/*
* bcm2385 framebuffer
*/
#include "u.h"
#include "../port/lib.h"
#include "mem.h"
#include "dat.h"
#include "fns.h"
#define Image IMAGE
#include <draw.h>
#include <memdraw.h>
#include <cursor.h>
#include "screen.h"
enum {
Tabstop = 4,
Scroll = 8,
Wid = 1024,
Ht = 768,
Depth = 16,
};
Cursor arrow = {
{ -1, -1 },
{ 0xFF, 0xFF, 0x80, 0x01, 0x80, 0x02, 0x80, 0x0C,
0x80, 0x10, 0x80, 0x10, 0x80, 0x08, 0x80, 0x04,
0x80, 0x02, 0x80, 0x01, 0x80, 0x02, 0x8C, 0x04,
0x92, 0x08, 0x91, 0x10, 0xA0, 0xA0, 0xC0, 0x40,
},
{ 0x00, 0x00, 0x7F, 0xFE, 0x7F, 0xFC, 0x7F, 0xF0,
0x7F, 0xE0, 0x7F, 0xE0, 0x7F, 0xF0, 0x7F, 0xF8,
0x7F, 0xFC, 0x7F, 0xFE, 0x7F, 0xFC, 0x73, 0xF8,
0x61, 0xF0, 0x60, 0xE0, 0x40, 0x40, 0x00, 0x00,
},
};
Memimage *gscreen;
static Memdata xgdata;
static Memimage xgscreen =
{
{ 0, 0, Wid, Ht }, /* r */
{ 0, 0, Wid, Ht }, /* clipr */
Depth, /* depth */
3, /* nchan */
RGB16, /* chan */
nil, /* cmap */
&xgdata, /* data */
0, /* zero */
0, /* width in words of a single scan line */
0, /* layer */
0, /* flags */
};
static Memimage *conscol;
static Memimage *back;
static Memsubfont *memdefont;
static Lock screenlock;
static Point curpos;
static int h, w;
static Rectangle window;
static void myscreenputs(char *s, int n);
static void screenputc(char *buf);
static void screenwin(void);
/*
* Software cursor.
*/
static int swvisible; /* is the cursor visible? */
static int swenabled; /* is the cursor supposed to be on the screen? */
static Memimage *swback; /* screen under cursor */
static Memimage *swimg; /* cursor image */
static Memimage *swmask; /* cursor mask */
static Memimage *swimg1;
static Memimage *swmask1;
static Point swoffset;
static Rectangle swrect; /* screen rectangle in swback */
static Point swpt; /* desired cursor location */
static Point swvispt; /* actual cursor location */
static int swvers; /* incremented each time cursor image changes */
static int swvisvers; /* the version on the screen */
/*
* Support for a SPI LCD panel from Adafruit
* based on HX8357D controller chip
*/
enum {
TFTWidth = 480,
TFTHeight = 320,
};
static void pitftblank(int);
static void pitftdraw(Rectangle);
static void pitftinit(void);
static long pitftread(Chan*, void*, long, vlong);
static long pitftwrite(Chan*, void*, long, vlong);
static void spicmd(uchar);
static void spidata(uchar *, int);
static void setwindow(int, int, int, int);
static void xpitftdraw(void *);
static Queue *updateq = nil;
/*
* called with drawlock locked for us, most of the time.
* kernel prints at inopportune times might mean we don't
* hold the lock, but memimagedraw is now reentrant so
* that should be okay: worst case we get cursor droppings.
