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This commit is contained in:
Folkert van Heusden 2025-04-15 09:18:22 +02:00
parent 5f3db4aead
commit c54a66edeb
Signed by untrusted user who does not match committer: folkert
GPG key ID: 6B6455EDFEED3BD1
2 changed files with 269 additions and 158 deletions
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17
PDP11/pdp11_cpu.c
View file

@ -285,9 +285,10 @@ struct __mem_writes {
} *mem_writes; } *mem_writes;
int n_mem_writes = 0; int n_mem_writes = 0;
#define MAX_N_MEM_WRITES 512
void init_mem_writes() void init_mem_writes()
{ {
mem_writes = (struct __mem_writes *)malloc(sizeof(struct __mem_writes) * 256); mem_writes = (struct __mem_writes *)malloc(sizeof(struct __mem_writes) * MAX_N_MEM_WRITES);
} }
void put_mem_write(uint8_t data, int32_t pa) void put_mem_write(uint8_t data, int32_t pa)
@ -302,9 +303,17 @@ void put_mem_write(uint8_t data, int32_t pa)
} }
} }
if (found == 0) { if (found == 0) {
mem_writes[n_mem_writes].addr = pa; if (n_mem_writes >= MAX_N_MEM_WRITES) {
mem_writes[n_mem_writes].data = data; printf("MEMORY WRITES OVERFLOW a=%06o v=%06o\n", pa, data);
n_mem_writes++; char *a = NULL;
*a = 123;
}
else {
//printf("write to a=%06o v=%06o\n", pa, data);
mem_writes[n_mem_writes].addr = pa;
mem_writes[n_mem_writes].data = data;
n_mem_writes++;
}
} }
} }

410
PDP11/test.c
View file

@ -4,6 +4,7 @@
#include <sys/stat.h> #include <sys/stat.h>
#include "pdp11_defs.h" #include "pdp11_defs.h"
#include "pdp11_cpumod.h"
#include "sim_defs.h" #include "sim_defs.h"
//extern t_stat sim_brk_init(void); //extern t_stat sim_brk_init(void);
@ -20,6 +21,10 @@ extern t_stat cpu_reset(DEVICE *dptr);
extern DEVICE cpu_dev; extern DEVICE cpu_dev;
extern int32 STACKFILE[4]; extern int32 STACKFILE[4];
extern int32 sim_interval; extern int32 sim_interval;
extern t_stat reason;
extern int32 MMR1;
extern int32 MMR2;
extern CPUTAB cpu_tab[];
struct __mem_writes { struct __mem_writes {
int32_t addr; int32_t addr;
@ -71,21 +76,8 @@ void generate_test_values()
test_values[n_test_values++] = 65535; test_values[n_test_values++] = 65535;
} }
json_t *generate_test(int *const id, struct mem_t *mem, size_t n_mem, int run_n_instructions) void put_mem(json_t *memory_i, struct mem_t *mem, int n_mem)
{ {
json_t *before = json_object();
json_object_set(before, "PC", json_integer(saved_PC));
json_object_set(before, "run-n-instructions", json_integer(run_n_instructions));
json_object_set(before, "stack-0", json_integer(STACKFILE[0]));
json_object_set(before, "stack-1", json_integer(STACKFILE[1]));
json_object_set(before, "stack-2", json_integer(STACKFILE[2]));
json_object_set(before, "stack-3", json_integer(STACKFILE[3]));
json_t *memory_i = json_array();
for(size_t i=0; i<n_mem; i++) { for(size_t i=0; i<n_mem; i++) {
char buffer1[16]; char buffer1[16];
char buffer2[16]; char buffer2[16];
@ -104,7 +96,28 @@ json_t *generate_test(int *const id, struct mem_t *mem, size_t n_mem, int run_n_
