/* | |
* besm6_mmu.c: BESM-6 fast write cache and TLB registers | |
*(стойка БРУС) | |
* | |
* Copyright (c) 2009, Leonid Broukhis | |
* | |
* 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 | |
* SERGE VAKULENKO OR LEONID BROUKHIS 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 Leonid Broukhis or | |
* Serge Vakulenko shall not be used in advertising or otherwise to promote | |
* the sale, use or other dealings in this Software without prior written | |
* authorization from Leonid Broukhis and Serge Vakulenko. | |
*/ | |
#include "besm6_defs.h" | |
/* | |
* MMU data structures | |
* | |
* mmu_dev MMU device descriptor | |
* mmu_unit MMU unit descriptor | |
* mmu_reg MMU register list | |
*/ | |
UNIT mmu_unit = { | |
UDATA (NULL, UNIT_FIX, 8) | |
}; | |
t_value BRZ[8]; | |
uint32 BAZ[8], TABST, RZ, OLDEST, FLUSH; | |
t_value BRS[4]; | |
uint32 BAS[4]; | |
uint32 BRSLRU; | |
/* | |
* 64-битные регистры RP0-RP7 - для отображения регистров приписки, | |
* группами по 4 ради компактности, 12 бит на страницу. | |
* TLB0-TLB31 - постраничные регистры приписки, копии RPi. | |
* Обращение к памяти должно вестись через TLBi. | |
*/ | |
t_value RP[8]; | |
uint32 TLB[32]; | |
uint32 iintr_data; /* protected page number or parity check location */ | |
/* There were several hardwired configurations of registers | |
* corresponding to up to 7 first words of the memory space, selected by | |
* a packet switch. Here selection 0 corresponds to settable switch registers, | |
* the others are hardwired. | |
* The configuration is selected with "SET CPU PULT=N" where 0 <= N <= 10 | |
* is the configuration number. | |
*/ | |
unsigned pult_packet_switch; | |
/* Location 0 of each configuration is the bitset of its hardwired locations */ | |
t_value pult[11][8] = { | |
/* Switch registers */ | |
{ 0 }, | |
/* Hardwired program 1, a simple CU test */ | |
{ 0376, | |
SET_PARITY(01240000007100002LL, PARITY_INSN), /* 1: vtm (2), vjm 2(1) */ | |
SET_PARITY(00657777712577777LL, PARITY_INSN), /* 2: utm -1(1), utm -1(2) */ | |
SET_PARITY(00444000317400007LL, PARITY_INSN), /* 3: mtj 3(1), vzm 7(3) */ | |
SET_PARITY(01045000317500007LL, PARITY_INSN), /* 4: j+m 3(2), v1m 7(3)*/ | |
SET_PARITY(00650000107700002LL, PARITY_INSN), /* 5: utm 1(1), vlm 2(1) */ | |
SET_PARITY(01257777713400001LL, PARITY_INSN), /* 6: utm -1(2), vzm 1(2) */ | |
SET_PARITY(00330000003000001LL, PARITY_INSN) /* 7: stop, uj 1 */ | |
}, | |
/* Hardwired program 2, RAM write test. The "arx" insn (cyclic add) | |
* in word 3 could be changed to "atx" insn (load) to use a constant | |
* bit pattern with a "constant/variable code" front panel switch (TODO). | |