*/
static void
swcursorhide(void)
{
if(swvisible == 0)
return;
if(swback == nil)
return;
swvisible = 0;
memimagedraw(gscreen, swrect, swback, ZP, memopaque, ZP, S);
flushmemscreen(swrect);
}
static void
swcursoravoid(Rectangle r)
{
if(swvisible && rectXrect(r, swrect))
swcursorhide();
}
static void
swcursordraw(void)
{
int dounlock;
if(swvisible)
return;
if(swenabled == 0)
return;
if(swback == nil || swimg1 == nil || swmask1 == nil)
return;
dounlock = canqlock(&drawlock);
swvispt = swpt;
swvisvers = swvers;
swrect = rectaddpt(Rect(0,0,16,16), swvispt);
memimagedraw(swback, swback->r, gscreen, swpt, memopaque, ZP, S);
memimagedraw(gscreen, swrect, swimg1, ZP, swmask1, ZP, SoverD);
flushmemscreen(swrect);
swvisible = 1;
if(dounlock)
qunlock(&drawlock);
}
int
cursoron(int dolock)
{
int retry;
if (dolock)
lock(&cursor);
if (canqlock(&drawlock)) {
retry = 0;
swcursorhide();
swcursordraw();
qunlock(&drawlock);
} else
retry = 1;
if (dolock)
unlock(&cursor);
return retry;
}
void
cursoroff(int dolock)
{
if (dolock)
lock(&cursor);
swcursorhide();
if (dolock)
unlock(&cursor);
}
static void
swload(Cursor *curs)
{
uchar *ip, *mp;
int i, j, set, clr;
if(!swimg || !swmask || !swimg1 || !swmask1)
return;
/*
* Build cursor image and mask.
* Image is just the usual cursor image
* but mask is a transparent alpha mask.
*
* The 16x16x8 memimages do not have
* padding at the end of their scan lines.
*/
ip = byteaddr(swimg, ZP);
mp = byteaddr(swmask, ZP);
for(i=0; i<32; i++){
set = curs->set[i];
clr = curs->clr[i];
for(j=0x80; j; j>>=1){
*ip++ = set&j ? 0x00 : 0xFF;
*mp++ = (clr|set)&j ? 0xFF : 0x00;
}
}
swoffset = curs->offset;
swvers++;
memimagedraw(swimg1, swimg1->r, swimg, ZP, memopaque, ZP, S);
memimagedraw(swmask1, swmask1->r, swmask, ZP, memopaque, ZP, S);
}
/* called from devmouse */
void
setcursor(Cursor* curs)
{
cursoroff(0);
swload(curs);
cursoron(0);
}
static int
swmove(Point p)
{
swpt = addpt(p, swoffset);
return 0;
}
static void
swcursorclock(void)
{
int x;
if(!swenabled)
return;
swmove(mousexy());
if(swvisible && eqpt(swpt, swvispt) && swvers==swvisvers)
return;
x = splhi();
if(swenabled)
if(!swvisible || !eqpt(swpt, swvispt) || swvers!=swvisvers)
if(canqlock(&drawlock)){
swcursorhide();
swcursordraw();
qunlock(&drawlock);
}
splx(x);
}
void
swcursorinit(void)
{
static int init;
if(!init){
init = 1;
addclock0link(swcursorclock, 10);
swenabled = 1;
}
if(swback){
freememimage(swback);
freememimage(swmask);
freememimage(swmask1);
freememimage(swimg);
freememimage(swimg1);
}
swback = allocmemimage(Rect(0,0,32,32), gscreen->chan);
swmask = allocmemimage(Rect(0,0,16,16), GREY8);
swmask1 = allocmemimage(Rect(0,0,16,16), GREY1);
swimg = allocmemimage(Rect(0,0,16,16), GREY8);
swimg1 = allocmemimage(Rect(0,0,16,16), GREY1);
if(swback==nil || swmask==nil || swmask1==nil || swimg==nil || swimg1 == nil){
print("software cursor: allocmemimage fails\n");
return;
}
memfillcolor(swmask, DOpaque);
memfillcolor(swmask1, DOpaque);
memfillcolor(swimg, DBlack);
memfillcolor(swimg1, DBlack);
}
int
hwdraw(Memdrawparam *par)
{
Memimage *dst, *src, *mask;
if((dst=par->dst) == nil || dst->data == nil)
return 0;
if((src=par->src) == nil || src->data == nil)
return 0;
if((mask=par->mask) == nil || mask->data == nil)
return 0;
if(dst->data->bdata == xgdata.bdata)
swcursoravoid(par->r);
