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|
/* $OpenBSD: tcx.c,v 1.45 2010/05/13 20:35:43 miod Exp $ */
/* $NetBSD: tcx.c,v 1.8 1997/07/29 09:58:14 fair Exp $ */
/*
* Copyright (c) 2002, 2003, 2008 Miodrag Vallat. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
* ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
*
* Copyright (c) 1996 The NetBSD Foundation, Inc.
* All rights reserved.
*
* This code is derived from software contributed to The NetBSD Foundation
* by Paul Kranenburg.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
/*
* Color display (TCX) driver.
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/device.h>
#include <sys/conf.h>
#include <uvm/uvm_extern.h>
#include <machine/autoconf.h>
#include <machine/pmap.h>
#include <machine/cpu.h>
#include <machine/conf.h>
#include <sparc/sparc/asm.h>
#include <machine/ctlreg.h>
#include <dev/wscons/wsconsio.h>
#include <dev/wscons/wsdisplayvar.h>
#include <dev/rasops/rasops.h>
#include <machine/fbvar.h>
#include <sparc/dev/btreg.h>
#include <sparc/dev/btvar.h>
#include <sparc/dev/tcxreg.h>
#include <dev/ic/bt458reg.h>
#include <dev/cons.h> /* for prom console hook */
/* per-display variables */
struct tcx_softc {
struct sunfb sc_sunfb; /* common base part */
struct rom_reg sc_phys[2]; /* copy of prom ranges for mmap */
volatile struct bt_regs *sc_bt; /* Brooktree registers */
volatile struct tcx_thc *sc_thc;/* THC registers */
volatile u_int8_t *sc_dfb8; /* 8 bit plane */
paddr_t sc_cplane; /* S24 control plane PA */
union bt_cmap sc_cmap; /* Brooktree color map */
struct intrhand sc_ih;
/* acceleration parts */
paddr_t sc_stipple; /* Stipple space PA */
paddr_t sc_blit; /* Blitter space PA */
int sc_blit_width; /* maximal blith width */
int (*sc_plain_copycols)(void *, int, int, int, int);
};
void tcx_accel_init(struct tcx_softc *, struct confargs *);
void tcx_accel_plug(struct tcx_softc *, struct confargs *);
void tcx_blit(struct tcx_softc *, uint32_t, uint32_t, int);
void tcx_burner(void *, u_int, u_int);
int tcx_copyrows(void *, int, int, int);
int tcx_copycols(void *, int, int, int, int);
int tcx_do_cursor(struct rasops_info *);
int tcx_erasecols(void *, int, int, int, long);
int tcx_eraserows(void *, int, int, long);
int tcx_intr(void *);
int tcx_ioctl(void *, u_long, caddr_t, int, struct proc *);
static __inline__
void tcx_loadcmap_deferred(struct tcx_softc *, u_int, u_int);
paddr_t tcx_mmap(void *, off_t, int);
void tcx_prom(void *);
int tcx_putchar(void *, int, int, u_int, long);
void tcx_reset(struct tcx_softc *, int);
void tcx_s24_reset(struct tcx_softc *, int);
void tcx_setcolor(void *, u_int, u_int8_t, u_int8_t, u_int8_t);
void tcx_stipple(struct tcx_softc *, int, int, int, int, int);
struct wsdisplay_accessops tcx_accessops = {
tcx_ioctl,
tcx_mmap,
NULL, /* alloc_screen */
NULL, /* free_screen */
NULL, /* show_screen */
NULL, /* load_font */
NULL, /* scrollback */
NULL, /* getchar */
tcx_burner,
NULL /* pollc */
};
int tcxmatch(struct device *, void *, void *);
void tcxattach(struct device *, struct device *, void *);
const struct cfattach tcx_ca = {
sizeof(struct tcx_softc), tcxmatch, tcxattach
};
struct cfdriver tcx_cd = {
NULL, "tcx", DV_DULL
};
/*
* There are three ways to access the framebuffer memory of the S24:
* - 26 bits per pixel, in 32-bit words; the low-order 24 bits are blue,
* green and red values, and the other two bits select the display modes,
* per pixel.
* This is the view we'll use to initialize the frame buffer.
