shrooms-vb-core/util/disassembler.c

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2024-10-30 14:48:56 +00:00
/* This file is included into vb.c and cannot be compiled on its own. */
#ifdef VBUAPI
/********************************* Constants *********************************/
/* Operand types */
#define DASM_BCOND 0
#define DASM_DISP9 1
#define DASM_DISP26 2
#define DASM_IMM5S 3
#define DASM_IMM5U 4
#define DASM_IMM16S 5
#define DASM_IMM16U 6
#define DASM_JMP 7
#define DASM_MEMORY 8
#define DASM_REG1 9
#define DASM_REG2 10
#define DASM_SETF 11
#define DASM_SYSTEM 12
/******************************** Lookup Data ********************************/
/* Instruction descriptor */
typedef struct {
char mnemonic[8]; /* Mnemonic, uppercase */
uint8_t operandsLength; /* Number of operands */
uint8_t operands[3]; /* Operand types */
} OpDef;
/* Instruction descriptors */
static const OpDef OPDEFS[] = {
{ "MOV" , 2, { DASM_REG1, DASM_REG2 } }, /* 000000 */
{ "ADD" , 2, { DASM_REG1, DASM_REG2 } },
{ "SUB" , 2, { DASM_REG1, DASM_REG2 } },
{ "CMP" , 2, { DASM_REG1, DASM_REG2 } },
{ "SHL" , 2, { DASM_REG1, DASM_REG2 } },
{ "SHR" , 2, { DASM_REG1, DASM_REG2 } },
{ "JMP" , 1, { DASM_JMP } },
{ "SAR" , 2, { DASM_REG1, DASM_REG2 } },
{ "MUL" , 2, { DASM_REG1, DASM_REG2 } },
{ "DIV" , 2, { DASM_REG1, DASM_REG2 } },
{ "MULU" , 2, { DASM_REG1, DASM_REG2 } },
{ "DIVU" , 2, { DASM_REG1, DASM_REG2 } },
{ "OR" , 2, { DASM_REG1, DASM_REG2 } },
{ "AND" , 2, { DASM_REG1, DASM_REG2 } },
{ "XOR" , 2, { DASM_REG1, DASM_REG2 } },
{ "NOT" , 1, { DASM_REG1 } },
{ "MOV" , 2, { DASM_IMM5S, DASM_REG2 } }, /* 010000 */
{ "ADD" , 2, { DASM_IMM5S, DASM_REG2 } },
{ "" , 0, { 0 } }, /* SETF */
{ "CMP" , 2, { DASM_IMM5S, DASM_REG2 } },
{ "SHL" , 2, { DASM_IMM5U, DASM_REG2 } },
{ "SHR" , 2, { DASM_IMM5U, DASM_REG2 } },
{ "CLI" , 0, { 0 } },
{ "SAR" , 2, { DASM_IMM5U, DASM_REG2 } },
{ "TRAP" , 1, { DASM_IMM5U } },
{ "RETI" , 0, { 0 } },
{ "HALT" , 0, { 0 } },
{ "---" , 0, { 0 } },
{ "LDSR" , 2, { DASM_REG2, DASM_SYSTEM } },
{ "STSR" , 2, { DASM_SYSTEM, DASM_REG2 } },
{ "SEI" , 0, { 0 } },
{ "" , 0, { 0 } }, /* Bit string */
{ "" , 0, { 0 } }, /* BCOND */ /* 100000 */
{ "" , 0, { 0 } }, /* BCOND */
{ "" , 0, { 0 } }, /* BCOND */
{ "" , 0, { 0 } }, /* BCOND */
{ "" , 0, { 0 } }, /* BCOND */
{ "" , 0, { 0 } }, /* BCOND */
{ "" , 0, { 0 } }, /* BCOND */
{ "" , 0, { 0 } }, /* BCOND */
{ "MOVEA", 3, { DASM_IMM16U, DASM_REG1, DASM_REG2 } },
{ "ADDI" , 3, { DASM_IMM16S, DASM_REG1, DASM_REG2 } },
{ "JR" , 1, { DASM_DISP26 } },
{ "JAL" , 1, { DASM_DISP26 } },
{ "ORI" , 3, { DASM_IMM16U, DASM_REG1, DASM_REG2 } },
{ "ANDI" , 3, { DASM_IMM16U, DASM_REG1, DASM_REG2 } },
{ "XORI" , 3, { DASM_IMM16U, DASM_REG1, DASM_REG2 } },
{ "MOVHI", 3, { DASM_IMM16U, DASM_REG1, DASM_REG2 } },
{ "LD.B" , 2, { DASM_MEMORY, DASM_REG2 } }, /* 110000 */
{ "LD.H" , 2, { DASM_MEMORY, DASM_REG2 } },
{ "---" , 0, { 0 } },
{ "LD.W" , 2, { DASM_MEMORY, DASM_REG2 } },
{ "ST.B" , 2, { DASM_REG2, DASM_MEMORY } },
{ "ST.H" , 2, { DASM_REG2, DASM_MEMORY } },
{ "---" , 0, { 0 } },
{ "ST.W" , 2, { DASM_REG2, DASM_MEMORY } },
{ "IN.B" , 2, { DASM_MEMORY, DASM_REG2 } },
{ "IN.H" , 2, { DASM_MEMORY, DASM_REG2 } },
{ "CAXI" , 0, { DASM_MEMORY, DASM_REG2 } },
{ "IN.W" , 2, { DASM_MEMORY, DASM_REG2 } },
{ "OUT.B", 2, { DASM_REG2, DASM_MEMORY } },