if(src->data->bdata == xgdata.bdata)
swcursoravoid(par->sr);
if(mask->data->bdata == xgdata.bdata)
swcursoravoid(par->mr);
pitftdraw(par->r);
return 0;
}
static int
screensize(void)
{
char *p;
char *f[3];
int width, height, depth;
p = getconf("vgasize");
if(p == nil || getfields(p, f, nelem(f), 0, "x") != nelem(f) ||
(width = atoi(f[0])) < 16 ||
(height = atoi(f[1])) <= 0 ||
(depth = atoi(f[2])) <= 0)
return -1;
xgscreen.r.max = Pt(width, height);
xgscreen.depth = depth;
return 0;
}
void
screeninit(void)
{
uchar *fb;
int set;
ulong chan;
set = screensize() == 0;
fb = fbinit(set, &xgscreen.r.max.x, &xgscreen.r.max.y, &xgscreen.depth);
if(fb == nil){
print("can't initialise %dx%dx%d framebuffer \n",
xgscreen.r.max.x, xgscreen.r.max.y, xgscreen.depth);
return;
}
xgscreen.clipr = xgscreen.r;
switch(xgscreen.depth){
default:
print("unsupported screen depth %d\n", xgscreen.depth);
xgscreen.depth = 16;
/* fall through */
case 16:
chan = RGB16;
break;
case 24:
chan = BGR24;
break;
case 32:
chan = ARGB32;
break;
}
memsetchan(&xgscreen, chan);
conf.monitor = 1;
xgdata.bdata = fb;
xgdata.ref = 1;
gscreen = &xgscreen;
gscreen->width = wordsperline(gscreen->r, gscreen->depth);
memimageinit();
memdefont = getmemdefont();
screenwin();
screenputs = myscreenputs;
pitftinit();
}
void
flushmemscreen(Rectangle)
{
}
uchar*
attachscreen(Rectangle *r, ulong *chan, int* d, int *width, int *softscreen)
{
*r = gscreen->r;
*d = gscreen->depth;
*chan = gscreen->chan;
*width = gscreen->width;
*softscreen = 0;
return gscreen->data->bdata;
}
void
getcolor(ulong p, ulong *pr, ulong *pg, ulong *pb)
{
USED(p, pr, pg, pb);
}
int
setcolor(ulong p, ulong r, ulong g, ulong b)
{
USED(p, r, g, b);
return 0;
}
void
blankscreen(int blank)
{
fbblank(blank);
pitftblank(blank);
}
static void
myscreenputs(char *s, int n)
{
int i;
Rune r;
char buf[4];
if(!islo()) {
/* don't deadlock trying to print in interrupt */
if(!canlock(&screenlock))
return;
}
else
lock(&screenlock);
while(n > 0){
i = chartorune(&r, s);
if(i == 0){
s++;
--n;
continue;
}
memmove(buf, s, i);
buf[i] = 0;
n -= i;
s += i;
screenputc(buf);
}
unlock(&screenlock);
}
static void
screenwin(void)
{
char *greet;
Memimage *orange;
Point p, q;
Rectangle r;
back = memwhite;
conscol = memblack;
orange = allocmemimage(Rect(0, 0, 1, 1), RGB16);
orange->flags |= Frepl;
orange->clipr = gscreen->r;
orange->data->bdata[0] = 0x40; /* magic: colour? */
orange->data->bdata[1] = 0xfd; /* magic: colour? */
w = memdefont->info[' '].width;
h = memdefont->height;
r = insetrect(gscreen->r, 4);
memimagedraw(gscreen, r, memblack, ZP, memopaque, ZP, S);
window = insetrect(r, 4);
memimagedraw(gscreen, window, memwhite, ZP, memopaque, ZP, S);
memimagedraw(gscreen, Rect(window.min.x, window.min.y,
window.max.x, window.min.y + h + 5 + 6), orange, ZP, nil, ZP, S);
freememimage(orange);
window = insetrect(window, 5);
greet = " Plan 9 Console ";
p = addpt(window.min, Pt(10, 0));
q = memsubfontwidth(memdefont, greet);
memimagestring(gscreen, p, conscol, ZP, memdefont, greet);
flushmemscreen(r);
window.min.y += h + 6;
curpos = window.min;
window.max.y = window.min.y + ((window.max.y - window.min.y) / h) * h;
}
static void
scroll(void)
{
int o;
Point p;
Rectangle r;
o = Scroll*h;
r = Rpt(window.min, Pt(window.max.x, window.max.y-o));
p = Pt(window.min.x, window.min.y+o);
