/* vax780_sbi.c: VAX 11/780 SBI | |
Copyright (c) 2004-2011, 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 | |
ROBERT M SUPNIK 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 name of Robert M Supnik shall not be | |
used in advertising or otherwise to promote the sale, use or other dealings | |
in this Software without prior written authorization from Robert M Supnik. | |
This module contains the VAX 11/780 system-specific registers and devices. | |
sbi bus controller | |
21-Mar-2011 RMS Added autoreboot capability (Mark Pizzalato) | |
04-Feb-2011 MP Added RQB, RQC, and RQD as bootable controllers | |
31-May-2008 RMS Fixed machine_check calling sequence (Peter Schorn) | |
03-May-2006 RMS Fixed writes to ACCS | |
28-May-2008 RMS Inlined physical memory routines | |
*/ | |
#include "vax_defs.h" | |
#ifndef DONT_USE_INTERNAL_ROM | |
#include "vax780_vmb_exe.h" | |
#endif | |
/* 11/780 specific IPRs */ | |
/* Writeable control store */ | |
#define WCSA_RW 0xFFFF /* writeable */ | |
#define WCSA_ADDR 0x1FFF /* addr */ | |
#define WCSA_CTR 0x6000 /* counter */ | |
#define WCSA_CTR_INC 0x2000 /* increment */ | |
#define WCSA_CTR_MAX 0x6000 /* max value */ | |
#define WCSD_RD_VAL 0xFF /* fixed read val */ | |
#define WCSD_WR 0xFFFFFFFF /* write */ | |
#define MBRK_RW 0x1FFF /* microbreak */ | |
/* System registers */ | |
#define SBIFS_RD (0x031F0000|SBI_FAULTS) /* SBI faults */ | |
#define SBIFS_WR 0x03140000 | |
#define SBIFS_W1C 0x00080000 | |
#define SBISC_RD 0xFFFF0000 /* SBI silo comp */ | |
#define SBISC_WR 0x7FFF0000 | |
#define SBISC_LOCK 0x80000000 /* lock */ | |
#define SBIMT_RD 0xFFFFFF00 /* SBI maint */ | |
#define SBIMT_WR 0xFFFFF900 | |
#define SBIER_CRDIE 0x00008000 /* SBI error, CRD IE */ | |
#define SBIER_CRD 0x00004000 /* CRD */ | |
#define SBIER_RDS 0x00002000 /* RDS */ | |
#define SBIER_TMO 0x00001000 /* timeout */ | |
#define SBIER_STA 0x00000C00 /* timeout status (0) */ | |
#define SBIER_CNF 0x00000100 /* error confirm */ | |
#define SBIER_IBRDS 0x00000080 | |
#define SBIER_IBTMO 0x00000040 | |
#define SBIER_IBSTA 0x00000030 | |
#define SBIER_IBCNF 0x00000008 | |
#define SBIER_MULT 0x00000004 /* multiple errors */ | |
#define SBIER_FREE 0x00000002 /* SBI free */ | |
#define SBIER_RD 0x0000FDFE | |
#define SBIER_WR 0x00008000 | |
#define SBIER_W1C 0x000070C0 | |
#define SBIER_TMOW1C (SBIER_TMO|SBIER_STA|SBIER_CNF|SBIER_MULT) | |
#define SBIER_IBTW1C (SBIER_IBTMO|SBIER_STA|SBIER_IBCNF) | |
#define SBITMO_V_MODE 30 /* mode */ | |
#define SBITMO_VIRT 0x20000000 /* physical */ | |
#define SBIQC_MBZ 0xC0000007 /* MBZ */ | |
/* VAX-11/780 boot device definitions */ | |