* - 24 bits per pixel, in 32-bit words; the high-order byte reads as zero,
* and is ignored on writes (so the mode bits can not be altered).
* This is the view available via mmap, for the X server.
* - 8 bits per pixel, unpadded; writes to this space do not modify the
* other 18 bits, which are hidden.
* This is the view used for the console emulation mode, as well as for
* the X server on 8-bit only devices.
*
* The entry-level tcx found on the SPARCstation 4 can only provide the 8-bit
* mode.
*
* Both flavours can be told out by the `tcx-8-bit' property; also, on
* 8-bit tcx, the 24 bit color regions have a size of zero (or one with
* the most recent PROM versions).
*/
#define TCX_CTL_8_MAPPED 0x00000000 /* 8 bits, uses colormap */
#define TCX_CTL_24_MAPPED 0x01000000 /* 24 bits, uses colormap */
#define TCX_CTL_24_LEVEL 0x03000000 /* 24 bits, direct color */
#define TCX_CTL_PIXELMASK 0x00ffffff /* mask for index/level */
int
tcxmatch(struct device *parent, void *vcf, void *aux)
{
struct confargs *ca = aux;
struct romaux *ra = &ca->ca_ra;
if (strcmp(ra->ra_name, "SUNW,tcx") != 0)
return (0);
return (1);
}
void
tcxattach(struct device *parent, struct device *self, void *args)
{
struct tcx_softc *sc = (struct tcx_softc *)self;
struct confargs *ca = args;
int node, pri;
int isconsole = 0;
char *nam = NULL;
vaddr_t thc_offset;
pri = ca->ca_ra.ra_intr[0].int_pri;
printf(" pri %d: ", pri);
node = ca->ca_ra.ra_node;
isconsole = node == fbnode;
if (ca->ca_ra.ra_nreg < TCX_NREG) {
printf("expected %d registers, got %d\n",
TCX_NREG, ca->ca_ra.ra_nreg);
return;
}
nam = getpropstring(node, "model");
if (*nam != '\0')
printf("%s, ", nam);
/*
* Copy the register address spaces needed for mmap operation.
*/
sc->sc_phys[0] = ca->ca_ra.ra_reg[TCX_REG_DFB8];
sc->sc_phys[1] = ca->ca_ra.ra_reg[TCX_REG_DFB24];
/*
* Can't trust the PROM range len here, it is only 4 bytes on the
* 8-bit model. Not that it matters much anyway since we map in
* pages.
*/
sc->sc_bt = (volatile struct bt_regs *)
mapiodev(&ca->ca_ra.ra_reg[TCX_REG_CMAP], 0, sizeof *sc->sc_bt);
/*
* For some reason S24 PROM sets up TEC and THC ranges at the
* right addresses (701000 and 301000), while 8 bit TCX doesn't
* (and uses 70000 and 30000) - be sure to only compensate on 8 bit
* models.
*/
if (((vaddr_t)ca->ca_ra.ra_reg[TCX_REG_THC].rr_paddr & 0x1000) != 0)
thc_offset = 0;
else
thc_offset = 0x1000;
sc->sc_thc = (volatile struct tcx_thc *)
mapiodev(&ca->ca_ra.ra_reg[TCX_REG_THC],
thc_offset, sizeof *sc->sc_thc);
/*
* Find out frame buffer geometry, so that we know how much
* memory to map.
*/
fb_setsize(&sc->sc_sunfb, 8, 1152, 900, node, ca->ca_bustype);
sc->sc_dfb8 = mapiodev(&ca->ca_ra.ra_reg[TCX_REG_DFB8], 0,
round_page(sc->sc_sunfb.sf_fbsize));
/*
* If the frame buffer advertizes itself as the 8 bit model, or
* if the PROM ranges are too small, limit ourselves to 8 bit
* operations.
*
* Further code needing to know which capabilities the frame buffer
* has will rely on sc_cplane being non-zero if 24 bit operation
* is possible.
