blob: 920dd9964c05c95a04c86924ccef2a28417a3bd1 [file] [log] [blame] [raw]
#ifdef USE_DISPLAY
/* pdp11_vt.c: PDP-11 VT11/VS60 Display Processor Simulation
Copyright (c) 2003-2004, Philip L. Budne, Douglas A. Gwyn
Copyright (c) 1993-2003, Robert M Supnik
Permission is hereby granted, free of charge, to any person obtaining a
copy of this software and associated documentation files (the "Software"),
to deal in the Software without restriction, including without limitation
the rights to use, copy, modify, merge, publish, distribute, sublicense,
and/or sell copies of the Software, and to permit persons to whom the
Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
Except as contained in this notice, the names of the authors shall not be
used in advertising or otherwise to promote the sale, use or other dealings
in this Software without prior written authorization from the authors.
vt VT11/VS60 Display Processor
05-Feb-04 DAG Improved VT11 emulation
Added VS60 support
14-Sep-03 PLB Start from pdp11_lp.c
*/
/*
* this file is just a thin layer of glue to the simulator-
* independent XY Display simulation
*/
#if defined (VM_VAX) /* VAX version */
#include "vax_defs.h"
#elif defined(VM_PDP11) /* PDP-11 version */
#include "pdp11_defs.h"
#else
#error "VT11/VS60 is supported only on the PDP-11 and VAX"
#endif
#include "display/display.h"
#include "display/vt11.h"
#include "sim_video.h"
/*
* Timing parameters. Should allow some runtime adjustment,
* since several different configurations were shipped, including:
*
* GT40: PDP-11/05 with VT11 display processor
* GT44: PDP-11/40 with VT11 display processor
* GT46: PDP-11/34 with VT11 display processor
* GT62: PDP-11/34a with VS60 display system
*/
/*
* run a VT11/VS60 cycle every this many PDP-11 "cycle" times;
*
* this includes phosphor aging and polling for events (mouse movement)
* every refresh_interval (determined internally while processing the
* VT11/VS60 cycle).
*/
#define VT11_DELAY 1
/*
* memory cycle time
*/
#define MEMORY_CYCLE 1 /* either .98 or 1.2 us? */
/*
* delay in microseconds between VT11/VS60 cycles:
* VT11/VS60 and PDP-11 CPU's share the same memory bus,
* and each VT11/VS60 instruction requires a memory reference;
* figure each PDP11 instruction requires two memory references
*/
#define CYCLE_US (MEMORY_CYCLE*(VT11_DELAY*2+1))
extern int32 int_vec[IPL_HLVL][32];
t_stat vt_rd(int32 *data, int32 PA, int32 access);
t_stat vt_wr(int32 data, int32 PA, int32 access);
t_stat vt_svc(UNIT *uptr);
t_stat vt_reset(DEVICE *dptr);
t_stat vt_boot(int32 unit, DEVICE *dptr);
t_stat vt_set_crt(UNIT *uptr, int32 val, CONST char *cptr, void *desc);
t_stat vt_show_crt(FILE *st, UNIT *uptr, int32 val, CONST void *desc);
t_stat vt_set_scale(UNIT *uptr, int32 val, CONST char *cptr, void *desc);
t_stat vt_show_scale(FILE *st, UNIT *uptr, int32 val, CONST void *desc);
t_stat vt_set_hspace(UNIT *uptr, int32 val, CONST char *cptr, void *desc);
t_stat vt_show_hspace(FILE *st, UNIT *uptr, int32 val, CONST void *desc);
t_stat vt_set_vspace(UNIT *uptr, int32 val, CONST char *cptr, void *desc);
t_stat vt_show_vspace(FILE *st, UNIT *uptr, int32 val, CONST void *desc);
t_stat vt_help (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, const char *cptr);
const char *vt_description (DEVICE *dptr);
/* VT11/VS60 data structures