json_object_set(put_mem_i_1, buffer2, json_integer(mem[i].value >> 8)); json_object_set(put_mem_i_1, buffer2, json_integer(mem[i].value >> 8));
json_array_append_new(memory_i, put_mem_i_1); json_array_append_new(memory_i, put_mem_i_1);
} }
}
json_t *generate_test(int *const id, struct mem_t *mem, size_t n_mem, int run_n_instructions, struct mem_t *setup_mem, int n_setup_mem)
{
json_t *before = json_object();
json_object_set(before, "PC", json_integer(saved_PC));
json_object_set(before, "run-n-instructions", json_integer(run_n_instructions));
json_object_set(before, "stack-0", json_integer(STACKFILE[0]));
json_object_set(before, "stack-1", json_integer(STACKFILE[1]));
json_object_set(before, "stack-2", json_integer(STACKFILE[2]));
json_object_set(before, "stack-3", json_integer(STACKFILE[3]));
json_object_set(before, "mmr1", json_integer(MMR1));
json_object_set(before, "mmr2", json_integer(MMR2));
json_t *memory_i = json_array();
put_mem(memory_i, mem, n_mem);
if (setup_mem)
put_mem(memory_i, setup_mem, n_setup_mem);
json_object_set(before, "memory", memory_i); json_object_set(before, "memory", memory_i);
for(int k=0; k<6; k++) { for(int k=0; k<6; k++) {
@ -144,6 +157,9 @@ json_t *generate_test(int *const id, struct mem_t *mem, size_t n_mem, int run_n_
json_object_set(after, "stack-2", json_integer(STACKFILE[2])); json_object_set(after, "stack-2", json_integer(STACKFILE[2]));
json_object_set(after, "stack-3", json_integer(STACKFILE[3])); json_object_set(after, "stack-3", json_integer(STACKFILE[3]));
json_object_set(after, "mmr1", json_integer(MMR1));
json_object_set(after, "mmr2", json_integer(MMR2));
json_t *memory_o = json_array(); json_t *memory_o = json_array();
for(int i=0; i<n_mem_writes; i++) { for(int i=0; i<n_mem_writes; i++) {
@ -163,10 +179,12 @@ json_t *generate_test(int *const id, struct mem_t *mem, size_t n_mem, int run_n_
json_object_set(collection, "before", before); json_object_set(collection, "before", before);
json_object_set(collection, "after", after); json_object_set(collection, "after", after);
/*
if (failed) { if (failed) {
json_decref(collection); json_decref(collection);
return NULL; return NULL;
} }
*/
return collection; return collection;
} }
@ -176,8 +194,13 @@ void init_simh()
// reset_all(0); is this required? // reset_all(0); is this required?
cpu_reset(&cpu_dev); cpu_reset(&cpu_dev);
sim_interval = 32767; sim_interval = 32767;
reset_mem_writes(); reset_mem_writes();
reason = 0;
cpu_model = MOD_1170;
cpu_type = 1u << cpu_model;
cpu_opt = cpu_tab[cpu_model].std;
cpu_set_bus (cpu_opt);
} }
void randomize_registers_all_values() void randomize_registers_all_values()
@ -213,7 +236,7 @@ void produce_set_register(const uint16_t instr, const uint16_t psw, int *const i
PSW = psw; PSW = psw;
json_t *obj = generate_test(id, mem, 1, 1); json_t *obj = generate_test(id, mem, 1, 1, NULL, 0);
if (obj) if (obj)