*/
if (!node_has_property(node, "tcx-8-bit") &&
ca->ca_ra.ra_reg[TCX_REG_RDFB32].rr_len >=
sc->sc_sunfb.sf_fbsize * 4) {
sc->sc_cplane =
(paddr_t)ca->ca_ra.ra_reg[TCX_REG_RDFB32].rr_paddr;
}
printf("%dx%dx%d\n",
sc->sc_sunfb.sf_width, sc->sc_sunfb.sf_height,
sc->sc_cplane == 0 ? 8 : 24);
/*
* Set up mappings for the acceleration code. This may fail.
*/
tcx_accel_init(sc, ca);
/* reset cursor & frame buffer controls */
tcx_reset(sc, 8);
/* enable video */
tcx_burner(sc, 1, 0);
sc->sc_sunfb.sf_ro.ri_hw = sc;
sc->sc_sunfb.sf_ro.ri_bits = (void *)sc->sc_dfb8;
fbwscons_init(&sc->sc_sunfb, isconsole);
fbwscons_setcolormap(&sc->sc_sunfb, tcx_setcolor);
/*
* Now plug accelerated console routines, if possible.
*/
tcx_accel_plug(sc, ca);
sc->sc_ih.ih_fun = tcx_intr;
sc->sc_ih.ih_arg = sc;
intr_establish(pri, &sc->sc_ih, IPL_FB, self->dv_xname);
if (isconsole) {
fbwscons_console_init(&sc->sc_sunfb, -1);
shutdownhook_establish(tcx_prom, sc);
}
fbwscons_attach(&sc->sc_sunfb, &tcx_accessops, isconsole);
}
int
tcx_ioctl(void *dev, u_long cmd, caddr_t data, int flags, struct proc *p)
{
struct tcx_softc *sc = dev;
struct wsdisplay_cmap *cm;
struct wsdisplay_fbinfo *wdf;
int error;
/*
* Note that, although the emulation (text) mode is running in 8-bit
* mode, if the frame buffer is able to run in 24-bit mode, it will
* be advertized as such.
*/
switch (cmd) {
case WSDISPLAYIO_GTYPE:
*(u_int *)data = WSDISPLAY_TYPE_SUNTCX;
break;
case WSDISPLAYIO_GINFO:
wdf = (struct wsdisplay_fbinfo *)data;
wdf->height = sc->sc_sunfb.sf_height;
wdf->width = sc->sc_sunfb.sf_width;
wdf->depth = sc->sc_sunfb.sf_depth;
wdf->cmsize = sc->sc_cplane == 0 ? 256 : 0;
break;
case WSDISPLAYIO_GETSUPPORTEDDEPTH:
if (sc->sc_cplane != 0)
*(u_int *)data = WSDISPLAYIO_DEPTH_24_32;
else
return (-1);
break;
case WSDISPLAYIO_LINEBYTES:
if (sc->sc_cplane == 0)
*(u_int *)data = sc->sc_sunfb.sf_linebytes;
else
*(u_int *)data = sc->sc_sunfb.sf_linebytes * 4;
break;
case WSDISPLAYIO_GETCMAP:
if (sc->sc_cplane == 0) {
cm = (struct wsdisplay_cmap *)data;
error = bt_getcmap(&sc->sc_cmap, cm);
if (error)
return (error);
}
break;
case WSDISPLAYIO_PUTCMAP:
if (sc->sc_cplane == 0) {
cm = (struct wsdisplay_cmap *)data;
error = bt_putcmap(&sc->sc_cmap, cm);
if (error)
return (error);
tcx_loadcmap_deferred(sc, cm->index, cm->count);
}
break;
case WSDISPLAYIO_SMODE:
if (*(int *)data == WSDISPLAYIO_MODE_EMUL) {
/* Back from X11 to text mode */
tcx_reset(sc, 8);
} else {
/* Starting X11, try to switch to 24 bit mode */
if (sc->sc_cplane != 0)
tcx_reset(sc, 32);
}
break;
case WSDISPLAYIO_SVIDEO:
case WSDISPLAYIO_GVIDEO:
break;
default:
return (-1); /* not supported yet */
}
return (0);
}
void
tcx_reset(struct tcx_softc *sc, int depth)
{
volatile struct bt_regs *bt;
/* Hide the cursor, just in case */
sc->sc_thc->thc_cursoraddr = THC_CURSOFF;
/* Enable cursor in Brooktree DAC. */
bt = sc->sc_bt;
bt->bt_addr = BT_CR << 24;
bt->bt_ctrl |= (BTCR_DISPENA_OV1 | BTCR_DISPENA_OV0) << 24;
/*
* Change mode if appropriate
*/
if (sc->sc_sunfb.sf_depth != depth) {
if (sc->sc_cplane != 0) {
tcx_s24_reset(sc, depth);
}
if (depth == 8)
fbwscons_setcolormap(&sc->sc_sunfb, tcx_setcolor);
}
sc->sc_sunfb.sf_depth = depth;
}
void
tcx_prom(void *v)
{
struct tcx_softc *sc = v;
extern struct consdev consdev_prom;
if (sc->sc_sunfb.sf_depth != 8) {
/*
* Select 8-bit mode.