struct boot_dev { | |
char *name; | |
int32 code; | |
int32 let; | |
}; | |
uint32 wcs_addr = 0; | |
uint32 wcs_data = 0; | |
uint32 wcs_mbrk = 0; | |
uint32 nexus_req[NEXUS_HLVL]; /* nexus int req */ | |
uint32 sbi_fs = 0; /* SBI fault status */ | |
uint32 sbi_sc = 0; /* SBI silo comparator */ | |
uint32 sbi_mt = 0; /* SBI maintenance */ | |
uint32 sbi_er = 0; /* SBI error status */ | |
uint32 sbi_tmo = 0; /* SBI timeout addr */ | |
char cpu_boot_cmd[CBUFSIZE] = { 0 }; /* boot command */ | |
static t_stat (*nexusR[NEXUS_NUM])(int32 *dat, int32 ad, int32 md); | |
static t_stat (*nexusW[NEXUS_NUM])(int32 dat, int32 ad, int32 md); | |
static struct boot_dev boot_tab[] = { | |
{ "RP", BOOT_MB, 0 }, | |
{ "HK", BOOT_HK, 0 }, | |
{ "RL", BOOT_RL, 0 }, | |
{ "RQ", BOOT_UDA, 1 << 24 }, | |
{ "RQB", BOOT_UDA, 1 << 24 }, | |
{ "RQC", BOOT_UDA, 1 << 24 }, | |
{ "RQD", BOOT_UDA, 1 << 24 }, | |
{ "TQ", BOOT_TK, 1 << 24 }, | |
{ NULL } | |
}; | |
extern int32 R[16]; | |
extern int32 PSL; | |
extern int32 ASTLVL, SISR; | |
extern int32 mapen, pme, trpirq; | |
extern int32 in_ie; | |
extern int32 mchk_va, mchk_ref; | |
extern int32 crd_err, mem_err, hlt_pin; | |
extern int32 tmr_int, tti_int, tto_int; | |
extern jmp_buf save_env; | |
extern int32 p1; | |
extern int32 sim_switches; | |
extern DEVICE *sim_devices[]; | |
extern FILE *sim_log; | |
extern CTAB *sim_vm_cmd; | |
t_stat sbi_reset (DEVICE *dptr); | |
void sbi_set_tmo (int32 pa); | |
void uba_eval_int (void); | |
t_stat vax780_boot (int32 flag, char *ptr); | |
t_stat vax780_boot_parse (int32 flag, char *ptr); | |
t_stat cpu_boot (int32 unitno, DEVICE *dptr); | |
extern t_stat vax780_fload (int32 flag, char *cptr); | |
extern int32 intexc (int32 vec, int32 cc, int32 ipl, int ei); | |
extern int32 iccs_rd (void); | |
extern int32 nicr_rd (void); | |
extern int32 icr_rd (t_bool interp); | |
extern int32 todr_rd (void); | |
extern int32 rxcs_rd (void); | |
extern int32 rxdb_rd (void); | |
extern int32 txcs_rd (void); | |
extern void iccs_wr (int32 dat); | |
extern void nicr_wr (int32 dat); | |
extern void todr_wr (int32 dat); | |
extern void rxcs_wr (int32 dat); | |
extern void txcs_wr (int32 dat); | |
extern void txdb_wr (int32 dat); | |
extern void init_mbus_tab (void); | |
extern void init_ubus_tab (void); | |
extern t_stat build_mbus_tab (DEVICE *dptr, DIB *dibp); | |
extern t_stat build_ubus_tab (DEVICE *dptr, DIB *dibp); | |
/* SBI data structures | |
sbi_dev SBI device descriptor | |
sbi_unit SBI unit | |
sbi_reg SBI register list | |
*/ | |
UNIT sbi_unit = { UDATA (NULL, 0, 0) }; | |
REG sbi_reg[] = { | |