* The bit pattern to use is taken from switch register 7. | |
*/ | |
{ 0176, | |
SET_PARITY(00770000306400012LL, PARITY_INSN), /* 1: vlm 3(1), vtm 12(1) */ | |
SET_PARITY(00010000000000010LL, PARITY_INSN), /* 2: xta 0, atx 10 */ | |
SET_PARITY(00010001000130007LL, PARITY_INSN), /* 3: xta 10, arx 7 */ | |
SET_PARITY(00500777700000010LL, PARITY_INSN), /* 4: atx -1(1), atx 10 */ | |
SET_PARITY(00512777702600001LL, PARITY_INSN), /* 5: aex -1(1), uza 1 */ | |
SET_PARITY(00737777703000001LL, PARITY_INSN) /* 6: stop -1(1), uj 1 */ | |
}, | |
/* Hardwired program 3, RAM read test to use after program 2, arx/atx applies */ | |
{ 0176, | |
SET_PARITY(00770000306400012LL, PARITY_INSN), /* 1: vlm 3(1), vtm 12(1) */ | |
SET_PARITY(00010000000000010LL, PARITY_INSN), /* 2: xta 0, atx 10 */ | |
SET_PARITY(00010001000130007LL, PARITY_INSN), /* 3: xta 10, arx 7 */ | |
SET_PARITY(00000000000000010LL, PARITY_INSN), /* 4: atx 0, atx 10 */ | |
SET_PARITY(00512777702600001LL, PARITY_INSN), /* 5: aex -1(1), uza 1 */ | |
SET_PARITY(00737777703000001LL, PARITY_INSN) /* 6: stop -1(1), uj 1 */ | |
}, | |
/* Hardwired program 4, RAM write-read test to use after program 2, arx/atx applies */ | |
{ 0176, | |
SET_PARITY(00640001200100011LL, PARITY_INSN), /* 1: vtm 12(1), xta 11 */ | |
SET_PARITY(00000001005127777LL, PARITY_INSN), /* 2: atx 10, aex -1(1) */ | |
SET_PARITY(00260000407377777LL, PARITY_INSN), /* 3: uza 4, stop -1(1) */ | |
SET_PARITY(00010001000130007LL, PARITY_INSN), /* 4: xta 10, arx 7 */ | |
SET_PARITY(00500777707700002LL, PARITY_INSN), /* 5: atx -1(1), vlm 2(1) */ | |
SET_PARITY(00300000100000000LL, PARITY_INSN) /* 6: uj 1 */ | |
}, | |
/* Hardwired program 5, ALU test; switch reg 7 should contain a | |
normalized f. p. value, e.g. 1.0 = 4050 0000 0000 0000 */ | |
{ 0176, | |
SET_PARITY(00004000700000011LL, PARITY_INSN), /* 1: a+x 7, atx 11 */ | |
SET_PARITY(00025001100000010LL, PARITY_INSN), /* 2: e-x 11, atx 10 */ | |
SET_PARITY(00017001000160010LL, PARITY_INSN), /* 3: a*x 10, a/x 10 */ | |
SET_PARITY(00005001000340145LL, PARITY_INSN), /* 4: a-x 10, e+n 145 */ | |
SET_PARITY(00270000603300000LL, PARITY_INSN), /* 5: u1a 6, stop */ | |
SET_PARITY(00010001103000001LL, PARITY_INSN) /* 6: xta 11, uj 1*/ | |
}, | |
/* Hardwired program 6, reading from punch tape (originally) or a disk (rework); | |
* various bit groups not hardwired, marked [] (TODO). Disk operation is encoded. | |
*/ | |
{ 0376, | |
SET_PARITY(00640000300100006LL, PARITY_INSN), /* 1: vtm [3](1), xta 6 */ | |
SET_PARITY(00433002004330020LL, PARITY_INSN), /* 2: ext 20(1), ext 20(1) */ | |
SET_PARITY(00036015204330020LL, PARITY_INSN), /* 3: asn 152, ext 20(1) */ | |