vt_dev VT11 device descriptor
vt_unit VT11 unit descriptor
vt_reg VT11 register list
vt_mod VT11 modifier list
*/
#define IOLN_VT11 010 /* VT11 */
#define IOLN_VS60 040 /* VS60 */
DIB vt_dib = { IOBA_AUTO, IOLN_VT11, &vt_rd, &vt_wr,
4, IVCL(VTST), VEC_AUTO, {NULL}, IOLN_VT11 };
/* (VT11 uses only the first 3 interrupt vectors) */
UNIT vt_unit = {
UDATA (&vt_svc, UNIT_SEQ, 0), VT11_DELAY};
REG vt_reg[] = {
{ DRDATAD (CYCLE, vt_unit.wait, 24, "VT11/VS60 cycle"), REG_NZ + PV_LEFT },
{ GRDATA (DEVADDR, vt_dib.ba, DEV_RDX, 32, 0), REG_HRO },
{ GRDATA (DEVVEC, vt_dib.vec, DEV_RDX, 16, 0), REG_HRO },
{ NULL } };
MTAB vt_mod[] = {
{ MTAB_XTD|MTAB_VDV|MTAB_VALR, 0, "CRT", "CRT={VR14|VR17|VR48}",
&vt_set_crt, &vt_show_crt, NULL, "CRT Type" },
{ MTAB_XTD|MTAB_VDV|MTAB_VALR, 0, "SCALE", "SCALE={1|2|4|8}",
&vt_set_scale, &vt_show_scale, NULL, "Pixel Scale Factor" },
{ MTAB_XTD|MTAB_VDV|MTAB_VALR, 0, "HSPACE", "HSPACE={NARROW|NORMAL}",
&vt_set_hspace, &vt_show_hspace, NULL, "Horizontal Spacing" },
{ MTAB_XTD|MTAB_VDV|MTAB_VALR, 0, "VSPACE", "VSPACE={TALL|NORMAL}",
&vt_set_vspace, &vt_show_vspace, NULL, "Vertical Spacing" },
{ MTAB_XTD|MTAB_VDV|MTAB_VALR, 020, "ADDRESS", "ADDRESS",
&set_addr, &show_addr, NULL, "Bus address" },
{ MTAB_XTD|MTAB_VDV|MTAB_VALR, 0, "VECTOR", "VECTOR",
&set_vec, &show_vec, NULL, "Interrupt vector" },
{ MTAB_XTD|MTAB_VDV, 0, NULL, "AUTOCONFIGURE",
&set_addr_flt, NULL, NULL, "Enable autoconfiguration of address & vector" },
{ 0 } };
static t_bool vt_stop_flag = FALSE;
static void vt_quit_callback (void)
{
vt_stop_flag = TRUE;
}
/* Debug detail levels */
#define DEB_OPS 0001 /* transactions */
#define DEB_RRD 0002 /* reg reads */
#define DEB_RWR 0004 /* reg writes */
#define DEB_TRC 0010 /* trace */
#define DEB_STINT 0020 /* STOP interrupts */
#define DEB_LPINT 0040 /* Light Pen interrupts */
#define DEB_CHINT 0100 /* CHAR interrupts */
#define DEB_NMINT 0200 /* NAME interrupts */
#define DEB_INT 0360 /* All Interrupts */
#define DEB_VT11 0400 /* VT11 activities */
#define DEB_VMOU SIM_VID_DBG_MOUSE /* Video mouse */
#define DEB_VKEY SIM_VID_DBG_KEY /* Video key */
#define DEB_VCUR SIM_VID_DBG_CURSOR /* Video cursor */
#define DEB_VVID SIM_VID_DBG_VIDEO /* Video */
DEBTAB vt_deb[] = {
{ "OPS", DEB_OPS, "transactions" },
{ "RRD", DEB_RRD, "register reads" },
{ "RWR", DEB_RWR, "register writes" },
{ "INT", DEB_INT, "All Interrupts" },
{ "STOP", DEB_STINT, "STOP interrupts" },
{ "LPEN", DEB_LPINT, "Light Pen interrupts" },
{ "CHAR", DEB_CHINT, "CHAR interrupts" },
{ "NAME", DEB_NMINT, "NAME interrupts" },
{ "VT11", DEB_VT11, "VT11 activities" },
{ "TRACE", DEB_TRC, "trace" },
{ "VMOU", DEB_VMOU, "Video Mouse" },
{ "VKEY", DEB_VKEY, "Video Key" },
{ "VCUR", DEB_VCUR, "Video Cursor" },
{ "VVID", DEB_VVID, "Video Video" },
{ NULL, 0 }
};
DEVICE vt_dev = {
"VT", &vt_unit, vt_reg, vt_mod,
1, 8, 31, 1, DEV_RDX, 16,
NULL, NULL, &vt_reset,
&vt_boot, NULL, NULL,
&vt_dib, DEV_DIS | DEV_DISABLE | DEV_UBUS | DEV_Q18 | DEV_DEBUG,
0, vt_deb, NULL, NULL, NULL, NULL, NULL,
&vt_description
};
const char *vt_regnam[] = {
"DPC",
"MPR",
"XPR",
"YPR",
"RR",
"SPR",
"XOR",
"YOR",
"ANR",
"SCR",
"NR",
"SDR",
"STR",
"SAR",
"ZPR",
"ZOR",
};
/* VT11/VS60 routines
vt_rd I/O page read
vt_wr I/O page write
vt_svc process event
vt_reset process reset
vt_boot bootstrap device