json_array_append_new(out, obj); json_array_append_new(out, obj);
} }
@ -246,7 +269,7 @@ void produce_set_register_indirect(const uint16_t instr, const uint16_t psw, int
PSW = psw; PSW = psw;
json_t *obj = generate_test(id, mem, 2, 1); json_t *obj = generate_test(id, mem, 2, 1, NULL, 0);
if (obj) if (obj)
json_array_append_new(out, obj); json_array_append_new(out, obj);
} }
@ -297,7 +320,7 @@ void emit_branch_instructions()
PSW = psw_val; PSW = psw_val;
json_t *obj = generate_test(&id, mem, 1, 1); json_t *obj = generate_test(&id, mem, 1, 1, NULL, 0);
if (obj) if (obj)
json_array_append_new(out, obj); json_array_append_new(out, obj);
} }
@ -333,7 +356,7 @@ void emit_condition_sets()
PSW = psw_val; PSW = psw_val;
json_t *obj = generate_test(&id, mem, 1, 1); json_t *obj = generate_test(&id, mem, 1, 1, NULL, 0);
if (obj) if (obj)
json_array_append_new(out, obj); json_array_append_new(out, obj);
} }
@ -403,11 +426,11 @@ void emit_single_operand_instructions()
if (groups[group] == 00001 || dst == 1) { if (groups[group] == 00001 || dst == 1) {
REGFILE[0][0] = REGFILE[0][1] = 02000; REGFILE[0][0] = REGFILE[0][1] = 02000;
obj = generate_test(&id, mem, 2, 1); obj = generate_test(&id, mem, 2, 1, NULL, 0);
} }
else { else {
REGFILE[0][0] = REGFILE[0][1] = test_values[v1]; REGFILE[0][0] = REGFILE[0][1] = test_values[v1];
obj = generate_test(&id, mem, 1, 1); obj = generate_test(&id, mem, 1, 1, NULL, 0);
} }
if (obj) if (obj)
@ -517,7 +540,7 @@ void emit_misc_operations()
PSW = psw_val; PSW = psw_val;
json_t *obj = generate_test(&id, mem, 3, 1); json_t *obj = generate_test(&id, mem, 3, 1, NULL, 0);
if (obj) if (obj)
json_array_append_new(out, obj); json_array_append_new(out, obj);
} }
@ -558,7 +581,7 @@ void emit_misc_operations()
PSW = 012; PSW = 012;
json_t *obj = generate_test(&id, mem, 1, 1); json_t *obj = generate_test(&id, mem, 1, 1, NULL, 0);
if (obj) if (obj)
json_array_append_new(out, obj); json_array_append_new(out, obj);
@ -566,148 +589,227 @@ void emit_misc_operations()
} }
} }
/*
MOV #0172340,R0
MOV #0000,(R0) ; 000000-020000 (K,I) will be mapped to physical address 00000
MOV #0172300,R0
MOV #077006,(R0) ; 000000-020000 full access
MOV #0172366,R0
MOV #0400,(R0) ; 060000-080000 (K,D) will be mapped to physical address 04000
MOV #0172326,R0
MOV #077006,(R0) ; 000000-020000 full access
MOV #0177572,R0
BIS #513,(R0) ; enable MMU & trap
MOV #0100,R0 ; JMP to main code
JMP (R0)
*/
#define MMU_SETUP_PROG \
{ 0500, 012700 }, \
{ 0502, 0172340 }, \
{ 0504, 012710 }, \
{ 0506, 0000000 }, \
{ 0510, 012700 }, \
{ 0512, 0172300 }, \
{ 0514, 012710 }, \
{ 0516, 0077006 }, \
{ 0520, 012700 }, \
{ 0522, 0172366 }, \
{ 0524, 012710 }, \
{ 0526, 0000400 }, \
{ 0530, 012700 }, \
{ 0532, 0172326 }, \
{ 0534, 012710 }, \
{ 0536, 0077006 }, \
{ 0540, 012700 }, \
{ 0542, 0177572 }, \
{ 0544, 052710 }, \
{ 0546, 0000513 }, \
{ 0550, 012700 }, \
{ 0552, 0000100 }, \
{ 0554, 000110 }, \
{ 0004, 02300 }, /* trap address */ \