{ "OUT.H", 2, { DASM_REG2, DASM_MEMORY } },
{ "" , 0, { 0 } }, /* Floating-point/Nintendo */
{ "OUT.W", 2, { DASM_REG2, DASM_MEMORY } }
};
/* Bit string instruction descriptors */
static const OpDef OPDEFS_BITSTRING[] = {
{ "SCH0BSU", 0, { 0 } }, /* 00000 */
{ "SCH0BSD", 0, { 0 } },
{ "SCH1BSU", 0, { 0 } },
{ "SCH1BSD", 0, { 0 } },
{ "---" , 0, { 0 } },
{ "---" , 0, { 0 } },
{ "---" , 0, { 0 } },
{ "---" , 0, { 0 } },
{ "ORBSU" , 0, { 0 } },
{ "ANDBSU" , 0, { 0 } },
{ "XORBSU" , 0, { 0 } },
{ "MOVBSU" , 0, { 0 } },
{ "ORNBSU" , 0, { 0 } },
{ "ANDNBSU", 0, { 0 } },
{ "XORNBSU", 0, { 0 } },
{ "NOTBSU" , 0, { 0 } }
/* +16 invalid opcodes */
};
/* Floating-point/Nintendo instruction descriptors */
static const OpDef OPDEFS_FLOATENDO[] = {
{ "CMPF.S" , 2, { DASM_REG1, DASM_REG2 } },
{ "---" , 0, { 0 } },
{ "CVT.WS" , 2, { DASM_REG1, DASM_REG2 } },
{ "CVT.SW" , 2, { DASM_REG1, DASM_REG2 } },
{ "ADDF.S" , 2, { DASM_REG1, DASM_REG2 } },
{ "SUBF.S" , 2, { DASM_REG1, DASM_REG2 } },
{ "MULF.S" , 2, { DASM_REG1, DASM_REG2 } },
{ "DIVF.S" , 2, { DASM_REG1, DASM_REG2 } },
{ "XB" , 1, { DASM_REG2 } },
{ "XH" , 1, { DASM_REG2 } },
{ "REV" , 2, { DASM_REG1, DASM_REG2 } },
{ "TRNC.SW", 2, { DASM_REG1, DASM_REG2 } },
{ "MPYHW" , 2, { DASM_REG1, DASM_REG2 } },
/* +51 invalid opcodes */
};
/* Invalid instruction descriptors */
static const OpDef OPDEF_ILLEGAL = { "---", 0, { 0 } };
/***************************** Module Functions ******************************/
/* Select the display text for a condition */
static char* dasmCondition(VBU_DasmConfig *config, int cond) {
switch (cond) {
case 0: return "V" ;
case 1: return config->conditionCL == VBU_C ? "C" : "L";
case 2: return config->conditionEZ == VBU_E ? "E" : "Z";
case 3: return "NH";
case 4: return "N" ;
case 5: return "T" ;
case 6: return "LT";
case 7: return "LE";
case 8: return "NV";
case 9: return config->conditionCL == VBU_C ? "NC" : "NL";
case 10: return config->conditionEZ == VBU_E ? "NE" : "NZ";
case 11: return "H" ;
case 12: return "P" ;
case 13: return "F" ;
case 14: return "GE";
}
return "GT";
}
/* Format a number as hexadecimal */
static void dasmToHex(char *dest, VBU_DasmConfig *config,
int minDigits, int32_t value) {
char format[9];
char *prefix = "";
char *suffix = "";
switch (config->hexNotation) {
case VBU_0X : prefix = "0x"; break;
case VBU_DOLLAR: prefix = "$" ; break;
case VBU_H : suffix = "h" ; break;
}
sprintf(format, "%%s%%0%d%s%%s", minDigits,
config->hexCase == VBU_LOWER ? "x" : "X");
sprintf(dest, format, prefix, value, suffix);
if (config->hexNotation != VBU_H || *dest <= '9')
return;
*dest++ = '0';
sprintf(dest, format, prefix, value, suffix);
}
/* Convert a string to lowercase */
static void dasmToLower(char *str) {
for (; *str; str++) {
if (*str >= 'A' && *str <= 'Z')
*str += 'a' - 'A';
}
}
/* Format a program register */
static void dasmProgram(char *dest, VBU_DasmConfig *config, int id) {
char *text = NULL;
if (config->programNotation != VBU_NUMBERS) {
switch (id) {
case 2: text = "HP"; break;
case 3: text = "SP"; break;
case 4: text = "GP"; break;
case 5: text = "TP"; break;
case 31: text = "LP"; break;
}
}
if (text == NULL)
sprintf(dest, "R%d", id);
else strcpy(dest, text);
if (config->programCase == VBU_LOWER)
dasmToLower(dest);
}
/**************************** Operand Formatters *****************************/