*/
t_stat
vt_rd(int32 *data, int32 PA, int32 access)
{
t_stat stat = SCPE_OK;
switch (PA & 036) {
case 000: *data = vt11_get_dpc(); break;
case 002: *data = vt11_get_mpr(); break;
case 004: *data = vt11_get_xpr(); break;
case 006: *data = vt11_get_ypr(); break;
case 010: if (VS60) *data = vt11_get_rr(); else stat = SCPE_NXM; break;
case 012: if (VS60) *data = vt11_get_spr(); else stat = SCPE_NXM; break;
case 014: if (VS60) *data = vt11_get_xor(); else stat = SCPE_NXM; break;
case 016: if (VS60) *data = vt11_get_yor(); else stat = SCPE_NXM; break;
case 020: if (VS60) *data = vt11_get_anr(); else stat = SCPE_NXM; break;
case 022: if (VS60) *data = vt11_get_scr(); else stat = SCPE_NXM; break;
case 024: if (VS60) *data = vt11_get_nr(); else stat = SCPE_NXM; break;
case 026: if (VS60) *data = vt11_get_sdr(); else stat = SCPE_NXM; break;
case 030: if (VS60) *data = vt11_get_str(); else stat = SCPE_NXM; break;
case 032: if (VS60) *data = vt11_get_sar(); else stat = SCPE_NXM; break;
case 034: if (VS60) *data = vt11_get_zpr(); else stat = SCPE_NXM; break;
case 036: if (VS60) *data = vt11_get_zor(); else stat = SCPE_NXM; break;
default: stat = SCPE_NXM;
}
sim_debug (DEB_RRD, &vt_dev, "vt_rd(%s-PA=0%o,data=0x%X(0%o),access=%d)\n", vt_regnam[(PA & 036)>>1], (int)PA, (int)*data, (int)*data, (int)access);
return stat;
}
t_stat
vt_wr(int32 data, int32 PA, int32 access)
{
uint16 d = data & 0177777; /* mask just in case */
sim_debug (DEB_RWR, &vt_dev, "vt_wr(%s-PA=0%o,data=0x%X(0%o),access=%d)\n", vt_regnam[(PA & 036)>>1], (int)PA, (int)data, (int)data, (int)access);
switch (PA & 037) {
case 000: /* DPC */
/* set the simulator PC */
vt11_set_dpc(d);
/* Interrupt requests are cleared as each vector is dispatched,
so in general, no need to clear interrupt requests here.
However, if software is running at high IPL (diagnostics maybe)
clearing them here does no harm */
if (INT_IS_SET(VTST)) {
sim_debug (DEB_STINT, &vt_dev, "CLR_INT(all)\n");
CLR_INT (VTST);
}
if (INT_IS_SET(VTLP)) {
sim_debug (DEB_LPINT, &vt_dev, "CLR_INT(all)\n");
CLR_INT (VTLP);
}
if (INT_IS_SET(VTCH)) {
sim_debug (DEB_CHINT, &vt_dev, "CLR_INT(all)\n");
CLR_INT (VTCH);
}
if (INT_IS_SET(VTNM)) {
sim_debug (DEB_NMINT, &vt_dev, "CLR_INT(all)\n");
CLR_INT (VTNM);
}
/* start the display processor by running a cycle */
vt_svc (&vt_unit);
return SCPE_OK;
case 002: vt11_set_mpr(d); return SCPE_OK;
case 004: vt11_set_xpr(d); return SCPE_OK;
case 006: vt11_set_ypr(d); return SCPE_OK;
case 010: if (!VS60) break; vt11_set_rr(d); return SCPE_OK;
case 012: if (!VS60) break; vt11_set_spr(d); return SCPE_OK;
case 014: if (!VS60) break; vt11_set_xor(d); return SCPE_OK;
case 016: if (!VS60) break; vt11_set_yor(d); return SCPE_OK;
case 020: if (!VS60) break; vt11_set_anr(d); return SCPE_OK;
case 022: if (!VS60) break; vt11_set_scr(d); return SCPE_OK;
case 024: if (!VS60) break; vt11_set_nr(d); return SCPE_OK;
case 026: if (!VS60) break; vt11_set_sdr(d); return SCPE_OK;
case 030: if (!VS60) break; vt11_set_str(d); return SCPE_OK;
case 032: if (!VS60) break; vt11_set_sar(d); return SCPE_OK;
case 034: if (!VS60) break; vt11_set_zpr(d); return SCPE_OK;
case 036: if (!VS60) break; vt11_set_zor(d); return SCPE_OK;
}
return SCPE_NXM;
}
/*
* here to run a display processor cycle, called as a SIMH
* "device service routine".