{ 0006, 0123456 }, /* PSW */ \
{ 0034, 02500 }, /* trap address */ \
{ 0036, 0177777 }, /* PSW */ \
void emit_mov() void emit_mov()
{ {
printf("mov instructions\n"); printf("mov instructions\n");
const char *const filename = "pdp1170-valtest-MOV.json"; struct mem_t setup[27] = {
if (file_exist(filename) == 0) { MMU_SETUP_PROG
int id = 0; };
json_t *out = json_array();
uint16_t test_vals[] = { 0, 127, 128, 255, 256, 65535 }; for(int d_i=0; d_i<2; d_i++) {
char filename[64];
sprintf(filename, "pdp1170-valtest-MOV_%d.json", d_i);
for(int i=0; i<48; i++) { if (file_exist(filename) == 0) {
init_simh(); int id = 0;
saved_PC = 0100; json_t *out = json_array();
randomize_registers_all_values();
init_stack_registers();
PSW = 0;
struct mem_t mem[5] = { {
{ 0100, 012700 }, init_simh();
{ 0102, test_vals[i % 6] }, saved_PC = 0100;
{ 0104, 012701 }, randomize_registers_all_values();
{ 0106, 0 }, init_stack_registers();
{ 0110, 0110001 } PSW = 0;
};
int set = i / 6; struct mem_t mem[7] = {
if (set == 1) // R1 { 0100, 012705 }, // MOV #01234,R5
mem[4].value = 0010001; { 0102, 001234 },
else if (set == 2) { // (R1) { 0104, 010525 }, // MOV R5,(R5)+
mem[3].value = 0002000; };
mem[4].value = 0110011; json_t *obj = generate_test(&id, mem, 3, 2, NULL, 0);
} if (obj)
else if (set == 3) { // (R1) json_array_append_new(out, obj);
mem[3].value = 0002000;
mem[4].value = 0010011;
}
else if (set == 4) { // (R1)+
mem[3].value = 0002000;
mem[4].value = 0110021;
}
else if (set == 5) { // (R1)+
mem[3].value = 0002000;
mem[4].value = 0010021;
}
else if (set == 6) { // -(R1)
mem[3].value = 0002000;
mem[4].value = 0110041;
}
else if (set == 7) { // -(R1)
mem[3].value = 0002000;
mem[4].value = 0010041;
} }
json_t *obj = generate_test(&id, mem, 5, 3); uint16_t test_vals[] = { 0, 127, 128, 255, 256, 65535 };
if (obj)
json_array_append_new(out, obj); for(int i=0; i<24; i++) {
init_simh();
saved_PC = 0100;
randomize_registers_all_values();
init_stack_registers();
PSW = 0;
struct mem_t mem[7] = {
{ 0100, 012700 },
{ 0102, test_vals[i % 6] },
{ 0104, 012701 },
{ 0106, 02000 },
{ 0110, 0110051 }, // @-(R1)
{ 01776, 03000 },
{ 03000, 0 }
};
int set = i / 6;
if (set == 1)
mem[4].value = 0010051;
else if (set == 2) {
mem[4].value = 0010031; // @(R1)+
mem[5].addr = 02000;
}
else if (set == 3) {
mem[4].value = 0110031; // @(R1)+
mem[5].addr = 02000;
}
json_t *obj = generate_test(&id, mem, 7, 3, NULL, 0);
if (obj)
json_array_append_new(out, obj);
}
for(int i=0; i<12; i++) {
init_simh();
saved_PC = 0100;
randomize_registers_all_values();
init_stack_registers();
PSW = 0;
struct mem_t mem[7] = {
{ 0100, 012700 },
{ 0102, test_vals[i % 6] },
{ 0104, 012701 },
{ 0106, 02000 },
{ 0110, 0110061 }, // @(R1)
{ 0112, 0000004 },
{ 02004, 012344 },
};
int set = i / 6;
if (set == 1) {
mem[5].value = 0100004;
mem[6].addr = 0102004;
}
json_t *obj = generate_test(&id, mem, 7, 3, NULL, 0);
if (obj)
json_array_append_new(out, obj);
}
{
init_simh();
