Introduce pseudo-halt
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228
core/cpu.c
228
core/cpu.c
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@ -10,97 +10,86 @@
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#define CPU_HALTING 1
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#define CPU_FATAL 2
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#define CPU_FETCH 3
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#define CPU_ILLEGAL 4
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#define CPU_BITSTRING 5
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#define CPU_FLOATENDO 6
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#define CPU_ADD_IMM 7
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#define CPU_ADD_REG 8
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#define CPU_ADDF_S 9
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#define CPU_ADDI 10
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#define CPU_AND 11
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#define CPU_ANDI 12
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#define CPU_BCOND 13
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#define CPU_CAXI 14
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#define CPU_CLI 15
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#define CPU_CMP_IMM 16
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#define CPU_CMP_REG 17
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#define CPU_CMPF_S 18
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#define CPU_CVT_SW 19
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#define CPU_CVT_WS 20
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#define CPU_DIV 21
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#define CPU_DIVF_S 22
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#define CPU_DIVU 23
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#define CPU_HALT 24
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#define CPU_IN_B 25
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#define CPU_IN_H 26
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#define CPU_IN_W 27
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#define CPU_JAL 28
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#define CPU_JMP 29
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#define CPU_JR 30
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#define CPU_LD_B 31
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#define CPU_LD_H 32
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#define CPU_LD_W 33
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#define CPU_LDSR 34
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#define CPU_MOV_IMM 35
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#define CPU_MOV_REG 36
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#define CPU_MOVEA 37
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#define CPU_MOVHI 38
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#define CPU_MPYHW 39
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#define CPU_MUL 40
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#define CPU_MULF_S 41
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#define CPU_MULU 42
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#define CPU_NOT 43
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#define CPU_OR 44
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#define CPU_ORI 45
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#define CPU_OUT_B 46
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#define CPU_OUT_H 47
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#define CPU_OUT_W 48
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#define CPU_RETI 49
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#define CPU_REV 50
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#define CPU_SAR_IMM 51
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#define CPU_SAR_REG 52
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#define CPU_SCH0BSD 53
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#define CPU_SCH0BSU 54
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#define CPU_SCH1BSD 55
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#define CPU_SCH1BSU 56
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#define CPU_SEI 57
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#define CPU_SETF 58
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#define CPU_SHL_IMM 59
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#define CPU_SHL_REG 60
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#define CPU_SHR_IMM 61
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#define CPU_SHR_REG 62
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#define CPU_ST_B 63
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#define CPU_ST_H 64
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#define CPU_ST_W 65
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#define CPU_STSR 66
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#define CPU_SUB 67
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#define CPU_SUBF_S 68
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#define CPU_TRAP 69
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#define CPU_TRNC_SW 70
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#define CPU_XB 71
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#define CPU_XH 72
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#define CPU_XOR 73
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#define CPU_XORI 74
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#define CPU_ANDBSU 75 /* Keep bit string ALU commands sequential */
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#define CPU_ANDNBSU 76
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#define CPU_MOVBSU 77
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#define CPU_NOTBSU 78
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#define CPU_ORBSU 79
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#define CPU_ORNBSU 80
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#define CPU_XORBSU 81
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#define CPU_XORNBSU 82
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/* Abstract operand types */
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#define CPU_IMP(x) -x-1
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#define CPU_DISP9 1
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#define CPU_DISP26 2
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#define CPU_IMM16S 3
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#define CPU_IMM16U 4
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#define CPU_IMM5S 5
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#define CPU_IMM5U 6
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#define CPU_MEM 7
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#define CPU_REG1 8
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#define CPU_REG2 9
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#define CPU_PHALT 4
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#define CPU_ILLEGAL 5
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#define CPU_BITSTRING 6
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#define CPU_FLOATENDO 7