SET_PARITY(00010000704330000LL, PARITY_INSN), /* 4: xta 7, ext (1) */ | |
SET_PARITY(00036014404330020LL, PARITY_INSN), /* 5: asn 144, ext 20(1) */ | |
SET_PARITY(00330000000002401LL, PARITY_INSN), /* 6: stop, =24[01] */ | |
SET_PARITY(04000000001400000LL, PARITY_NUMBER) /* 7: bits 37-47 not hardwired */ | |
}, | |
/* Hardwired program 7, RAM peek/poke, bits 1-15 of word 1 not hardwired (TODO) */ | |
{ 0176, | |
}, | |
/* Hardwired program 8, reading the test program from a fixed drum location */ | |
{ 0036, | |
}, | |
/* Hardwired program 9, drum I/O */ | |
{ 0176, | |
SET_PARITY(00647774100100007LL, PARITY_INSN), /* 1: vtm -31(1), xta 7 */ | |
SET_PARITY(00033000212460000LL, PARITY_INSN), /* 2: ext 2, vtm 60000(2) */ | |
SET_PARITY(00040000013700003LL, PARITY_INSN), /* 3: ati, vlm 3(2) */ | |
SET_PARITY(00013000607700002LL, PARITY_INSN), /* 4: arx 6, vlm 2(1) */ | |
SET_PARITY(00330000103000005LL, PARITY_INSN), /* 5: stop 1, uj 5 */ | |
SET_PARITY(00000000000010001LL, PARITY_NUMBER) /* 6: =10001 */ | |
}, | |
/* Hardwired program 10, magtape read */ | |
{ 0176, | |
}, | |
}; | |
#define ORDATAVM(nm,loc,wd) REGDATA(nm,(loc),8,wd,0,1,NULL,NULL,REG_VMIO,0,0) | |
#define ORDATAH(nm,loc,wd) REGDATA(nm,(loc),8,wd,0,1,NULL,NULL,REG_HIDDEN,0,0) | |
REG mmu_reg[] = { | |
{ ORDATAVM ( "БРЗ0", BRZ[0], 50) }, /* Буферные регистры записи */ | |
{ ORDATAVM ( "БРЗ1", BRZ[1], 50) }, | |
{ ORDATAVM ( "БРЗ2", BRZ[2], 50) }, | |
{ ORDATAVM ( "БРЗ3", BRZ[3], 50) }, | |
{ ORDATAVM ( "БРЗ4", BRZ[4], 50) }, | |
{ ORDATAVM ( "БРЗ5", BRZ[5], 50) }, | |
{ ORDATAVM ( "БРЗ6", BRZ[6], 50) }, | |
{ ORDATAVM ( "БРЗ7", BRZ[7], 50) }, | |
{ ORDATA ( "БАЗ0", BAZ[0], 16) }, /* Буферные адреса записи */ | |
{ ORDATA ( "БАЗ1", BAZ[1], 16) }, | |
{ ORDATA ( "БАЗ2", BAZ[2], 16) }, | |
{ ORDATA ( "БАЗ3", BAZ[3], 16) }, | |
{ ORDATA ( "БАЗ4", BAZ[4], 16) }, | |
{ ORDATA ( "БАЗ5", BAZ[5], 16) }, | |
{ ORDATA ( "БАЗ6", BAZ[6], 16) }, | |
{ ORDATA ( "БАЗ7", BAZ[7], 16) }, | |
{ ORDATAH ( "ТАБСТ", TABST, 28) }, /* Таблица старшинства БРЗ */ | |
{ ORDATAH ( "ЗпТР", FLUSH, 4) }, /* Признак выталкивания БРЗ */ | |
{ ORDATA ( "Старш", OLDEST, 3) }, /* Номер вытолкнутого БРЗ */ | |
{ ORDATAVM ( "РП0", RP[0], 48) }, /* Регистры приписки, по 12 бит */ | |
{ ORDATAVM ( "РП1", RP[1], 48) }, | |
{ ORDATAVM ( "РП2", RP[2], 48) }, | |
{ ORDATAVM ( "РП3", RP[3], 48) }, | |
{ ORDATAVM ( "РП4", RP[4], 48) }, | |
{ ORDATAVM ( "РП5", RP[5], 48) }, | |
{ ORDATAVM ( "РП6", RP[6], 48) }, | |
{ ORDATAVM ( "РП7", RP[7], 48) }, | |
{ ORDATA ( "РЗ", RZ, 32) }, /* Регистр защиты */ | |
{ ORDATAVM ( "ТР1", pult[0][1], 50) }, /* Тумблерные регистры */ | |