memimagedraw(gscreen, r, gscreen, p, nil, p, S);
flushmemscreen(r);
pitftdraw(r);
r = Rpt(Pt(window.min.x, window.max.y-o), window.max);
memimagedraw(gscreen, r, back, ZP, nil, ZP, S);
flushmemscreen(r);
pitftdraw(r);
curpos.y -= o;
}
static void
screenputc(char *buf)
{
int w;
uint pos;
Point p;
Rectangle r;
static int *xp;
static int xbuf[256];
if (xp < xbuf || xp >= &xbuf[sizeof(xbuf)])
xp = xbuf;
switch (buf[0]) {
case '\n':
if (curpos.y + h >= window.max.y)
scroll();
curpos.y += h;
screenputc("\r");
break;
case '\r':
xp = xbuf;
curpos.x = window.min.x;
break;
case '\t':
p = memsubfontwidth(memdefont, " ");
w = p.x;
if (curpos.x >= window.max.x - Tabstop * w)
screenputc("\n");
pos = (curpos.x - window.min.x) / w;
pos = Tabstop - pos % Tabstop;
*xp++ = curpos.x;
r = Rect(curpos.x, curpos.y, curpos.x + pos * w, curpos.y + h);
memimagedraw(gscreen, r, back, back->r.min, nil, back->r.min, S);
flushmemscreen(r);
curpos.x += pos * w;
break;
case '\b':
if (xp <= xbuf)
break;
xp--;
r = Rect(*xp, curpos.y, curpos.x, curpos.y + h);
memimagedraw(gscreen, r, back, back->r.min, nil, back->r.min, S);
flushmemscreen(r);
curpos.x = *xp;
break;
case '\0':
break;
default:
p = memsubfontwidth(memdefont, buf);
w = p.x;
if (curpos.x >= window.max.x - w)
screenputc("\n");
*xp++ = curpos.x;
r = Rect(curpos.x, curpos.y, curpos.x + w, curpos.y + h);
memimagedraw(gscreen, r, back, back->r.min, nil, back->r.min, S);
memimagestring(gscreen, curpos, conscol, ZP, memdefont, buf);
flushmemscreen(r);
curpos.x += w;
break;
}
}
static void
pitftinit(void)
{
addarchfile("pitft", 0666, pitftread, pitftwrite);
}
static long
pitftread(Chan *c, void *a, long n, vlong)
{
USED(c);
USED(a);
USED(n);
return 0;
}
static void
pitftsetup(void)
{
uchar spibuf[32];
gpiosel(25, Output);
spirw(0, spibuf, 1);
spicmd(0x01);
delay(10);
spicmd(0x11);
delay(10);
spicmd(0x29);
spicmd(0x13);
spicmd(0x36);
spibuf[0] = 0xe8;
spidata(spibuf, 1);
spicmd(0x3a);
spibuf[0] = 0x05;
spidata(spibuf, 1);
}
static long
pitftwrite(Chan *, void *a, long n, vlong)
{
if(strncmp(a, "init", 4) == 0) {
/*
* The HX8357 datasheet shows minimum
* clock cycle time of 66nS but the clock high
* and low times as 15nS and it seems to
* work at around 32MHz.
*/
spiclock(32);
pitftsetup();
updateq = qopen(16384, 1, nil, nil);
kproc("pitft", xpitftdraw, nil);
}
return n;
}
static void
pitftblank(int blank)
{
USED(blank);
}
static void
pitftdraw(Rectangle r)
{
if(updateq == nil)
return;
if(r.min.x > TFTWidth || r.min.y > TFTHeight)
return;
/*
* using qproduce to make sure we don't block
* but if we've got a lot on the queue, it means we're
* redrawing the same areas over and over; clear it
* out and just draw the whole screen once
*/
if(qproduce(updateq, &r, sizeof(Rectangle)) == -1) {
r = Rect(0, 0, TFTWidth, TFTHeight);
qflush(updateq);
qproduce(updateq, &r, sizeof(Rectangle));
}
}
int
overlap(Rectangle r1, Rectangle r2)
{
if(r1.max.x < r2.min.x)
return 0;
if(r1.min.x > r2.max.x)
return 0;
if(r1.max.y < r2.min.y)
return 0;
if(r1.min.y > r2.max.y)
return 0;
return 1;
}
int
min(int x, int y)
{
if(x < y)
return x;
return y;
}
int
max(int x, int y)
{
if(x < y)
return y;
return x;
}
/*
* Because everyone wants to be holding locks when
* they update the screen but we need to sleep in the
* SPI code, we're decoupling this into a separate kproc().