*/
tcx_reset(sc, 8);
/*
* Go back to prom output for the last few messages, so they
* will be displayed correctly.
*/
cn_tab = &consdev_prom;
}
}
void
tcx_burner(void *v, u_int on, u_int flags)
{
struct tcx_softc *sc = v;
int s;
u_int32_t thcm;
s = splhigh();
thcm = sc->sc_thc->thc_hcmisc;
if (on) {
thcm |= THC_MISC_VIDEN;
thcm &= ~(THC_MISC_VSYNC_DISABLE | THC_MISC_HSYNC_DISABLE);
} else {
thcm &= ~THC_MISC_VIDEN;
if (flags & WSDISPLAY_BURN_VBLANK)
thcm |= THC_MISC_VSYNC_DISABLE | THC_MISC_HSYNC_DISABLE;
}
sc->sc_thc->thc_hcmisc = thcm;
splx(s);
}
paddr_t
tcx_mmap(void *v, off_t offset, int prot)
{
struct tcx_softc *sc = v;
int regno;
if (offset & PGOFSET || offset < 0)
return (-1);
/* Allow mapping as a dumb framebuffer from offset 0 */
if (sc->sc_sunfb.sf_depth == 8 && offset < sc->sc_sunfb.sf_fbsize)
regno = 0; /* copy of TCX_REG_DFB8 */
else if (sc->sc_sunfb.sf_depth != 8 &&
offset < sc->sc_sunfb.sf_fbsize * 4)
regno = 1; /* copy of TCX_REG_RDFB32 */
else
return (-1);
return (REG2PHYS(&sc->sc_phys[regno], offset) | PMAP_NC);
}
void
tcx_setcolor(void *v, u_int index, u_int8_t r, u_int8_t g, u_int8_t b)
{
struct tcx_softc *sc = v;
bt_setcolor(&sc->sc_cmap, sc->sc_bt, index, r, g, b, 1);
}
static __inline__ void
tcx_loadcmap_deferred(struct tcx_softc *sc, u_int start, u_int ncolors)
{
u_int32_t thcm;
thcm = sc->sc_thc->thc_hcmisc;
thcm |= THC_MISC_INTEN;
sc->sc_thc->thc_hcmisc = thcm;
}
int
tcx_intr(void *v)
{
struct tcx_softc *sc = v;
u_int32_t thcm;
thcm = sc->sc_thc->thc_hcmisc;
if (thcm & THC_MISC_INTEN) {
thcm &= ~(THC_MISC_INTR | THC_MISC_INTEN);
/* Acknowledge the interrupt */
sc->sc_thc->thc_hcmisc = thcm | THC_MISC_INTR;
bt_loadcmap(&sc->sc_cmap, sc->sc_bt, 0, 256, 1);
/* Disable further interrupts now */
sc->sc_thc->thc_hcmisc = thcm;
return (1);
}
return (0);
}
/*
* Switch video mode and clear screen
*/
void
tcx_s24_reset(struct tcx_softc *sc, int depth)
{
struct rasops_info *ri = &sc->sc_sunfb.sf_ro;
uint32_t pixel;
paddr_t dst;
int n;
if (depth == 8)
pixel = TCX_CTL_8_MAPPED | (ri->ri_devcmap[WSCOL_WHITE] & 0xff);
else
pixel = TCX_CTL_24_LEVEL | 0xffffff;
/*
* Set the first 32 pixels as white in the intended mode, using the
* control plane.