{ HRDATA (NREQ14, nexus_req[0], 16) }, | |
{ HRDATA (NREQ15, nexus_req[1], 16) }, | |
{ HRDATA (NREQ16, nexus_req[2], 16) }, | |
{ HRDATA (NREQ17, nexus_req[3], 16) }, | |
{ HRDATA (WCSA, wcs_addr, 16) }, | |
{ HRDATA (WCSD, wcs_data, 32) }, | |
{ HRDATA (MBRK, wcs_mbrk, 13) }, | |
{ HRDATA (SBIFS, sbi_fs, 32) }, | |
{ HRDATA (SBISC, sbi_sc, 32) }, | |
{ HRDATA (SBIMT, sbi_mt, 32) }, | |
{ HRDATA (SBIER, sbi_er, 32) }, | |
{ HRDATA (SBITMO, sbi_tmo, 32) }, | |
{ BRDATA (BOOTCMD, cpu_boot_cmd, 16, 8, CBUFSIZE), REG_HRO }, | |
{ NULL } | |
}; | |
DEVICE sbi_dev = { | |
"SBI", &sbi_unit, sbi_reg, NULL, | |
1, 16, 16, 1, 16, 8, | |
NULL, NULL, &sbi_reset, | |
NULL, NULL, NULL, | |
NULL, 0 | |
}; | |
/* Special boot command, overrides regular boot */ | |
CTAB vax780_cmd[] = { | |
{ "BOOT", &vax780_boot, RU_BOOT, | |
"bo{ot} <device>{/R5:flg} boot device\n" }, | |
{ "FLOAD", &vax780_fload, 0, | |
"fl{oad} <file> {<start>} load file from console floppy\n" }, | |
{ NULL } | |
}; | |
/* The VAX 11/780 has three sources of interrupts | |
- internal device interrupts (CPU, console, clock) | |
- nexus interupts (e.g., memory controller, MBA, UBA) | |
- external device interrupts (Unibus) | |
Internal devices vector to fixed SCB locations. | |
Nexus interrupts vector to an SCB location based on this | |
formula: SCB_NEXUS + ((IPL - 0x14) * 0x40) + (TR# * 0x4) | |
External device interrupts do not vector directly. | |
Instead, the interrupt handler for a given UBA IPL | |
reads a vector register that contains the Unibus vector | |
for that IPL. | |
*/ | |
/* Find highest priority vectorable interrupt */ | |
int32 eval_int (void) | |
{ | |
int32 ipl = PSL_GETIPL (PSL); | |
int32 i, t; | |
static const int32 sw_int_mask[IPL_SMAX] = { | |
0xFFFE, 0xFFFC, 0xFFF8, 0xFFF0, /* 0 - 3 */ | |
0xFFE0, 0xFFC0, 0xFF80, 0xFF00, /* 4 - 7 */ | |
0xFE00, 0xFC00, 0xF800, 0xF000, /* 8 - B */ | |
0xE000, 0xC000, 0x8000 /* C - E */ | |
}; | |
if (hlt_pin) /* hlt pin int */ | |
return IPL_HLTPIN; | |
if ((ipl < IPL_MEMERR) && mem_err) /* mem err int */ | |
return IPL_MEMERR; | |
if ((ipl < IPL_CRDERR) && crd_err) /* crd err int */ | |
return IPL_CRDERR; | |
if ((ipl < IPL_CLKINT) && tmr_int) /* clock int */ | |
return IPL_CLKINT; | |
uba_eval_int (); /* update UBA */ | |
for (i = IPL_HMAX; i >= IPL_HMIN; i--) { /* chk hwre int */ | |
if (i <= ipl) /* at ipl? no int */ | |
return 0; | |
if (nexus_req[i - IPL_HMIN]) /* req != 0? int */ | |
return i; | |
} | |
if ((ipl < IPL_TTINT) && (tti_int || tto_int)) /* console int */ | |
return IPL_TTINT; | |
if (ipl >= IPL_SMAX) /* ipl >= sw max? */ | |
return 0; | |
if ((t = SISR & sw_int_mask[ipl]) == 0) | |