{ ORDATAVM ( "ТР2", pult[0][2], 50) }, | |
{ ORDATAVM ( "ТР3", pult[0][3], 50) }, | |
{ ORDATAVM ( "ТР4", pult[0][4], 50) }, | |
{ ORDATAVM ( "ТР5", pult[0][5], 50) }, | |
{ ORDATAVM ( "ТР6", pult[0][6], 50) }, | |
{ ORDATAVM ( "ТР7", pult[0][7], 50) }, | |
{ ORDATAVM ( "БРС0", BRS[0], 50) }, /* Буферные регистры слов */ | |
{ ORDATAVM ( "БРС1", BRS[1], 50) }, | |
{ ORDATAVM ( "БРС2", BRS[2], 50) }, | |
{ ORDATAVM ( "БРС3", BRS[3], 50) }, | |
{ ORDATA ( "БАС0", BAS[0], 16) }, /* Буферные адреса слов */ | |
{ ORDATA ( "БАС1", BAS[1], 16) }, | |
{ ORDATA ( "БАС2", BAS[2], 16) }, | |
{ ORDATA ( "БАС3", BAS[3], 16) }, | |
{ ORDATA ( "БРСст", BRSLRU, 6) }, | |
{ 0 } | |
}; | |
#define CACHE_ENB 1 | |
MTAB mmu_mod[] = { | |
{ 1, 0, "NOCACHE", "NOCACHE" }, | |
{ 1, 1, "CACHE", "CACHE" }, | |
{ 0 } | |
}; | |
t_stat mmu_reset (DEVICE *dptr); | |
t_stat mmu_examine (t_value *vptr, t_addr addr, UNIT *uptr, int32 sw) | |
{ | |
mmu_print_brz(); | |
return SCPE_NOFNC; | |
} | |
DEVICE mmu_dev = { | |
"MMU", &mmu_unit, mmu_reg, mmu_mod, | |
1, 8, 3, 1, 8, 50, | |
&mmu_examine, NULL, &mmu_reset, | |
NULL, NULL, NULL, NULL, | |
DEV_DEBUG | |
}; | |
/* | |
* Reset routine | |
*/ | |
t_stat mmu_reset (DEVICE *dptr) | |
{ | |
int i; | |
for (i = 0; i < 8; ++i) { | |
BRZ[i] = RP[i] = BAZ[i] = 0; | |
} | |
TABST = 0; | |
OLDEST = 0; | |
FLUSH = 0; | |
RZ = 0; | |
/* | |
* Front panel switches survive the reset | |
*/ | |
sim_cancel (&mmu_unit); | |
return SCPE_OK; | |
} | |
#define loses_to_all(i) ((TABST & win_mask[i]) == 0 && \ | |
(TABST & lose_mask[i]) == lose_mask[i]) | |
/* | |
* N wins over M if the bit is set | |
* M=1 2 3 4 5 6 7 | |
* N ------------------------- | |
* 0| 0 1 2 3 4 5 6 | |
* 1| 7 8 9 10 11 12 | |
* 2| 13 14 15 16 17 | |
* 3| 18 19 20 21 | |
* 4| 22 23 24 | |
* 5| 25 26 | |
* 6| 27 | |
*/ | |
static unsigned win_mask[8] = { | |
0177, | |
0077 << 7, | |
0037 << 13, | |
0017 << 18, | |
0007 << 22, | |
0003 << 25, | |
0001 << 27, | |
0 | |
}; | |
static unsigned lose_mask[8] = { | |
0, | |
1<<0, | |
1<<1|1<<7, | |
1<<2|1<<8|1<<13, | |
1<<3|1<<9|1<<14|1<<18, | |
1<<4|1<<10|1<<15|1<<19|1<<22, | |
1<<5|1<<11|1<<16|1<<20|1<<23|1<<25, | |
1<<6|1<<12|1<<17|1<<21|1<<24|1<<26|1<<27 | |
}; | |
#define set_wins(i) TABST = (TABST & ~lose_mask[i]) | win_mask[i] | |
void mmu_protection_check (int addr) | |
{ | |
/* Защита блокируется в режиме супервизора для физических (!) адресов 1-7 (ТО-8) - WTF? */ | |
int tmp_prot_disabled = (M[PSW] & PSW_PROT_DISABLE) || | |
(IS_SUPERVISOR (RUU) && (M[PSW] & PSW_MMAP_DISABLE) && addr < 010); | |
/* Защита не заблокирована, а лист закрыт */ | |
if (! tmp_prot_disabled && (RZ & (1 << (addr >> 10)))) { | |