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#define CPU_ADD_IMM 8
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#define CPU_ADD_REG 9
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#define CPU_ADDF_S 10
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#define CPU_ADDI 11
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#define CPU_AND 12
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#define CPU_ANDI 13
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#define CPU_BCOND 14
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#define CPU_CAXI 15
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#define CPU_CLI 16
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#define CPU_CMP_IMM 17
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#define CPU_CMP_REG 18
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#define CPU_CMPF_S 19
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#define CPU_CVT_SW 20
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#define CPU_CVT_WS 21
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#define CPU_DIV 22
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#define CPU_DIVF_S 23
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#define CPU_DIVU 24
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#define CPU_HALT 25
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#define CPU_IN_B 26
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#define CPU_IN_H 27
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#define CPU_IN_W 28
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#define CPU_JAL 29
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#define CPU_JMP 30
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#define CPU_JR 31
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#define CPU_LD_B 32
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#define CPU_LD_H 33
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#define CPU_LD_W 34
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#define CPU_LDSR 35
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#define CPU_MOV_IMM 36
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#define CPU_MOV_REG 37
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#define CPU_MOVEA 38
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#define CPU_MOVHI 39
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#define CPU_MPYHW 40
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#define CPU_MUL 41
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#define CPU_MULF_S 42
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#define CPU_MULU 43
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#define CPU_NOT 44
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#define CPU_OR 45
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#define CPU_ORI 46
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#define CPU_OUT_B 47
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#define CPU_OUT_H 48
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#define CPU_OUT_W 49
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#define CPU_RETI 50
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#define CPU_REV 51
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#define CPU_SAR_IMM 52
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#define CPU_SAR_REG 53
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#define CPU_SCH0BSD 54
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#define CPU_SCH0BSU 55
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#define CPU_SCH1BSD 56
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#define CPU_SCH1BSU 57
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#define CPU_SEI 58
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#define CPU_SETF 59
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#define CPU_SHL_IMM 60
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#define CPU_SHL_REG 61
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#define CPU_SHR_IMM 62
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#define CPU_SHR_REG 63
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#define CPU_ST_B 64
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#define CPU_ST_H 65
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#define CPU_ST_W 66
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#define CPU_STSR 67
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#define CPU_SUB 68
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#define CPU_SUBF_S 69
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#define CPU_TRAP 70
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#define CPU_TRNC_SW 71
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#define CPU_XB 72
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#define CPU_XH 73
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#define CPU_XOR 74
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#define CPU_XORI 75
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#define CPU_ANDBSU 76 /* Keep bit string ALU IDs consecutive */
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#define CPU_ANDNBSU 77
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#define CPU_MOVBSU 78
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#define CPU_NOTBSU 79
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#define CPU_ORBSU 80
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#define CPU_ORNBSU 81
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#define CPU_XORBSU 82
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#define CPU_XORNBSU 83
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/* Functional operand types */
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#define CPU_LITERAL 0
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@ -206,6 +195,13 @@ static const uint8_t OPDEFS_FLOATENDO[] = {
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/**************************** Forward references *****************************/
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static int phAssess (VB *, uint32_t, int, int32_t);
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static uint32_t phUntil (VB *);
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/***************************** Callback Handlers *****************************/
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/* Prepare to handle an exception */
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@ -248,6 +244,10 @@ static int cpuRead(VB *sim, uint32_t address, int type, int32_t *value) {
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/* Retrieve the value from the simulation state directly */
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busRead(sim, address, type, value);
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/* Check for pseudo-halt */
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if (sim->ph.enabled && phAssess(sim, address, type, *value))
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return 0;
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/* Invoke the callback if available */
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if (
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sim->onRead != NULL &&
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@ -296,6 +296,10 @@ static int cpuWrite(VB *sim, uint32_t address, int type, int32_t value) {