return 0; /* eligible req */ | |
for (i = IPL_SMAX; i > ipl; i--) { /* check swre int */ | |
if ((t >> i) & 1) /* req != 0? int */ | |
return i; | |
} | |
return 0; | |
} | |
/* Return vector for highest priority hardware interrupt at IPL lvl */ | |
int32 get_vector (int32 lvl) | |
{ | |
int32 i, l; | |
if (lvl == IPL_MEMERR) { /* mem error? */ | |
mem_err = 0; | |
return SCB_MEMERR; | |
} | |
if (lvl == IPL_CRDERR) { /* CRD error? */ | |
crd_err = 0; | |
return SCB_CRDERR; | |
} | |
if (lvl == IPL_CLKINT) { /* clock? */ | |
tmr_int = 0; /* clear req */ | |
return SCB_INTTIM; /* return vector */ | |
} | |
if (lvl > IPL_HMAX) { /* error req lvl? */ | |
ABORT (STOP_UIPL); /* unknown intr */ | |
} | |
if ((lvl <= IPL_HMAX) && (lvl >= IPL_HMIN)) { /* nexus? */ | |
l = lvl - IPL_HMIN; | |
for (i = 0; nexus_req[l] && (i < NEXUS_NUM); i++) { | |
if ((nexus_req[l] >> i) & 1) { | |
nexus_req[l] = nexus_req[l] & ~(1u << i); | |
return SCB_NEXUS + (l << 6) + (i << 2); /* return vector */ | |
} | |
} | |
} | |
if (lvl == IPL_TTINT) { /* console? */ | |
if (tti_int) { /* input? */ | |
tti_int = 0; /* clear req */ | |
return SCB_TTI; /* return vector */ | |
} | |
if (tto_int) { /* output? */ | |
tto_int = 0; /* clear req */ | |
return SCB_TTO; /* return vector */ | |
} | |
} | |
return 0; | |
} | |
/* Read 780-specific IPR's */ | |
int32 ReadIPR (int32 rg) | |
{ | |
int32 val; | |
switch (rg) { | |
case MT_ICCS: /* ICCS */ | |
val = iccs_rd (); | |
break; | |
case MT_NICR: /* NICR */ | |
val = nicr_rd (); | |
break; | |
case MT_ICR: /* ICR */ | |
val = icr_rd (FALSE); | |
break; | |
case MT_TODR: /* TODR */ | |
val = todr_rd (); | |
break; | |
case MT_ACCS: /* ACCS (not impl) */ | |
val = 0; | |
break; | |
case MT_WCSA: /* WCSA */ | |
val = wcs_addr & WCSA_RW; | |
break; | |
case MT_WCSD: /* WCSD */ | |
val = WCSD_RD_VAL; | |
break; | |
case MT_RXCS: /* RXCS */ | |
val = rxcs_rd (); | |
break; | |
case MT_RXDB: /* RXDB */ | |
val = rxdb_rd (); | |
break; | |
case MT_TXCS: /* TXCS */ | |
val = txcs_rd (); | |
break; | |
case MT_SBIFS: /* SBIFS */ | |
val = sbi_fs & SBIFS_RD; | |
break; | |
case MT_SBIS: /* SBIS */ | |
val = 0; | |
break; | |
case MT_SBISC: /* SBISC */ | |
val = sbi_sc & SBISC_RD; | |
break; | |
case MT_SBIMT: /* SBIMT */ | |
val = sbi_mt & SBIMT_RD; | |
break; | |
case MT_SBIER: /* SBIER */ | |
val = sbi_er & SBIER_RD; | |
break; | |
case MT_SBITA: /* SBITA */ | |
val = sbi_tmo; | |
break; | |
case MT_MBRK: /* MBRK */ | |
val = wcs_mbrk & MBRK_RW; | |
break; | |
case MT_SID: /* SID */ | |
val = VAX780_SID | VAX780_ECO | VAX780_PLANT | VAX780_SN; | |
break; | |