*/
dst = sc->sc_cplane;
for (n = 32; n != 0; n--) {
sta(dst, ASI_BYPASS, pixel);
dst += 4;
}
/*
* Do the remaining pixels: either with the blitter if we can use it,
* or continuing manual writes if we can't.
*/
if (sc->sc_blit != 0) {
dst = sc->sc_blit + (32 << 3);
pixel = ((sc->sc_blit_width - 1) << 24) | 0;
for (n = sc->sc_sunfb.sf_fbsize - 32; n != 0;
n -= sc->sc_blit_width) {
stda(dst, ASI_BYPASS, pixel);
dst += sc->sc_blit_width << 3;
}
} else {
/* this relies on video memory being contiguous */
for (n = sc->sc_sunfb.sf_fbsize - 32; n != 0; n--) {
sta(dst, ASI_BYPASS, pixel);
dst += 4;
}
}
}
/*
* Accelerated console operations
*
* Most of the TCX and S24 frame buffers can not perform simple ROPs
* besides GXcopy. Those which can, have a ``stip-rop'' property,
* and appear to support at least copy and invert rops.
*
* We use the blitter for block moves: copycols, copyrows; and the
* stipple for solid fills: erasecols, eraserows, putchar.
*
* This work has been made possible thanks to the information collected in
* http://ftp.rodents-montreal.org/mouse/docs/Sun/S24/memory-map
* and experiments.
*
* It turns out that frame buffer memory is contiguous, so addressing
* of a given (x,y) pixel is always (y * width + x), regardless of the
* actual frame buffer resolution.
*/
void
tcx_accel_init(struct tcx_softc *sc, struct confargs *ca)
{
int stipple_align, regno;
/*
* On S24, try and map raw blit and raw stipple spaces.
* We prefer the raw spaces so that we can eventually switch
* between 8 bit and 24 bit modes with blitter operations.
*
* However, on 8-bit TCX, these spaces are missing (and empty!),
* so we should fallback to non-raw spaces in this case.
*
* Since this frame buffer can only exist on SS4 and SS5,
* we can rely upon the fact this code will only run on sun4m,
* and use stda() bypassing the MMU to access these spaces,
* instead of mapping them (8MB KVA each, after all, even more
* on an SS4 with the resolution extender VSIMM).
*/
sc->sc_blit_width = getpropint(ca->ca_ra.ra_node, "blit-width", 0);
if (sc->sc_blit_width > 5)
sc->sc_blit_width = 5; /* paranoia */
if (sc->sc_blit_width <= 3) /* not worth until more than 8 pixels */
sc->sc_blit_width = 0;
else {
sc->sc_blit_width = 1 << sc->sc_blit_width;
regno = sc->sc_cplane == 0 ? TCX_REG_BLIT : TCX_REG_RBLIT;
if (ca->ca_ra.ra_reg[regno].rr_len >=
sc->sc_sunfb.sf_fbsize * 8)
sc->sc_blit = (paddr_t)ca->ca_ra.ra_reg[regno].rr_paddr;
}
/*
* Do not assume the stipple space is usable unless there is a
* `stipple-align' property. Also, don't try to use it if the
* alignment is not 32 - our code may not behave correctly.
*/
stipple_align = getpropint(ca->ca_ra.ra_node, "stipple-align", 0);
if (stipple_align == 5) {
regno = sc->sc_cplane == 0 ? TCX_REG_STIP : TCX_REG_RSTIP;
if (ca->ca_ra.ra_reg[regno].rr_len >=
sc->sc_sunfb.sf_fbsize * 8)
sc->sc_stipple =
(paddr_t)ca->ca_ra.ra_reg[regno].rr_paddr;
}
}
/*
* After rasops has initialized, override its basic operations with
* accelerated routines whenever possible (this will depend on the
* frame buffer capabilities and our success at using blit and
* stipple spaces).