*/
t_stat
vt_svc(UNIT *uptr)
{
sim_debug (DEB_TRC, &vt_dev, "vt_svc(wait=%d,DPC=0%o)\n", uptr->wait, vt11_get_dpc());
if (vt11_cycle(uptr->wait, 0))
sim_activate_after (uptr, uptr->wait); /* running; reschedule */
if (vt_stop_flag) {
vt_stop_flag = FALSE; /* reset flag after we notice it */
return SCPE_STOP;
}
return SCPE_OK;
}
t_stat
vt_reset(DEVICE *dptr)
{
if (!(dptr->flags & DEV_DIS))
vt11_reset(dptr, DEB_VT11);
vid_register_quit_callback (&vt_quit_callback);
sim_debug (DEB_INT, &vt_dev, "CLR_INT(all)\n");
CLR_INT (VTST);
CLR_INT (VTLP);
CLR_INT (VTCH);
CLR_INT (VTNM);
sim_cancel (dptr->units); /* deactivate unit */
return auto_config ("VT", (dptr->flags & DEV_DIS) ? 0 : 1);
}
#include "pdp11_vt_lunar_rom.h" /* Lunar Lander image */
/*
* GT4x/GT62 bootstrap (acts as remote terminal)
*
*/
t_stat
vt_boot(int32 unit, DEVICE *dptr)
{
t_stat r;
char stability[32];
extern int32 saved_PC;
/* XXX should do something like vt11_set_dpc(&appropriate_ROM_image) */
/* Instead, since that won't be too useful.... */
/* Load and start Lunar Lander which has the potential to be fun! */
sim_set_memory_load_file (BOOT_CODE_ARRAY, BOOT_CODE_SIZE);
r = load_cmd (0, BOOT_CODE_FILENAME);
sim_set_memory_load_file (NULL, 0);
/* Lunar Lander presumes a VT device vector base of 320 */
if (0320 != vt_dib.vec) { /* If that is not the case, then copy the 320 vectors to the right place */
M[(vt_dib.vec >> 1) + 0] = M[(0320 >> 1) + 0];
M[(vt_dib.vec >> 1) + 1] = M[(0320 >> 1) + 1];
M[(vt_dib.vec >> 1) + 2] = M[(0324 >> 1) + 0];
M[(vt_dib.vec >> 1) + 3] = M[(0324 >> 1) + 1];
M[(vt_dib.vec >> 1) + 4] = M[(0330 >> 1) + 0];
M[(vt_dib.vec >> 1) + 5] = M[(0330 >> 1) + 1];
M[(vt_dib.vec >> 1) + 6] = M[(0334 >> 1) + 0];
M[(vt_dib.vec >> 1) + 7] = M[(0334 >> 1) + 1];
}
cpu_set_boot (saved_PC);
set_cmd (0, "VT SCALE=1");
set_cmd (0, "VT CRT=VR14");
sprintf (stability, "%d", SIM_IDLE_STMIN);
sim_set_idle (NULL, 0, stability, NULL); /* force minimum calibration stability */
sim_clr_idle (NULL, 0, stability, NULL);
return r;
}
/* SET/SHOW VT options: */
t_stat
vt_set_crt(UNIT *uptr, int32 val, CONST char *cptr, void *desc)
{
char gbuf[CBUFSIZE];
if (vt11_init)
return SCPE_ALATT; /* should be "changes locked out" */
if (cptr == NULL)
return SCPE_ARG;
get_glyph(cptr, gbuf, 0);
if (strcmp(gbuf, "VR14") == 0)
vt11_display = DIS_VR14;
else if (strcmp(gbuf, "VR17") == 0)
vt11_display = DIS_VR17;
else if (strcmp(gbuf, "VR48") == 0)
vt11_display = DIS_VR48;
else
return SCPE_ARG;
vt_dib.lnt = (VS60) ? IOLN_VS60 : IOLN_VT11;
deassign_device (&vt_dev);
if (VS60)
assign_device (&vt_dev, "VS60");
return SCPE_OK;
}
t_stat
vt_show_crt(FILE *st, UNIT *uptr, int32 val, CONST void *desc)
{
fprintf(st, "crt=VR%d", (int)vt11_display);
return SCPE_OK;
}
t_stat
vt_set_scale(UNIT *uptr, int32 val, CONST char *cptr, void *desc)
{
t_stat r;
t_value v;
if (vt11_init)