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int cancel = 0;
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uint32_t cycles = 3; /* TODO: Research this */
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/* Reset pseudo-halt */
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if (sim->ph.enabled)
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sim->ph.step = 0;
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/* Invoke the callback if available */
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if (
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sim->onWrite != NULL &&
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@ -482,10 +486,13 @@ static int cpuException(VB *sim) {
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/* Interrupts only */
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if ((cause & 0xFF00) == 0xFE00) {
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sim->cpu.psw.i = (cause >> 4 & 7) + 1;
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/* HALT instruction */
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if (sim->cpu.halt) {
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sim->cpu.halt = 0;
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sim->cpu.pc += 2;
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}
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}
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/* All exceptions */
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@ -583,6 +590,30 @@ static int cpuHalt(VB *sim) {
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return !cpuIRQ(sim);
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}
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/* Pseudo-halt is pending */
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static int cpuPHalt(VB *sim) {
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int32_t value; /* Value read from memory */
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/* An interrupt will be accepted */
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if (cpuIRQ(sim)) {
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sim->ph.step = 0;
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return 0;
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}
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/* Monitor value has not changed */
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busRead(sim, sim->ph.address, sim->ph.type, &value);
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if (value == sim->ph.value) {
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sim->cpu.clocks = phUntil(sim);
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return 1;
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}
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/* Release pseudo-halt */
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sim->cpu.operation = CPU_FETCH;
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sim->cpu.step = 0;
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sim->ph.step = 0;
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return 0;
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}
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/**************************** Instruction Helpers ****************************/
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/* Processing by operation ID */
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switch (sim->cpu.operation) {
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case CPU_EXCEPTION: brk = cpuException(sim); break;
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case CPU_EXCEPTION: brk = cpuException(sim); break;
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case CPU_FATAL : return 0;
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case CPU_FETCH : brk = cpuFetch (sim); break;
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case CPU_HALTING : if (cpuHalt(sim)) return 0; break;
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case CPU_FETCH : brk = cpuFetch (sim); break;
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case CPU_HALTING : if (cpuHalt (sim)) return 0; break;
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case CPU_PHALT : if (cpuPHalt(sim)) return 0; break;
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case CPU_ADD_IMM: cpuADDImm (sim); break;
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case CPU_ADD_REG: cpuADDReg (sim); break;
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@ -1826,8 +1858,14 @@ static void cpuReset(VB *sim) {
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/* Determine how many clocks are guaranteed to process */
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static uint32_t cpuUntil(VB *sim, uint32_t clocks) {
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/* Pseudo-halting */
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if (sim->cpu.operation == CPU_PHALT) {
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if (!sim->ph.operation)
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return clocks;
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}
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/* Halting */
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if (sim->cpu.halt) {
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else if (sim->cpu.halt) {
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return
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sim->cpu.operation == CPU_HALTING &&
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!(sim->cpu.psw.id | sim->cpu.psw.ep | sim->cpu.psw.np) &&
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@ -0,0 +1,177 @@
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/* This file is included into vb.c and cannot be compiled on its own. */
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#ifdef VBAPI
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/********************************* Constants *********************************/
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/* Pseudo-halt operations */
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#define PH_NEVER 0 /* Must be zero */
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#define PH_XPSTTS 1
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/***************************** Module Functions ******************************/
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/* Activate pseudo-halt */
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static void phActivate(VB *sim, uint32_t address, int type) {
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int range; /* Memory address range by component */
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(void) type;
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/* Working variables */
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address = 0x07FFFFFF;
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range = address >> 24;
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/* Configure CPU */
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sim->cpu.operation = CPU_PHALT;
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sim->ph.operation = PH_NEVER;
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/* VIP */
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if (range == 0) {