*/
void
tcx_accel_plug(struct tcx_softc *sc, struct confargs *ca)
{
struct rasops_info *ri = &sc->sc_sunfb.sf_ro;
if (sc->sc_stipple != 0) {
sc->sc_sunfb.sf_ro.ri_ops.eraserows = tcx_eraserows;
sc->sc_sunfb.sf_ro.ri_ops.erasecols = tcx_erasecols;
if (node_has_property(ca->ca_ra.ra_node, "stip-rop")) {
/* needs GXinvert support */
sc->sc_sunfb.sf_ro.ri_do_cursor = tcx_do_cursor;
}
if (ri->ri_font->fontwidth <= 16) {
/*
* The code in tcx_putchar really can handle up
* to 32 bit font width if one extends the font
* bits loading part to support more than 16 bits,
* but then there is no such font in wsfont at the
* moment, so why bother.
*/
sc->sc_sunfb.sf_ro.ri_ops.putchar = tcx_putchar;
}
}
if (sc->sc_blit != 0) {
sc->sc_sunfb.sf_ro.ri_ops.copyrows = tcx_copyrows;
sc->sc_plain_copycols = sc->sc_sunfb.sf_ro.ri_ops.copycols;
sc->sc_sunfb.sf_ro.ri_ops.copycols = tcx_copycols;
}
}
/*
* Blitter operations
*
* Since the blitter only operates on 1 pixel height areas, we need
* to invoke it many times, and handle overlapping regions ourselves.
*/
int
tcx_copycols(void *cookie, int row, int src, int dst, int n)
{
struct rasops_info *ri = cookie;
struct tcx_softc *sc = ri->ri_hw;
int h;
uint32_t dstaddr, srcaddr;
if (dst > src && dst < src + n) {
/* Areas overlap, do it the slow but safe way */
return (*sc->sc_plain_copycols)(cookie, row, src, dst, n);
}
/* Areas do not overlap dangerously, copy forwards */
/* actual columns */
n *= ri->ri_font->fontwidth;
src *= ri->ri_font->fontwidth;
dst *= ri->ri_font->fontwidth;
row *= ri->ri_font->fontheight;
srcaddr = dstaddr = ri->ri_xorigin +
(ri->ri_yorigin + row) * sc->sc_sunfb.sf_width;
srcaddr += src;
dstaddr += dst;
for (h = ri->ri_font->fontheight; h != 0; h--) {
tcx_blit(sc, dstaddr, srcaddr, n);
srcaddr += sc->sc_sunfb.sf_width;
dstaddr += sc->sc_sunfb.sf_width;
}
return 0;
}
int
tcx_copyrows(void *cookie, int src, int dst, int n)
{
struct rasops_info *ri = cookie;
struct tcx_softc *sc = ri->ri_hw;
int reverse;
uint32_t dstaddr, srcaddr;
/* actual lines */
src *= ri->ri_font->fontheight;
dst *= ri->ri_font->fontheight;
n *= ri->ri_font->fontheight;
if (dst > src && dst < src + n) {
/* Areas overlap, copy backwards */
dst += n - 1;
src += n - 1;
reverse = 1;
} else {
/* Areas do not overlap dangerously, copy forwards */
reverse = 0;
}
dstaddr = (ri->ri_yorigin + dst) * sc->sc_sunfb.sf_width;
srcaddr = (ri->ri_yorigin + src) * sc->sc_sunfb.sf_width;
dstaddr += ri->ri_xorigin;
srcaddr += ri->ri_xorigin;
for (; n != 0; n--) {
tcx_blit(sc, dstaddr, srcaddr, ri->ri_emuwidth);
if (reverse) {
dstaddr -= sc->sc_sunfb.sf_width;
srcaddr -= sc->sc_sunfb.sf_width;
} else {
dstaddr += sc->sc_sunfb.sf_width;
srcaddr += sc->sc_sunfb.sf_width;
}
}
return 0;
}
/*
* Perform a blit operation, copying the line starting at computed
* position src to computed position dst, for a length of len pixels.