return SCPE_ALATT; /* should be "changes locked out" */
if (cptr == NULL)
return SCPE_ARG;
v = get_uint(cptr, 10, 8, &r);
if (r != SCPE_OK)
return r;
if (v != 1 && v != 2 && v != 4 && v != 8)
return SCPE_ARG;
vt11_scale = v;
return SCPE_OK;
}
t_stat
vt_show_scale(FILE *st, UNIT *uptr, int32 val, CONST void *desc)
{
fprintf(st, "scale=%d", (int)vt11_scale);
return SCPE_OK;
}
t_stat
vt_set_hspace(UNIT *uptr, int32 val, CONST char *cptr, void *desc)
{
char gbuf[CBUFSIZE];
if (vt11_init)
return SCPE_ALATT; /* should be "changes locked out" */
if (cptr == NULL)
return SCPE_ARG;
get_glyph(cptr, gbuf, 0);
if (strcmp(gbuf, "NARROW") == 0)
vt11_csp_w = 12;
else if (strcmp(gbuf, "NORMAL") == 0)
vt11_csp_w = 14;
else
return SCPE_ARG;
return SCPE_OK;
}
t_stat
vt_show_hspace(FILE *st, UNIT *uptr, int32 val, CONST void *desc)
{
fprintf(st, "hspace=%s", vt11_csp_w==12 ? "narrow" : "normal");
return SCPE_OK;
}
t_stat
vt_set_vspace(UNIT *uptr, int32 val, CONST char *cptr, void *desc)
{
char gbuf[CBUFSIZE];
if (vt11_init)
return SCPE_ALATT; /* should be "changes locked out" */
if (cptr == NULL)
return SCPE_ARG;
get_glyph(cptr, gbuf, 0);
if (strcmp(gbuf, "TALL") == 0)
vt11_csp_h = 26;
else if (strcmp(gbuf, "NORMAL") == 0)
vt11_csp_h = 24;
else
return SCPE_ARG;
return SCPE_OK;
}
t_stat
vt_show_vspace(FILE *st, UNIT *uptr, int32 val, CONST void *desc)
{
fprintf(st, "vspace=%s", vt11_csp_h==26 ? "tall" : "normal");
return SCPE_OK;
}
/* interface routines (called from display simulator) */
void
vt_stop_intr(void)
{
sim_debug (DEB_STINT, &vt_dev, "SET_INT (VTST)\n");
SET_INT (VTST);
}
void
vt_lpen_intr(void)
{
sim_debug (DEB_LPINT, &vt_dev, "SET_INT (VTLP)\n");
SET_INT (VTLP);
}
void
vt_char_intr(void)
{
sim_debug (DEB_CHINT, &vt_dev, "SET_INT (CHAR)\n");
SET_INT (VTCH);
}
void
vt_name_intr(void)
{
sim_debug (DEB_NMINT, &vt_dev, "SET_INT (VTNM)\n");
SET_INT (VTNM);
}
/* fetch memory */
int
vt_fetch(uint32 addr, vt11word *wp)
{
/* On PDP-11 Unibus 22-bit systems, the VT11/VS60 behaves as
an 18-bit Unibus peripheral and must go through the I/O map. */
/* apply Unibus map, when appropriate */
if (Map_ReadW(addr, 2, wp) == 0)
return 0; /* no problem */
/* else mapped address lies outside configured memory range */
*wp = 0164000; /* DNOP; just updates DPC if used */
/* which shouldn't happen */
return 1; /* used to set "time_out" flag */
}
const char *vt_description (DEVICE *dptr)
{
return (VS60) ? "VS60 Display processor"
: "VT11 Display processor";
}
#ifdef VM_PDP11
/* PDP-11 simulation provides this */
extern int32 SR; /* switch register */
#else
int32 SR; /* switch register */
#endif
void
cpu_set_switches(unsigned long val)
{
SR = val;
}
unsigned long
cpu_get_switches(void)
{
return SR;
}
#else /* USE_DISPLAY not defined */
char pdp11_vt_unused; /* sometimes empty object modules cause problems */
#endif /* USE_DISPLAY not defined */