iintr_data = addr >> 10; | |
if (mmu_dev.dctrl) | |
besm6_debug ("--- (%05o) защита числа", addr); | |
longjmp (cpu_halt, STOP_OPERAND_PROT); | |
} | |
} | |
void mmu_flush (int idx) | |
{ | |
int waddr = BAZ[idx]; | |
if (! BAZ[idx]) { | |
/* Был пуст после сброса или выталкивания */ | |
return; | |
} | |
/* Вычисляем физический адрес выталкиваемого БРЗ */ | |
waddr = (waddr > 0100000) ? (waddr - 0100000) : | |
(waddr & 01777) | (TLB[waddr >> 10] << 10); | |
memory[waddr] = BRZ[idx]; | |
BAZ[idx] = 0; | |
if (sim_log && mmu_dev.dctrl) { | |
fprintf (sim_log, "--- (%05o) запись ", waddr); | |
fprint_sym (sim_log, 0, &BRZ[idx], 0, 0); | |
fprintf (sim_log, " из БРЗ[%d]\n", idx); | |
} | |
} | |
void mmu_update_oldest () | |
{ | |
int i; | |
for (i = 0; i < 8; ++i) { | |
if (loses_to_all(i)) { | |
OLDEST = i; | |
// fprintf(stderr, "Oldest = %d\r\n", i); | |
return; | |
} | |
} | |
} | |
int mmu_match (int addr, int fail) | |
{ | |
int i; | |
for (i = 0; i < 8; ++i) { | |
if (addr == BAZ[i]) { | |
return i; | |
} | |
} | |
return fail; | |
} | |
/* | |
* Разнообразные алгоритмы выталкивания БРЗ путем записи | |
* по адресам пультовых регистров. Тест УУ проходит дальше всего | |
* с mmu_flush_by_age(). | |
*/ | |
void mmu_flush_by_age() | |
{ | |
switch (FLUSH) { | |
case 0: | |
break; | |
case 1: case 2: case 3: case 4: case 5: case 6: case 7: case 8: | |
set_wins (OLDEST); | |
mmu_update_oldest (); | |
mmu_flush (OLDEST); | |
if (FLUSH == 7) { | |
TABST = 0; | |
OLDEST = 0; | |
} | |
break; | |
} | |
++FLUSH; | |
} | |
void mmu_flush_by_number() | |
{ | |
switch (FLUSH) { | |
case 0: | |
break; | |
case 1: case 2: case 3: case 4: case 5: case 6: case 7: case 8: | |
mmu_flush (FLUSH-1); | |
set_wins (FLUSH-1); | |
if (FLUSH-1 == OLDEST) | |
mmu_update_oldest (); | |
if (FLUSH == 7) { | |
TABST = 0; | |
OLDEST = 0; | |
} | |
break; | |
} | |
++FLUSH; | |
} | |
/* | |
* Запись слова в память | |
*/ | |
void mmu_store (int addr, t_value val) | |
{ | |
int matching; | |
addr &= BITS(15); | |
if (addr == 0) | |
return; | |
if (sim_log && mmu_dev.dctrl) { | |
fprintf (sim_log, "--- (%05o) запись ", addr); | |
fprint_sym (sim_log, 0, &val, 0, 0); | |
fprintf (sim_log, "\n"); | |
} | |
mmu_protection_check (addr); | |
/* Различаем адреса с припиской и без */ | |
if (M[PSW] & PSW_MMAP_DISABLE) | |
addr |= 0100000; | |
/* ЗПСЧ: ЗП */ | |
if (M[DWP] == addr && (M[PSW] & PSW_WRITE_WATCH)) | |
longjmp(cpu_halt, STOP_STORE_ADDR_MATCH); | |
if (sim_brk_summ & SWMASK('W') && | |
sim_brk_test (addr, SWMASK('W'))) | |
longjmp(cpu_halt, STOP_WWATCH); | |
if (!(mmu_unit.flags & CACHE_ENB)) { | |