*/
void
tcx_blit(struct tcx_softc *sc, uint32_t dst, uint32_t src, int len)
{
int cx;
uint32_t addr;
addr = sc->sc_blit + (dst << 3);
/* do the incomplete chunk first if needed */
cx = len & (sc->sc_blit_width - 1);
if (cx == 0)
cx = sc->sc_blit_width;
while (len != 0) {
stda(addr, ASI_BYPASS, ((cx - 1) << 24) | src);
src += cx;
addr += cx << 3;
len -= cx;
/* and then full steam ahead for the others */
cx = sc->sc_blit_width;
}
}
/*
* Stipple operations
*/
/* canonical rop values */
#define GXcopy 0x03
#define GXinvert 0x0a
#define STIPPLE_ROP_SHIFT 28
/*
* Perform a stipple operation rop from (x, y) to (x + cnt - 1, y).
*
* We probably should honour the stipple alignment property (stipple-align),
* in case it is different than 32 (1 << 5). However, due to the way
* the stipple space is accessed, it is not possible to have a stricter
* alignment requirement, so let's settle for 32. There probably haven't
* been TCX boards with relaxed alignment rules anyway.
*/
void
tcx_stipple(struct tcx_softc *sc, int x, int y, int cnt, int rop, int bg)
{
int rx; /* aligned x */
int lbcnt; /* count of untouched pixels on the left */
int rbcnt; /* count of untouched pixels on the right */
uint32_t wmask; /* write mask */
uint32_t soffs; /* stipple offset */
uint64_t scmd;
scmd = rop << STIPPLE_ROP_SHIFT;
scmd |= TCX_CTL_8_MAPPED | bg; /* pixel bits, here in 8-bit mode */
scmd <<= 32;
/*
* The first pass needs to align the position to a 32 pixel
* boundary, which explains why the loop is a bit unnatural
* at first glance.
*/
rx = x & ~(32 - 1);
soffs = sc->sc_stipple + ((y * sc->sc_sunfb.sf_width + rx) << 3);
lbcnt = x - rx;
wmask = 0xffffffff >> lbcnt;
while (cnt != 0) {
rbcnt = (32 - lbcnt) - cnt;
if (rbcnt < 0)
rbcnt = 0;
if (rbcnt != 0)
wmask &= ~((1 << rbcnt) - 1);
stda(soffs, ASI_BYPASS, scmd | wmask);
cnt -= (32 - lbcnt) - rbcnt;
soffs += 32 << 3;
/* further loops are aligned */
lbcnt = 0;
wmask = 0xffffffff;
}
}
int
tcx_erasecols(void *cookie, int row, int col, int n, long attr)
{
struct rasops_info *ri = cookie;
struct tcx_softc *sc = ri->ri_hw;
int fg, bg, h, cury, sx;
ri->ri_ops.unpack_attr(cookie, attr, &fg, &bg, NULL);
bg = ri->ri_devcmap[bg] & 0xff; /* 8 bit palette index */
n *= ri->ri_font->fontwidth;
sx = ri->ri_xorigin + col * ri->ri_font->fontwidth;
cury = ri->ri_yorigin + row * ri->ri_font->fontheight;
for (h = ri->ri_font->fontheight; h != 0; cury++, h--)
tcx_stipple(sc, sx, cury, n, GXcopy, bg);
return 0;
}
int
tcx_eraserows(void *cookie, int row, int n, long attr)
{
struct rasops_info *ri = cookie;
struct tcx_softc *sc = ri->ri_hw;
int fg, bg, x, y, w;
ri->ri_ops.unpack_attr(cookie, attr, &fg, &bg, NULL);
bg = ri->ri_devcmap[bg] & 0xff; /* 8 bit palette index */
if ((n == ri->ri_rows) && ISSET(ri->ri_flg, RI_FULLCLEAR)) {
n = ri->ri_height;
x = y = 0;
w = ri->ri_width;
} else {
n *= ri->ri_font->fontheight;
x = ri->ri_xorigin;
y = ri->ri_yorigin + row * ri->ri_font->fontheight;
w = ri->ri_emuwidth;
}
for (; n != 0; y++, n--)
tcx_stipple(sc, x, y, w, GXcopy, bg);
return 0;
}
int
tcx_do_cursor(struct rasops_info *ri)
{
struct tcx_softc *sc = ri->ri_hw;
int x, y, n;