default: | |
RSVD_OPND_FAULT; | |
} | |
return val; | |
} | |
/* Write 780-specific IPR's */ | |
void WriteIPR (int32 rg, int32 val) | |
{ | |
switch (rg) { | |
case MT_ICCS: /* ICCS */ | |
iccs_wr (val); | |
break; | |
case MT_NICR: /* NICR */ | |
nicr_wr (val); | |
break; | |
case MT_TODR: /* TODR */ | |
todr_wr (val); | |
break; | |
case MT_ACCS: /* ACCS (not impl) */ | |
break; | |
case MT_WCSA: /* WCSA */ | |
wcs_addr = val & WCSA_RW; | |
break; | |
case MT_WCSD: /* WCSD */ | |
wcs_data = val & WCSD_WR; | |
wcs_addr = (wcs_addr & ~WCSA_CTR) | | |
((wcs_addr + WCSA_CTR_INC) & WCSA_CTR); | |
if ((wcs_addr & WCSA_CTR) == WCSA_CTR_MAX) | |
wcs_addr = (wcs_addr & ~WCSA_ADDR) | | |
((wcs_addr + 1) & WCSA_ADDR); | |
break; | |
case MT_RXCS: /* RXCS */ | |
rxcs_wr (val); | |
break; | |
case MT_TXCS: /* TXCS */ | |
txcs_wr (val); | |
break; | |
case MT_TXDB: /* TXDB */ | |
txdb_wr (val); | |
break; | |
case MT_SBIFS: /* SBIFS */ | |
sbi_fs = (sbi_fs & ~SBIFS_WR) | (val & SBIFS_WR); | |
sbi_fs = sbi_fs & ~(val & SBIFS_W1C); | |
break; | |
case MT_SBISC: /* SBISC */ | |
sbi_sc = (sbi_sc & ~(SBISC_LOCK|SBISC_WR)) | (val & SBISC_WR); | |
break; | |
case MT_SBIMT: /* SBIMT */ | |
sbi_mt = (sbi_mt & ~SBIMT_WR) | (val & SBIMT_WR); | |
break; | |
case MT_SBIER: /* SBIER */ | |
sbi_er = (sbi_er & ~SBIER_WR) | (val & SBIER_WR); | |
sbi_er = sbi_er & ~(val & SBIER_W1C); | |
if (val & SBIER_TMO) | |
sbi_er = sbi_er & ~SBIER_TMOW1C; | |
if (val & SBIER_IBTMO) | |
sbi_er = sbi_er & ~SBIER_IBTW1C; | |
if ((sbi_er & SBIER_CRDIE) && (sbi_er & SBIER_CRD)) | |
crd_err = 1; | |
else crd_err = 0; | |
break; | |
case MT_SBIQC: /* SBIQC */ | |
if (val & SBIQC_MBZ) { | |
RSVD_OPND_FAULT; | |
} | |
WriteLP (val, 0); | |
WriteLP (val + 4, 0); | |
break; | |
case MT_MBRK: /* MBRK */ | |
wcs_mbrk = val & MBRK_RW; | |
break; | |
default: | |
RSVD_OPND_FAULT; | |
} | |
return; | |
} | |
/* ReadReg - read register space | |
Inputs: | |
pa = physical address | |
lnt = length (BWLQ) | |
Output: | |
longword of data | |
*/ | |
int32 ReadReg (int32 pa, int32 lnt) | |
{ | |
int32 nexus, val; | |
if (ADDR_IS_REG (pa)) { /* reg space? */ | |
nexus = NEXUS_GETNEX (pa); /* get nexus */ | |
if (nexusR[nexus] && /* valid? */ | |
(nexusR[nexus] (&val, pa, lnt) == SCPE_OK)) { | |
SET_IRQL; | |
return val; | |
} | |
} | |
sbi_set_tmo (pa); /* timeout */ | |
MACH_CHECK (MCHK_RD_F); /* machine check */ | |
return 0; | |
} | |
/* WriteReg - write register space | |
Inputs: | |
pa = physical address | |
val = data to write, right justified in 32b longword | |
lnt = length (BWLQ) | |
Outputs: | |
none | |
*/ | |