/* Format the condition operand of a split BCOND instruction */
static void dasmOpBCOND(char*dest, VBU_DasmConfig*config, VBU_DasmLine*line) {
int cond = line->code[1] >> 2 & 15;
if (config->conditionNotation == VBU_NUMBERS)
sprintf(dest, "%d", cond);
else {
strcpy(dest, dasmCondition(config, cond));
if (config->conditionCase == VBU_LOWER)
dasmToLower(dest);
}
}
/* Format a 9-bit displacement operand */
static void dasmOpDisp9(char*dest, VBU_DasmConfig*config, VBU_DasmLine*line) {
int32_t disp = SignExtend((int32_t) line->code[1] << 8 | line->code[0], 9);
sprintf(dest, config->hexCase == VBU_LOWER ?
"%08x" : "%08X", line->address + disp);
}
/* Format a 26-bit displacement operand */
static void dasmOpDisp26(char*dest, VBU_DasmConfig*config, VBU_DasmLine*line) {
int32_t disp = SignExtend(
(int32_t) line->code[1] << 24 |
(int32_t) line->code[0] << 16 |
(int32_t) line->code[3] << 8 |
line->code[2]
, 26);
sprintf(dest, config->hexCase == VBU_LOWER ?
"%08x" : "%08X", line->address + disp);
}
/* Format a 5-bit sign-extended immediate operand */
static void dasmOpImm5S(char *dest, VBU_DasmLine *line) {
sprintf(dest, "%d", SignExtend(line->code[0], 5));
}
/* Format a 5-bit zero-filled immediate operand */
static void dasmOpImm5U(char *dest, VBU_DasmLine *line) {
sprintf(dest, "%d", line->code[0] & 31);
}
/* Format a 16-bit sign-extended immediate operand */
static void dasmOpImm16S(char*dest, VBU_DasmConfig*config, VBU_DasmLine*line) {
int32_t imm = (int16_t) ((int16_t) line->code[3] << 8 | line->code[2]);
if (imm >= -256 && imm <= 256) {
sprintf(dest, "%d", imm);
return;
}
if (imm < 0) {
*dest++ = '-';
imm = -imm;
}
dasmToHex(dest, config, 0, imm);
}
/* Format a 16-bit zero-filled immediate operand */
static void dasmOpImm16U(char*dest, VBU_DasmConfig*config, VBU_DasmLine*line) {
uint16_t imm = (uint16_t) line->code[3] << 8 | line->code[2];
dasmToHex(dest, config, 4, imm);
}
/* Format the operand of a JMP instruction */
static void dasmOpJMP(char*dest, VBU_DasmConfig*config, VBU_DasmLine*line) {
*dest++ = '[';
dasmProgram(dest, config, line->code[0] & 31);
strcat(dest, "]");
}
/* Format a memory operand */
static void dasmOpMemory(char*dest, VBU_DasmConfig*config, VBU_DasmLine*line) {
int reg1 = line->code[0] & 31;
int32_t disp = (int16_t) ((int16_t) line->code[3] << 8 | line->code[2]);
/* Displacement of zero */
if (disp == 0) {
*dest++ = '[';
dasmProgram(dest, config, reg1);
strcat(dest, "]");
return;
}
/* Inside */
if (config->memoryNotation == VBU_INSIDE) {
*dest++ = '[';
dasmProgram(dest, config, reg1);
dest += strlen(dest);
if (disp < 0) {
strcpy(dest, " - ");
disp = -disp;
} else strcpy(dest, " + ");
dest += 3;
if (disp <= 256)
sprintf(dest, "%d", disp);
else dasmToHex(dest, config, 0, disp);
strcat(dest, "]");
}
/* Outside */
else {
if (disp < 0) {
*dest++ = '-';
disp = -disp;
}
if (disp <= 256)
sprintf(dest, "%d", disp);
else dasmToHex(dest, config, 0, disp);
dest += strlen(dest);
*dest++ = '[';
dasmProgram(dest, config, reg1);
strcat(dest, "]");
}
}
/* Format a source register operand */
static void dasmOpReg1(char*dest, VBU_DasmConfig*config, VBU_DasmLine*line) {
dasmProgram(dest, config, line->code[0] & 31);
}
/* Format a destination register operand */
static void dasmOpReg2(char*dest, VBU_DasmConfig*config, VBU_DasmLine*line) {
