of); } bufn = 0; } ob = buf[1]; n = rc - buf[0]; if(n > frsz - bufn) n = frsz - bufn; if(n > 0){ memcpy(fbuf + bufn, buf + buf[0], n); bufn += n; } } qlock(&c->qulock); freeframes(&c->actl); freeframes(&c->freel); c->abort = 1; free(fbuf); closedev(c->ep); usbcmd(c->dev, 0x01, Rsetiface, 0, c->iface->id, nil, 0); c->ep = nil; c->active = 0; c->abort = 0; qunlock(&c->qulock); } static Altc * selaltc(Cam *c, ProbeControl *pc) { int k; uvlong bw, bw1, minbw; int mink; Format *fo; VSUncompressedFrame *f; Iface *iface; Altc *altc; if(getframedesc(c, pc->bFormatIndex, pc->bFrameIndex, &fo, &f) < 0){ werrstr("selaltc: PROBE_CONTROL returned invalid bFormatIndex,bFrameIndex=%d,%d", pc->bFormatIndex, pc->bFrameIndex); return nil; } bw = (uvlong)GET2(f->wWidth) * GET2(f->wHeight) * fo->desc->bBitsPerPixel * 10e6 / GET4(c->pc.dwFrameInterval); iface = c->iface; mink = -1; for(k = 0; k < nelem(iface->altc); k++){ altc = iface->altc[k]; if(altc == nil) continue; bw1 = altc->maxpkt * altc->ntds * 8 * 1000 * 8; if(bw1 < bw) continue; if(mink < 0 || bw1 < minbw){ minbw = bw1; mink = k; } } if(mink < 0){ werrstr("device does not have enough bandwidth (need %lld bit/s)", bw); return nil; } if(usbcmd(c->dev, 0x01, Rsetiface, mink, iface->id, nil, 0) < 0){ werrstr("selaltc: SET_INTERFACE(%d, %d): %r", iface->id, mink); return nil; } return iface->altc[mink]; } static void mkframes(Cam *c) { int i; VSUncompressedFrame *f; int frsz; VFrame *v; assert(getframedesc(c, c->pc.bFormatIndex, c->pc.bFrameIndex, nil, &f) >= 0); frsz = GET2(f->wWidth) * GET2(f->wHeight) * 3; for(i = 0; i < NFrames; i++){ v = emallocz(sizeof(VFrame) + 60 + frsz, 1); sprint((char*)&v[1], "%11s %11d %11d %11d %11d ", "b8g8r8", 0, 0, GET2(f->wWidth), GET2(f->wHeight)); v->d = (uchar*)&v[1]; v->sz = frsz; v->n = 60; v->next = c->freel; c->freel = v; } } int videoopen(Cam *c, int fr) { Dev *d; Altc *altc; Dev *ep; Format *f; qlock(&c->qulock); if(c->active){ qunlock(&c->qulock); werrstr("already in use"); return -1; } if(getframedesc(c, c->pc.bFormatIndex, c->pc.bFrameIndex, &f, nil) < 0){ err: qunlock(&c->qulock); return -1; } if(getconverter(f) == nil) goto err; d = c->dev; if(usbcmd(d, 0x01, Rsetiface, 0, c->iface->id, nil, 0) < 0) goto err; if(usbcmd(d, 0x21, SET_CUR, VS_PROBE_CONTROL << 8, c->iface->id, (uchar *) &c->pc, sizeof(ProbeControl)) < sizeof(ProbeControl)) goto err; if(usbcmd(d, 0xA1, GET_CUR, VS_PROBE_CONTROL << 8, c->iface->id, (uchar *) &c->pc, sizeof(ProbeControl)) < 0) goto err; if(usbcmd(d, 0x21, SET_CUR, VS_COMMIT_CONTROL << 8, c->iface->id, (uchar *) &c->pc, sizeof(ProbeControl)) < sizeof(ProbeControl)) goto err; altc = selaltc(c, &c->pc); if(altc == nil) goto err; ep = openep(d, c->hdr->bEndpointAddress & 0x7f); if(ep == nil){ usbcmd(d, 0x01, Rsetiface, 0, c->iface->id, nil, 0); goto err; } devctl(ep, "pollival %d", altc->interval); devctl(ep, "uframes 1"); devctl(ep, "ntds %d", altc->ntds); devctl(ep, "maxpkt %d", altc->maxpkt); if(opendevdata(ep, OREAD) < 0){ usbcmd(d, 0x01, Rsetiface, 0, c->iface->id, nil, 0); closedev(ep); goto err; } c->ep = ep; mkframes(c); c->active = 1; c->framemode = fr; qunlock(&c->qulock); c->cvtid = proccreate(cvtproc, c, 16384); return 0; } void videoclose(Cam *c) { if(c->active == 0 || c->abort) return; c->abort = -1; } void videoread(Req *r, Cam *c, int lock) { VFrame *v; int n; Req **rp; if(lock) qlock(&c->qulock); if(c->active == 0 || c->abort){ if(lock) qunlock(&c->qulock); respond(r, "the front fell off"); return; } if(c->framemode == 2){ c->framemode = 1; if(lock) qunlock(&c->qulock); r->ofcall.count = 0; respond(r, nil); return; } if(c->actl == nil){ for(rp = &c->delreq; *rp != nil; rp = (Req**)&(*rp)->qu.next) ; r->qu.next = nil; *rp = r; if(lock) qunlock(&c->qulock); return; } v = c->actl; n = v->n - v->p; if(n > r->ifcall.count) n = r->ifcall.count; memcpy(r->ofcall.data, v->d + v->p, n); v->p += n; if(v->p == v->n){ if(c->framemode) c->framemode = 2; c->actl = v->next; v->next = c->freel; c->freel = v; } if(lock) qunlock(&c->qulock); r->ofcall.count = n; respond(r, nil); } void videoflush(Req *r, Cam *c) { Req **rp; qlock(&c->qulock); for(rp = &c->delreq; *rp != nil; rp = (Req**)&(*rp)->qu.next) if(*rp == r){ *rp = (Req *) r->qu.next; respond(r, "interrupted"); break; } qunlock(&c->qulock); }