void WriteReg (int32 pa, int32 val, int32 lnt) | |
{ | |
int32 nexus; | |
if (ADDR_IS_REG (pa)) { /* reg space? */ | |
nexus = NEXUS_GETNEX (pa); /* get nexus */ | |
if (nexusW[nexus] && /* valid? */ | |
(nexusW[nexus] (val, pa, lnt) == SCPE_OK)) { | |
SET_IRQL; | |
return; | |
} | |
} | |
sbi_set_tmo (pa); /* timeout */ | |
mem_err = 1; /* interrupt */ | |
eval_int (); | |
return; | |
} | |
/* Set SBI timeout - machine checks only on reads */ | |
void sbi_set_tmo (int32 pa) | |
{ | |
if ((sbi_er & SBIER_TMO) == 0) { /* not yet set? */ | |
sbi_tmo = pa >> 2; /* save addr */ | |
if (mchk_ref == REF_V) /* virt? add mode */ | |
sbi_tmo |= SBITMO_VIRT | (PSL_GETCUR (PSL) << SBITMO_V_MODE); | |
sbi_er |= SBIER_TMO; /* set tmo flag */ | |
} | |
else sbi_er |= SBIER_MULT; /* yes, multiple */ | |
return; | |
} | |
/* Set SBI error confirmation - always machine checks */ | |
void sbi_set_errcnf (void) | |
{ | |
if (sbi_er & SBIER_CNF) | |
sbi_er |= SBIER_MULT; | |
else sbi_er |= SBIER_CNF; | |
MACH_CHECK (MCHK_RD_F); | |
return; | |
} | |
/* Machine check | |
Error status word format | |
<2:0> = ASTLVL | |
<3> = PME | |
<6:4> = arith trap code | |
Rest will be zero | |
*/ | |
int32 machine_check (int32 p1, int32 opc, int32 cc, int32 delta) | |
{ | |
int32 acc, err; | |
err = (GET_TRAP (trpirq) << 4) | (pme << 3) | ASTLVL; /* error word */ | |
cc = intexc (SCB_MCHK, cc, 0, IE_SVE); /* take exception */ | |
acc = ACC_MASK (KERN); /* in kernel mode */ | |
in_ie = 1; | |
SP = SP - 44; /* push 11 words */ | |
Write (SP, 40, L_LONG, WA); /* # bytes */ | |
Write (SP + 4, p1, L_LONG, WA); /* mcheck type */ | |
Write (SP + 8, err, L_LONG, WA); /* CPU error status */ | |
Write (SP + 12, 0, L_LONG, WA); /* uPC */ | |
Write (SP + 16, mchk_va, L_LONG, WA); /* VA */ | |
Write (SP + 20, 0, L_LONG, WA); /* D register */ | |
Write (SP + 24, mapen, L_LONG, WA); /* TB status 1 */ | |
Write (SP + 28, 0, L_LONG, WA); /* TB status 2 */ | |
Write (SP + 32, sbi_tmo, L_LONG, WA); /* SBI timeout addr */ | |
Write (SP + 36, 0, L_LONG, WA); /* cache status */ | |
Write (SP + 40, sbi_er, L_LONG, WA); /* SBI error */ | |
in_ie = 0; | |
sbi_er = sbi_er & ~SBIER_TMOW1C; /* clr SBIER<tmo> etc */ | |
return cc; | |
} | |
/* Console entry - only reached if CONHALT is set (AUTORESTART is set */ | |
int32 con_halt (int32 code, int32 cc) | |
{ | |
if ((cpu_boot_cmd[0] == 0) || /* saved boot cmd? */ | |
(vax780_boot_parse (0, cpu_boot_cmd) != SCPE_OK) || /* reparse the boot cmd */ | |
(reset_all (0) != SCPE_OK) || /* reset the world */ | |
(cpu_boot (0, NULL) != SCPE_OK)) /* set up boot code */ | |
ABORT (STOP_BOOT); /* any error? */ | |