x = ri->ri_ccol * ri->ri_font->fontwidth + ri->ri_xorigin;
y = ri->ri_crow * ri->ri_font->fontheight + ri->ri_yorigin;
for (n = ri->ri_font->fontheight; n != 0; y++, n--)
tcx_stipple(sc, x, y, ri->ri_font->fontwidth, GXinvert, 0xff);
return 0;
}
int
tcx_putchar(void *cookie, int row, int col, u_int uc, long attr)
{
struct rasops_info *ri = cookie;
struct tcx_softc *sc = ri->ri_hw;
struct wsdisplay_font *font = ri->ri_font;
int fg, bg, ul;
int h, x, y;
uint8_t *fontbits;
uint32_t fgpattern, bgpattern;
ri->ri_ops.unpack_attr(cookie, attr, &fg, &bg, &ul);
fg = ri->ri_devcmap[fg] & 0xff; /* 8 bit palette index */
bg = ri->ri_devcmap[bg] & 0xff; /* 8 bit palette index */
x = ri->ri_xorigin + col * font->fontwidth;
y = ri->ri_yorigin + row * font->fontheight;
if (uc == ' ') {
/* inline tcx_erasecols(cookie, row, col, 1, attr) */
for (h = font->fontheight; h != 0; y++, h--)
tcx_stipple(sc, x, y, font->fontwidth, GXcopy,
h == 2 && ul != 0 ? fg : bg);
} else {
int rx;
int lbcnt, rbcnt;
uint32_t soffs;
uint64_t stmpl, scmd;
stmpl = (GXcopy << STIPPLE_ROP_SHIFT) | TCX_CTL_8_MAPPED;
fontbits = (uint8_t *)font->data +
(uc - font->firstchar) * ri->ri_fontscale;
rx = x & ~(32 - 1);
lbcnt = x - rx;
rbcnt = (32 - lbcnt) - font->fontwidth; /* may be negative */
soffs = sc->sc_stipple +
((y * sc->sc_sunfb.sf_width + rx) << 3);
for (h = font->fontheight; h != 0; y++, h--) {
if (font->fontwidth <= 8)
fgpattern = *(uint8_t *)fontbits >>
(8 - font->fontwidth);
else /* if (font->fontwidth <= 16) */
fgpattern = *(uint16_t *)fontbits >>
(16 - font->fontwidth);
/* see tcx_accel_plug() for the reason why
larger font sizes are not supported, yet */
fontbits += font->stride;
/* underline */
if (ul && h == 2)
fgpattern = 0xffffffff &
((1 << font->fontwidth) - 1);
bgpattern = ~fgpattern &
((1 << font->fontwidth) - 1);
/*
* We have a pattern of font->fontwidth bits in
* the low bits of `fgpattern' and its one-complement
* in `bgpattern'. The bgpattern bits need to be
* painted with the background colour, while the
* fgpattern bits need to be painted with the
* foreground colour.
*
* The particular character cell position might
* span two stipple cells, so we have to account
* for this.
*/
if (rbcnt >= 0) {
/* everything fits in one stipple cell. */
/* foreground */
scmd = (stmpl | fg) << 32;
stda(soffs, ASI_BYPASS,
scmd | (fgpattern << rbcnt));
/* background */
scmd = (stmpl | bg) << 32;
stda(soffs, ASI_BYPASS,
scmd | (bgpattern << rbcnt));
} else {
/* needs two stipple cells. */
/* foreground, first stipple cell */
scmd = (stmpl | fg) << 32;
stda(soffs, ASI_BYPASS,
scmd | (fgpattern >> -rbcnt));
/* background, first stipple cell */
scmd = (stmpl | bg) << 32;
stda(soffs, ASI_BYPASS,
scmd | (bgpattern >> -rbcnt));
/* rotate patterns, relying on 32 bit size */
fgpattern <<= (32 + rbcnt);
bgpattern <<= (32 + rbcnt);
/* foreground, second stipple cell */
scmd = (stmpl | fg) << 32;
stda(soffs + (32 << 3), ASI_BYPASS,
scmd | fgpattern);
/* background, second stipple cell */
scmd = (stmpl | bg) << 32;
stda(soffs + (32 << 3), ASI_BYPASS,
scmd | bgpattern);
}
soffs += sc->sc_sunfb.sf_width << 3;
}
}
return 0;
}
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