*/
static void
xpitftdraw(void *)
{
Rectangle rec, bb;
Point pt;
uchar *p;
int i, r, c, gotrec;
uchar spibuf[32];
gotrec = 0;
qread(updateq, &rec, sizeof(Rectangle));
bb = Rect(0, 0, TFTWidth, TFTHeight);
while(1) {
setwindow(bb.min.x, bb.min.y,
bb.max.x-1, bb.max.y-1);
spicmd(0x2c);
for(r = bb.min.y; r < bb.max.y; ++r) {
for(c = bb.min.x; c < bb.max.x; c += 8) {
for(i = 0; i < 8; ++i) {
pt.y = r;
pt.x = c + i;
p = byteaddr(&xgscreen, pt);
switch(xgscreen.depth) {
case 16: // RGB16
spibuf[i*2+1] = p[0];
spibuf[i*2] = p[1];
break;
case 24: // BGR24
spibuf[i*2] = (p[2] & 0xf8) |
(p[1] >> 5);
spibuf[i*2+1] = (p[0] >> 3) |
(p[1] << 3);
break;
case 32: // ARGB32
spibuf[i*2] = (p[0] & 0xf8) |
(p[1] >> 5);
spibuf[i*2+1] = (p[1] >> 3) |
(p[1] << 3);
break;
}
}
spidata(spibuf, 16);
}
}
bb.max.y = -1;
while(1) {
if(!gotrec) {
qread(updateq, &rec, sizeof(Rectangle));
gotrec = 1;
}
if(bb.max.y != -1) {
if(!overlap(bb, rec))
break;
rec.min.x = min(rec.min.x, bb.min.x);
rec.min.y = min(rec.min.y, bb.min.y);
rec.max.x = max(rec.max.x, bb.max.x);
rec.max.y = max(rec.max.y, bb.max.y);
}
gotrec = 0;
// Expand rows to 8 pixel alignment
bb.min.x = rec.min.x & ~7;
if(bb.min.x < 0)
bb.min.x = 0;
bb.max.x = (rec.max.x + 7) & ~7;
if(bb.max.x > TFTWidth)
bb.max.x = TFTWidth;
bb.min.y = rec.min.y;
if(bb.min.y < 0)
bb.min.y = 0;
bb.max.y = rec.max.y;
if(bb.max.y > TFTHeight)
bb.max.y = TFTHeight;
if(qcanread(updateq)) {
qread(updateq, &rec, sizeof(Rectangle));
gotrec = 1;
}
else
break;
}
}
}
static void
spicmd(uchar c)
{
char buf;
gpioout(25, 0);
buf = c;
spirw(0, &buf, 1);
}
static void
spidata(uchar *p, int n)
{
char buf[128];
if(n > 128)
n = 128;
gpioout(25, 1);
memmove(buf, p, n);
spirw(0, buf, n);
gpioout(25, 0);
}
static void
setwindow(int minc, int minr, int maxc, int maxr)
{
uchar spibuf[4];
spicmd(0x2a);
spibuf[0] = minc >> 8;
spibuf[1] = minc & 0xff;
spibuf[2] = maxc >> 8;
spibuf[3] = maxc & 0xff;
spidata(spibuf, 4);
spicmd(0x2b);
spibuf[0] = minr >> 8;
spibuf[1] = minr & 0xff;
spibuf[2] = maxr >> 8;
spibuf[3] = maxr & 0xff;
spidata(spibuf, 4);
}
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