printf ("Rebooting...\n"); | |
if (sim_log) | |
fprintf (sim_log, "Rebooting...\n"); | |
return cc; | |
} | |
/* Special boot command - linked into SCP by initial reset | |
Syntax: BOOT <device>{/R5:val} | |
Sets up R0-R5, calls SCP boot processor with effective BOOT CPU | |
*/ | |
t_stat vax780_boot (int32 flag, char *ptr) | |
{ | |
t_stat r; | |
r = vax780_boot_parse (flag, ptr); /* parse the boot cmd */ | |
if (r != SCPE_OK) /* error? */ | |
return r; | |
strncpy (cpu_boot_cmd, ptr, CBUFSIZE); /* save for reboot */ | |
return run_cmd (flag, "CPU"); | |
} | |
/* Parse boot command, set up registers - also used on reset */ | |
t_stat vax780_boot_parse (int32 flag, char *ptr) | |
{ | |
char gbuf[CBUFSIZE]; | |
char *slptr, *regptr; | |
int32 i, r5v, unitno; | |
DEVICE *dptr; | |
UNIT *uptr; | |
DIB *dibp; | |
t_stat r; | |
regptr = get_glyph (ptr, gbuf, 0); /* get glyph */ | |
if (slptr = strchr (gbuf, '/')) { /* found slash? */ | |
regptr = strchr (ptr, '/'); /* locate orig */ | |
*slptr = 0; /* zero in string */ | |
} | |
dptr = find_unit (gbuf, &uptr); /* find device */ | |
if ((dptr == NULL) || (uptr == NULL)) | |
return SCPE_ARG; | |
dibp = (DIB *) dptr->ctxt; /* get DIB */ | |
if (dibp == NULL) | |
return SCPE_ARG; | |
unitno = (int32) (uptr - dptr->units); | |
r5v = 0; | |
if ((strncmp (regptr, "/R5:", 4) == 0) || | |
(strncmp (regptr, "/R5=", 4) == 0) || | |
(strncmp (regptr, "/r5:", 4) == 0) || | |
(strncmp (regptr, "/r5=", 4) == 0)) { | |
r5v = (int32) get_uint (regptr + 4, 16, LMASK, &r); | |
if (r != SCPE_OK) | |
return r; | |
} | |
else if (*regptr != 0) | |
return SCPE_ARG; | |
for (i = 0; boot_tab[i].name != NULL; i++) { | |
if (strcmp (dptr->name, boot_tab[i].name) == 0) { | |
R[0] = boot_tab[i].code; | |
if (dptr->flags & DEV_MBUS) { | |
R[1] = dibp->ba + TR_MBA0; | |
R[2] = unitno; | |
} | |
else { | |
R[1] = TR_UBA; | |
R[2] = boot_tab[i].let | (dibp->ba & UBADDRMASK); | |
} | |
R[3] = unitno; | |
R[4] = 0; | |
R[5] = r5v; | |
return SCPE_OK; | |
} | |
} | |
return SCPE_NOFNC; | |
} | |
/* Bootstrap - finish up bootstrap process */ | |
t_stat cpu_boot (int32 unitno, DEVICE *dptr) | |
{ | |
t_stat r; | |
printf ("Loading boot code from vmb.exe\n"); | |
if (sim_log) | |
fprintf (sim_log, "Loading boot code from vmb.exe\n"); | |
r = load_cmd (0, "-O vmb.exe 200"); | |
if (r != SCPE_OK) { | |
#ifndef DONT_USE_INTERNAL_ROM | |
FILE *f; | |
if (f = sim_fopen ("vmb.exe", "wb")) { | |
printf ("Saving boot code to vmb.exe\n"); | |
if (sim_log) | |
fprintf (sim_log, "Saving boot code to vmb.exe\n"); | |
sim_fwrite (vax780_vmb_exe, sizeof(vax780_vmb_exe[0]), sizeof(vax780_vmb_exe)/sizeof(vax780_vmb_exe[0]), f); | |