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address &= 0x0007FFFF;
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/* I/O register */
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switch (address) {
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case 0x5F840: /* XPSTTS */
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if (sim->vip.dp.disp && sim->vip.xp.xpen)
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sim->ph.operation = PH_XPSTTS;
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break;
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}
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}
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/* Configure CPU */
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sim->cpu.clocks = phUntil(sim);
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}
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/* Test whether the current memory access matches the monitored access */
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static int phMatches(VB *sim, uint32_t address, int type, int32_t value) {
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int match; /* Parameter match */
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int x; /* Iterator */
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/* New memory access */
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if (sim->ph.step == 0)
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return 0;
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/* Check memory access parameters */
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match =
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address == sim->ph.address &&
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sim->cpu.pc == sim->ph.pc &&
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type == sim->ph.type &&
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value == sim->ph.value
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;
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if (!match || sim->ph.step != 3)
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return match;
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/* Check full CPU state */
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for (x = 1; x < 32; x++) {
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if (sim->ph.program[x - 1] != sim->cpu.program[x])
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return 0;
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}
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return
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sim->ph.adtre == sim->cpu.adtre &&
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sim->ph.chcw == cpuGetSystemRegister(sim, VB_CHCW) &&
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sim->ph.eipc == sim->cpu.eipc &&
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sim->ph.eipsw == sim->cpu.eipsw &&
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sim->ph.fepc == sim->cpu.fepc &&
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sim->ph.fepsw == sim->cpu.fepsw &&
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sim->ph.psw == cpuGetSystemRegister(sim, VB_PSW)
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;
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}
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/****************************** Clock Measurers ******************************/
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/* XPSTTS */
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static uint32_t phXPSTTS(VB *sim) {
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uint32_t clocks; /* Return value */
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uint16_t *halfwords; /* Drawing clocks this SBCOUNT */
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uint32_t x; /* Iterator */
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/* Drawing is underway */
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if (sim->vip.xp.f0bsy || sim->vip.xp.f1bsy) {
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clocks = 0;
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halfwords = &sim->vip.halfwords[
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(uint32_t) sim->vip.xp.sbcount * 384 + sim->vip.xp.column];
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for (x = sim->vip.xp.column; x < 384; x++, halfwords++)
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clocks += *halfwords;
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return clocks;
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}
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/* Drawing is idle */
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switch (sim->vip.dp.step) {
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case 0: /* 0ms - FCLK rising edge */
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return sim->vip.dp.until;
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case 1: /* 3ms - L*BSY rising edge */
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case 2: /* 3ms-8ms - Display left frame buffer */
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case 3: /* 8ms - L*BSY falling edge */
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return sim->vip.dp.until + vipClocksMs(12);
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}
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/* case 4: 10ms - FCLK falling edge */
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/* case 5: 13ms - R*BSY rising edge */
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/* case 6: 13ms-18ms - Display right frame buffer */
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/* case 7: 18ms - R*BSY falling edge */
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return sim->vip.dp.until + vipClocksMs(2);
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}
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/***************************** Library Functions *****************************/
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/* Test whether to activate pseudo-halt */
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static int phAssess(VB *sim, uint32_t address, int type, int32_t value) {
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int x; /* Iterator */
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/* Memory access does not match last time */
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if (!phMatches(sim, address, type, value))
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sim->ph.step = 0;
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/* New memory access */
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if (sim->ph.step == 0) {
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sim->ph.address = address;
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sim->ph.pc = sim->cpu.pc;
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sim->ph.step = 1;
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sim->ph.type = type;
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sim->ph.value = value;
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return 0;
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}
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/* Repeated memory access, not checking full CPU state */