static int roundrobin; | |
int faked = (++roundrobin ^ addr ^ val) & 7; | |
if (addr > 0100000 && addr < 0100010) | |
return; | |
BRZ[faked] = SET_PARITY (val, RUU ^ PARITY_INSN); | |
BAZ[faked] = addr; | |
mmu_flush (faked); | |
return; | |
} | |
/* Запись в тумблерные регистры - выталкивание БРЗ */ | |
if (addr > 0100000 && addr < 0100010) { | |
mmu_flush_by_age(); | |
return; | |
} else | |
FLUSH = 0; | |
matching = mmu_match(addr, OLDEST); | |
BRZ[matching] = SET_PARITY (val, RUU ^ PARITY_INSN); | |
BAZ[matching] = addr; | |
set_wins (matching); | |
if (matching == OLDEST) { | |
mmu_update_oldest (); | |
mmu_flush (OLDEST); | |
} | |
} | |
t_value mmu_memaccess (int addr) | |
{ | |
t_value val; | |
/* Вычисляем физический адрес слова */ | |
addr = (addr > 0100000) ? (addr - 0100000) : | |
(addr & 01777) | (TLB[addr >> 10] << 10); | |
if (addr >= 010) { | |
/* Из памяти */ | |
val = memory[addr]; | |
} else { | |
/* С тумблерных регистров */ | |
if (mmu_dev.dctrl) | |
besm6_debug("--- (%05o) чтение ТР%o", PC, addr); | |
if ((pult[pult_packet_switch][0] >> addr) & 1) { | |
/* hardwired */ | |
val = pult[pult_packet_switch][addr]; | |
} else { | |
/* from switch regs */ | |
val = pult[0][addr]; | |
} | |
} | |
if (sim_log && (mmu_dev.dctrl || (cpu_dev.dctrl && sim_deb))) { | |
fprintf (sim_log, "--- (%05o) чтение ", addr & BITS(15)); | |
fprint_sym (sim_log, 0, &val, 0, 0); | |
fprintf (sim_log, "\n"); | |
} | |
/* На тумблерных регистрах контроля числа не бывает */ | |
if (addr >= 010 && ! IS_NUMBER (val)) { | |
iintr_data = addr & 7; | |
besm6_debug ("--- (%05o) контроль числа", addr); | |
longjmp (cpu_halt, STOP_RAM_CHECK); | |
} | |
return val; | |
} | |
/* | |
* Чтение операнда | |
*/ | |
t_value mmu_load (int addr) | |
{ | |
int matching = -1; | |
t_value val; | |
addr &= BITS(15); | |
if (addr == 0) | |
return 0; | |
mmu_protection_check (addr); | |
/* Различаем адреса с припиской и без */ | |
if (M[PSW] & PSW_MMAP_DISABLE) | |
addr |= 0100000; | |
/* ЗПСЧ: СЧ */ | |
if (M[DWP] == addr && !(M[PSW] & PSW_WRITE_WATCH)) | |
longjmp(cpu_halt, STOP_LOAD_ADDR_MATCH); | |
if (sim_brk_summ & SWMASK('R') && | |
sim_brk_test (addr, SWMASK('R'))) | |
longjmp(cpu_halt, STOP_RWATCH); | |
if (!(mmu_unit.flags & CACHE_ENB)) { | |
return mmu_memaccess (addr) & BITS48; | |
} | |
matching = mmu_match(addr, -1); | |
if (matching == -1) { | |
val = mmu_memaccess (addr); | |
} else { | |
/* старшинство обновляется, только если оно не затрагивает | |
* старший БРЗ (ТО-2). | |
*/ | |
if (matching != OLDEST) | |
set_wins (matching); | |
val = BRZ[matching]; | |
if (sim_log && (mmu_dev.dctrl || (cpu_dev.dctrl && sim_deb))) { | |