saved_PC = 0100;
randomize_registers_all_values();
init_stack_registers();
PSW = 0;
struct mem_t mem[7] = {
{ 0100, 012701 },
{ 0102, 001000 },
{ 0104, 012771 }, // @X(R7)
{ 0106, 002222 },
{ 0110, 001000 },
{ 02000, 012344 },
};
json_t *obj = generate_test(&id, mem, 6, 2, NULL, 0);
if (obj)
json_array_append_new(out, obj);
}
for(int i=0; i<48; i++) {
init_simh();
randomize_registers_all_values();
init_stack_registers();
PSW = 0;
struct mem_t mem[5] = {
{ 0100, 012700 }, // MOV #random,(R0)
{ 0102, test_vals[i % 6] },
{ 0104, 012701 }, // MOV #0, (R1)
{ 0106, 0 },
{ 0110, 0110001 }, // MOV R0, R1
};
int set = i / 6;
if (set == 1) // R1
mem[4].value = 0010001; // MOVB R0,R1
else if (set == 2) { // (R1)
mem[3].value = 0060000; // MOV #060000,R1
mem[4].value = 0110011; // MOV R0,(R1)
}
else if (set == 3) { // (R1)
mem[3].value = 0060000; // MOV #060000,R1
mem[4].value = 0010011; // MOVB R0,(R1)
}
else if (set == 4) { // (R1)+
mem[3].value = 0060000; // MOV #060000,R1
mem[4].value = 0110021;
}
else if (set == 5) { // (R1)+
mem[3].value = 0060000;
mem[4].value = 0010021;
}
else if (set == 6) { // -(R1)
mem[3].value = 0060000;
mem[4].value = 0110041;
}
else if (set == 7) { // -(R1)
mem[3].value = 0060000;
mem[4].value = 0010041;
}
json_t *obj = NULL;
if (d_i == 1) {
saved_PC = 0500;
obj = generate_test(&id, mem, 5, 3 + 12, setup, 27);
}
else {
saved_PC = 0100;
obj = generate_test(&id, mem, 5, 3, NULL, 0);
}
if (obj)
json_array_append_new(out, obj);
}
dump_json(filename, out);
} }
for(int i=0; i<24; i++) {
init_simh();
saved_PC = 0100;
randomize_registers_all_values();
init_stack_registers();
PSW = 0;
struct mem_t mem[7] = {
{ 0100, 012700 },
{ 0102, test_vals[i % 6] },
{ 0104, 012701 },
{ 0106, 02000 },
{ 0110, 0110051 }, // @-(R1)
{ 01776, 03000 },
{ 03000, 0 }
};
int set = i / 6;
if (set == 1)
mem[4].value = 0010051;
else if (set == 2) {
mem[4].value = 0010031; // @(R1)+
mem[5].addr = 02000;
}
else if (set == 3) {
mem[4].value = 0110031; // @(R1)+
mem[5].addr = 02000;
}
json_t *obj = generate_test(&id, mem, 7, 3);
if (obj)
json_array_append_new(out, obj);
}
for(int i=0; i<12; i++) {
init_simh();
saved_PC = 0100;
randomize_registers_all_values();
init_stack_registers();
PSW = 0;
struct mem_t mem[7] = {
{ 0100, 012700 },
{ 0102, test_vals[i % 6] },
{ 0104, 012701 },
{ 0106, 02000 },
{ 0110, 0110061 }, // @(R1)
{ 0112, 0000004 },
{ 02004, 012345 },
};
int set = i / 6;
if (set == 1) {
mem[5].value = 0100004;
mem[6].addr = 0102004;
}
json_t *obj = generate_test(&id, mem, 7, 3);
if (obj)
json_array_append_new(out, obj);
}
{
init_simh();
saved_PC = 0100;
randomize_registers_all_values();
init_stack_registers();
PSW = 0;
struct mem_t mem[7] = {
{ 0100, 012701 },
{ 0102, 001000 },
{ 0104, 012771 }, // @X(R7)
{ 0106, 002222 },
{ 0110, 001000 },
{ 02000, 012345 },
};
json_t *obj = generate_test(&id, mem, 6, 2);
if (obj)
json_array_append_new(out, obj);
}
dump_json(filename, out);
} }
} }