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if (sim->ph.step < 2) {
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sim->ph.step++;
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return 0;
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}
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/* Take a snapshot of the full CPU state */
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if (sim->ph.step == 2) {
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for (x = 1; x < 32; x++)
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sim->ph.program[x - 1] = sim->cpu.program[x];
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sim->ph.adtre = sim->cpu.adtre;
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sim->ph.chcw = cpuGetSystemRegister(sim, VB_CHCW);
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sim->ph.eipc = sim->cpu.eipc;
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sim->ph.eipsw = sim->cpu.eipsw;
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sim->ph.fepc = sim->cpu.fepc;
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sim->ph.fepsw = sim->cpu.fepsw;
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sim->ph.psw = cpuGetSystemRegister(sim, VB_PSW);
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sim->ph.step = 3;
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return 0;
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}
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/* Activate pseudo-halt */
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phActivate(sim, address, type);
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return 1;
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}
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/* Determine how long the CPU should wait before checking the monitor value */
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static uint32_t phUntil(VB *sim) {
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switch (sim->ph.operation) {
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case PH_XPSTTS: return phXPSTTS(sim);
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}
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return 0; /* PH_NEVER */
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}
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#endif /* VBAPI */
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53
core/vb.c
53
core/vb.c
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@ -308,6 +308,29 @@ struct VB {
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int sample; /* Output sample index, period 417 */
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} vsu;
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/* Pseudo-halt */
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struct {
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uint32_t address; /* Monitor address */
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uint8_t enabled; /* Pseudo-halt function is enabled */
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uint8_t operation; /* Monitoring operation */
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uint8_t step; /* Number of consecutive matching reads */
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int type; /* Memory access type */
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int32_t value; /* Value read from monitor address */
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/* CPU snapshot */
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uint32_t adtre;
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uint32_t chcw;
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uint32_t eipc;
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uint32_t eipsw;
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uint32_t fepc;
|
||||
uint32_t fepsw;
|
||||
uint32_t pc;
|
||||
int32_t program[31];
|
||||
uint32_t psw;
|
||||
uint32_t sr29;
|
||||
uint32_t sr31;
|
||||
} ph;
|
||||
|
||||
/* Other state */
|
||||
uint8_t wcr; /* Wait controller state */
|
||||
uint8_t wram[0x10000]; /* System RAM */
|
||||
|
@ -348,6 +371,7 @@ static int32_t SignExtend(int32_t value, int32_t bits) {
|
|||
#include "cpu.c"
|
||||
#include "vip.c"
|
||||
#include "vsu.c"
|
||||
#include "pseudo-halt.c"
|
||||
|
||||
|
||||
|
||||
|
@ -451,6 +475,14 @@ VBAPI uint16_t vbGetKeys(VB *sim) {
|
|||
return sim->pad.keys;
|
||||
}
|
||||
|
||||
/* Retrieve a core option value */
|
||||
VBAPI int vbGetOption(VB *sim, int key) {
|
||||
switch (key) {
|
||||
case VB_PSEUDO_HALT: return sim->ph.enabled;
|
||||
}
|
||||
return 0;
|
||||
}
|
||||
|
||||
/* Retrieve the most recent frame image pixels */
|
||||
VBAPI void vbGetPixels(VB *sim, void *left, int leftStrideX, int leftStrideY,
|
||||
void *right, int rightStrideX, int rightStrideY) {
|
||||
|
@ -553,6 +585,7 @@ VBAPI VB* vbInit(VB *sim) {
|
|||
sim->onRead = NULL;
|
||||
sim->onSamples = NULL;
|
||||
sim->onWrite = NULL;
|
||||
sim->ph.enabled = 0;
|
||||
vbReset(sim);
|
||||
return sim;
|
||||
}
|
||||
|
@ -583,6 +616,9 @@ VBAPI VB* vbReset(VB *sim) {
|
|||
tmrReset(sim);
|
||||
vipReset(sim);
|
||||
vsuReset(sim);
|
||||
|
||||
/* Pseudo-halt */
|
||||
sim->ph.step = 0;
|
||||
return sim;
|
||||
}
|
||||
|
||||
|
@ -641,6 +677,23 @@ VBAPI uint16_t vbSetKeys(VB *sim, uint16_t keys) {
|
|||
return sim->pad.keys = keys;
|
||||
}
|
||||
|
||||
/* Specify a new core option value */
|
||||
VBAPI int vbSetOption(VB *sim, int key, int value) {
|
||||
switch (key) {
|
||||
case VB_PSEUDO_HALT:
|
||||
sim->ph.enabled = value = !!value;
|
||||
if (!value) {
|
||||
sim->ph.step = 0;
|
||||
if (sim->cpu.operation == CPU_PHALT) {
|
||||
sim->cpu.operation = CPU_FETCH;
|
||||
sim->cpu.step = 0;
|
||||
}
|
||||
}
|
||||
break;
|
||||
}
|
||||
return value;
|
||||
}
|
||||
|
||||
/* Specify a new value for the program counter */
|
||||
VBAPI uint32_t vbSetProgramCounter(VB *sim, uint32_t value) {
|
||||
sim->cpu.operation = CPU_FETCH;
|
||||
|
|
|
@ -79,6 +79,9 @@ extern "C" {
|
|||
#define VB_U16 3
|
||||
#define VB_S32 4
|
||||
|
||||
/* Option keys */
|
||||
#define VB_PSEUDO_HALT 0
|
||||
|
||||
|
||||
|
||||
/*********************************** Types ***********************************/
|
||||
|
@ -110,6 +113,7 @@ VBAPI vbOnExecute vbGetExecuteCallback (VB *sim);
|
|||
VBAPI vbOnFetch vbGetFetchCallback (VB *sim);
|
||||
VBAPI vbOnFrame vbGetFrameCallback (VB *sim);
|
||||
VBAPI uint16_t vbGetKeys (VB *sim);
|
||||
VBAPI int vbGetOption (VB *sim, int key);
|
||||
VBAPI void vbGetPixels (VB *sim, void *left, int leftStrideX, int leftStrideY, void *right, int rightStrideX, int rightStrideY);
|
||||
VBAPI uint32_t vbGetProgramCounter (VB *sim);
|
||||
VBAPI int32_t vbGetProgramRegister (VB *sim, int index);
|
||||
|
@ -129,6 +133,7 @@ VBAPI vbOnExecute vbSetExecuteCallback (VB *sim, vbOnExecute callback);
|
|||
VBAPI vbOnFetch vbSetFetchCallback (VB *sim, vbOnFetch callback);
|
||||
VBAPI vbOnFrame vbSetFrameCallback (VB *sim, vbOnFrame callback);
|
||||
VBAPI uint16_t vbSetKeys (VB *sim, uint16_t keys);
|
||||
VBAPI int vbSetOption (VB *sim, int key, int value);
|
||||
VBAPI uint32_t vbSetProgramCounter (VB *sim, uint32_t value);
|
||||
VBAPI int32_t vbSetProgramRegister (VB *sim, int index, int32_t value);
|
||||
VBAPI vbOnRead vbSetReadCallback (VB *sim, vbOnRead callback);
|
||||
|
|
Loading…
Reference in New Issue