fprintf (sim_log, "--- (%05o) чтение ", addr & BITS(15)); | |
fprint_sym (sim_log, 0, &val, 0, 0); | |
fprintf (sim_log, " из БРЗ\n"); | |
} | |
if (! IS_NUMBER (val)) { | |
iintr_data = matching; | |
besm6_debug ("--- (%05o) контроль числа БРЗ", addr); | |
longjmp (cpu_halt, STOP_CACHE_CHECK); | |
} | |
} | |
return val & BITS48; | |
} | |
/* A little BRS LRU table */ | |
#define brs_loses_to_all(i) ((BRSLRU & brs_win_mask[i]) == 0 && \ | |
(BRSLRU & brs_lose_mask[i]) == brs_lose_mask[i]) | |
/* | |
* N wins over M if the bit is set | |
* M=1 2 3 | |
* N --------- | |
* 0| 0 1 2 | |
* 1| 3 4 | |
* 2| 5 | |
*/ | |
static unsigned brs_win_mask[4] = { | |
07, | |
03 << 3, | |
01 << 5, | |
0 | |
}; | |
static unsigned brs_lose_mask[8] = { | |
0, | |
1<<0, | |
1<<1|1<<3, | |
1<<2|1<<4|1<<5 | |
}; | |
#define brs_set_wins(i) BRSLRU = (BRSLRU & ~brs_lose_mask[i]) | brs_win_mask[i] | |
void mmu_fetch_check (int addr) | |
{ | |
/* В режиме супервизора защиты нет */ | |
if (! IS_SUPERVISOR(RUU)) { | |
int page = TLB[addr >> 10]; | |
/* | |
* Для команд в режиме пользователя признак защиты - | |
* 0 в регистре приписки. | |
*/ | |
if (page == 0) { | |
iintr_data = addr >> 10; | |
if (mmu_dev.dctrl) | |
besm6_debug ("--- (%05o) защита команды", addr); | |
longjmp (cpu_halt, STOP_INSN_PROT); | |
} | |
} | |
} | |
/* | |
* Предвыборка команды на БРС | |
*/ | |
t_value mmu_prefetch (int addr, int actual) | |
{ | |
t_value val; | |
int i; | |
if (mmu_unit.flags & CACHE_ENB) { | |
for (i = 0; i < 4; ++i) { | |
if (BAS[i] == addr) { | |
if (actual) { | |
brs_set_wins (i); | |
} | |
return BRS[i]; | |
} | |
} | |
for (i = 0; i < 4; ++i) { | |
if (brs_loses_to_all (i)) { | |
BAS[i] = addr; | |
if (actual) { | |
brs_set_wins (i); | |
} | |
break; | |
} | |
} | |
} else if (!actual) { | |
return 0; | |
} else { | |
/* Чтобы лампочки мигали */ | |
i = addr & 3; | |
} | |
if (addr < 0100000) { | |
int page = TLB[addr >> 10]; | |
/* Вычисляем физический адрес слова */ | |
addr = (addr & 01777) | (page << 10); | |
} else { | |
addr = addr & BITS(15); | |
} | |
if (addr < 010) { | |
if ((pult[pult_packet_switch][0] >> addr) & 1) { | |
/* hardwired */ | |
val = pult[pult_packet_switch][addr]; | |
} else { | |
/* from switch regs */ | |
val = pult[0][addr]; | |
} | |
} else | |
val = memory[addr]; | |
BRS[i] = val; | |
return val; | |
} | |
/* | |
* Выборка команды | |
*/ | |
t_value mmu_fetch (int addr) | |
{ | |
t_value val; | |
if (addr == 0) { | |
if (mmu_dev.dctrl) | |
besm6_debug ("--- передача управления на 0"); | |
longjmp (cpu_halt, STOP_INSN_CHECK); | |
} | |
mmu_fetch_check(addr); | |
/* Различаем адреса с припиской и без */ | |