fclose (f); | |
printf ("Loading boot code from vmb.exe\n"); | |
if (sim_log) | |
fprintf (sim_log, "Loading boot code from vmb.exe\n"); | |
r = load_cmd (0, "-O vmb.exe 200"); | |
if (r == SCPE_OK) | |
SP = PC = 512; | |
} | |
#endif | |
return r; | |
} | |
SP = PC = 512; | |
return SCPE_OK; | |
} | |
/* SBI reset */ | |
t_stat sbi_reset (DEVICE *dptr) | |
{ | |
wcs_addr = 0; | |
wcs_data = 0; | |
wcs_mbrk = 0; | |
sbi_fs = 0; | |
sbi_sc = 0; | |
sbi_mt = 0; | |
sbi_er = 0; | |
sbi_tmo = 0; | |
sim_vm_cmd = vax780_cmd; | |
return SCPE_OK; | |
} | |
/* Show nexus */ | |
t_stat show_nexus (FILE *st, UNIT *uptr, int32 val, void *desc) | |
{ | |
fprintf (st, "nexus=%d", val); | |
return SCPE_OK; | |
} | |
/* Init nexus tables */ | |
void init_nexus_tab (void) | |
{ | |
uint32 i; | |
for (i = 0; i < NEXUS_NUM; i++) { | |
nexusR[i] = NULL; | |
nexusW[i] = NULL; | |
} | |
return; | |
} | |
/* Build nexus tables | |
Inputs: | |
dptr = pointer to device | |
dibp = pointer to DIB | |
Outputs: | |
status | |
*/ | |
t_stat build_nexus_tab (DEVICE *dptr, DIB *dibp) | |
{ | |
uint32 idx; | |
if ((dptr == NULL) || (dibp == NULL)) | |
return SCPE_IERR; | |
idx = dibp->ba; | |
if (idx >= NEXUS_NUM) | |
return SCPE_IERR; | |
if ((nexusR[idx] && dibp->rd && /* conflict? */ | |
(nexusR[idx] != dibp->rd)) || | |
(nexusW[idx] && dibp->wr && | |
(nexusW[idx] != dibp->wr))) { | |
printf ("Nexus %s conflict at %d\n", sim_dname (dptr), dibp->ba); | |
if (sim_log) | |
fprintf (sim_log, "Nexus %s conflict at %d\n", sim_dname (dptr), dibp->ba); | |
return SCPE_STOP; | |
} | |
if (dibp->rd) /* set rd dispatch */ | |
nexusR[idx] = dibp->rd; | |
if (dibp->wr) /* set wr dispatch */ | |
nexusW[idx] = dibp->wr; | |
return SCPE_OK; | |
} | |
/* Build dib_tab from device list */ | |
t_stat build_dib_tab (void) | |
{ | |
uint32 i; | |
DEVICE *dptr; | |
DIB *dibp; | |
t_stat r; | |
init_nexus_tab (); | |
init_ubus_tab (); | |
init_mbus_tab (); | |
for (i = 0; (dptr = sim_devices[i]) != NULL; i++) { /* loop thru dev */ | |
dibp = (DIB *) dptr->ctxt; /* get DIB */ | |
if (dibp && !(dptr->flags & DEV_DIS)) { /* defined, enabled? */ | |
if (dptr->flags & DEV_NEXUS) { /* Nexus? */ | |
if (r = build_nexus_tab (dptr, dibp)) /* add to dispatch table */ | |
return r; | |
} | |
else if (dptr->flags & DEV_MBUS) { /* Massbus? */ | |
if (r = build_mbus_tab (dptr, dibp)) | |
return r; | |
} | |
else { /* no, Unibus device */ | |
if (r = build_ubus_tab (dptr, dibp)) /* add to dispatch tab */ | |
return r; | |
} /* end else */ | |
} /* end if enabled */ | |
} /* end for */ | |
return SCPE_OK; | |
} |