if (IS_SUPERVISOR (RUU)) | |
addr |= 0100000; | |
/* КРА */ | |
if (M[IBP] == addr) | |
longjmp(cpu_halt, STOP_INSN_ADDR_MATCH); | |
val = mmu_prefetch(addr, 1); | |
if (sim_log && mmu_dev.dctrl) { | |
fprintf (sim_log, "--- (%05o) выборка ", addr); | |
fprint_sym (sim_log, 0, &val, 0, SWMASK ('I')); | |
fprintf (sim_log, "\n"); | |
} | |
/* Тумблерные регистры пока только с командной сверткой */ | |
if (addr >= 010 && ! IS_INSN (val)) { | |
besm6_debug ("--- (%05o) контроль команды", addr); | |
longjmp (cpu_halt, STOP_INSN_CHECK); | |
} | |
return val & BITS48; | |
} | |
void mmu_setrp (int idx, t_value val) | |
{ | |
uint32 p0, p1, p2, p3; | |
const uint32 mask = (MEMSIZE >> 10) - 1; | |
/* Младшие 5 разрядов 4-х регистров приписки упакованы | |
* по 5 в 1-20 рр, 6-е разряды - в 29-32 рр, 7-е разряды - в 33-36 рр и т.п. | |
*/ | |
p0 = (val & 037) | (((val>>28) & 1) << 5) | (((val>>32) & 1) << 6) | | |
(((val>>36) & 1) << 7) | (((val>>40) & 1) << 8) | (((val>>44) & 1) << 9); | |
p1 = ((val>>5) & 037) | (((val>>29) & 1) << 5) | (((val>>33) & 1) << 6) | | |
(((val>>37) & 1) << 7) | (((val>>41) & 1) << 8) | (((val>>45) & 1) << 9); | |
p2 = ((val>>10) & 037) | (((val>>30) & 1) << 5) | (((val>>34) & 1) << 6) | | |
(((val>>38) & 1) << 7) | (((val>>42) & 1) << 8) | (((val>>46) & 1) << 9); | |
p3 = ((val>>15) & 037) | (((val>>31) & 1) << 5) | (((val>>35) & 1) << 6) | | |
(((val>>39) & 1) << 7) | (((val>>43) & 1) << 8) | (((val>>47) & 1) << 9); | |
p0 &= mask; | |
p1 &= mask; | |
p2 &= mask; | |
p3 &= mask; | |
RP[idx] = p0 | p1 << 12 | p2 << 24 | (t_value) p3 << 36; | |
TLB[idx*4] = p0; | |
TLB[idx*4+1] = p1; | |
TLB[idx*4+2] = p2; | |
TLB[idx*4+3] = p3; | |
} | |
void mmu_setup () | |
{ | |
const uint32 mask = (MEMSIZE >> 10) - 1; | |
int i; | |
/* Перепись РПi в TLBj. */ | |
for (i=0; i<8; ++i) { | |
TLB[i*4] = RP[i] & mask; | |
TLB[i*4+1] = RP[i] >> 12 & mask; | |
TLB[i*4+2] = RP[i] >> 24 & mask; | |
TLB[i*4+3] = RP[i] >> 36 & mask; | |
} | |
} | |
void mmu_setprotection (int idx, t_value val) | |
{ | |
/* Разряды сумматора, записываемые в регистр защиты - 21-28 */ | |
int mask = 0xff << (idx * 8); | |
val = ((val >> 20) & 0xff) << (idx * 8); | |
RZ = (uint32)((RZ & ~mask) | val); | |
} | |
void mmu_setcache (int idx, t_value val) | |
{ | |
BRZ[idx] = SET_PARITY (val, RUU ^ PARITY_INSN); | |
} | |
t_value mmu_getcache (int idx) | |
{ | |
return BRZ[idx] & BITS48; | |
} | |
void mmu_print_brz () | |
{ | |
int i, k; | |
for (i=7; i>=0; --i) { | |
besm6_log_cont ("БРЗ [%d] = '", i); | |
for (k=47; k>=0; --k) | |
besm6_log_cont ("%c", (BRZ[i] >> k & 1) ? '*' : ' '); | |
besm6_log ("'"); | |
} | |
} |