dasmProgram(dest, config,
((uint16_t) line->code[1] << 8 | line->code[0]) >> 5 & 31);
}
/* Format the condition operand of a split SETF instruction */
static void dasmOpSETF(char*dest, VBU_DasmConfig*config, VBU_DasmLine*line) {
int cond = line->code[0] & 15;
if (config->conditionNotation == VBU_NUMBERS)
sprintf(dest, "%d", cond);
else {
strcpy(dest, dasmCondition(config, cond));
if (config->conditionCase == VBU_LOWER)
dasmToLower(dest);
}
}
/* Format a system register operand */
static void dasmOpSystem(char*dest, VBU_DasmConfig*config, VBU_DasmLine*line) {
int id = line->code[0] & 31;
char *text = NULL;
if (config->systemNotation != VBU_NUMBERS) {
switch (id) {
case 0: text = "EIPC" ; break;
case 1: text = "EIPSW"; break;
case 2: text = "FEPC" ; break;
case 3: text = "FEPSW"; break;
case 4: text = "ECR" ; break;
case 5: text = "PSW" ; break;
case 6: text = "PIR" ; break;
case 7: text = "TKCW" ; break;
case 24: text = "CHCW" ; break;
case 25: text = "ADTRE"; break;
}
}
if (text == NULL) {
sprintf(dest, "%d", id);
return;
}
strcpy(dest, text);
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if (config->systemCase == VBU_LOWER)
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dasmToLower(dest);
}
/***************************** Module Functions ******************************/
/* Prepare an OpDef for a BCOND instruction */
static OpDef* dasmBCOND(VBU_DasmConfig *config,
VBU_DasmLine *line, OpDef *opdef) {
int cond; /* Condition code */
char *text; /* Mnemonic text */
/* Split notation */
if (config->bcondNotation == VBU_SPLIT) {
strcpy(opdef->mnemonic, "BCOND");
opdef->operandsLength = 2;
opdef->operands[0] = DASM_BCOND;
opdef->operands[1] = DASM_DISP9;
return opdef;
}
/* Joined notation */
cond = line->code[1] >> 1 & 15;
switch (cond) {
case 0: text = "BV" ; break;
case 1: text = config->conditionCL == VBU_C ? "BC" : "BL"; break;
case 2: text = config->conditionEZ == VBU_E ? "BE" : "BZ"; break;
case 3: text = "BNH"; break;
case 4: text = "BN" ; break;
case 5: text = "BR" ; break;
case 6: text = "BLT"; break;
case 7: text = "BLE"; break;
case 8: text = "BNV"; break;
case 9: text = config->conditionCL == VBU_C ? "BNC" : "BNL"; break;
case 10: text = config->conditionEZ == VBU_E ? "BNE" : "BNZ"; break;
case 11: text = "BH" ; break;
case 12: text = "BP" ; break;
case 13: text = "NOP"; break;
case 14: text = "BGE"; break;
default: text = "BGT";
}
strcpy(opdef->mnemonic, text);
opdef->operandsLength = cond != 13;
opdef->operands[0] = DASM_DISP9;
return opdef;
}
/* Ensure an output buffer matches the required size */
static VBU_DasmLine* dasmGrow(
VBU_DasmLine **lines, size_t *size, size_t target, unsigned index) {
if (*size < target) {
while (*size < target)
*size *= 2;
*lines = VBU_REALLOC(*lines, *size);
}
return *lines == NULL ? NULL : &(*lines)[index];
}
/* Determine the size of an instruction */
static uint32_t dasmInstSize(VB *sim, uint32_t address) {
unsigned opcode = vbRead(sim, address, VB_U16) >> 10 & 63;
return opcode < 0x20 || opcode == 0x32 || opcode == 0x36 ? 2 : 4;
}
/* Format an operand */
static void dasmOperand(char *dest, VBU_DasmConfig *config,
VBU_DasmLine *line, uint8_t type) {
switch (type) {
case DASM_BCOND : dasmOpBCOND (dest, config, line); break;
case DASM_DISP9 : dasmOpDisp9 (dest, config, line); break;
case DASM_DISP26: dasmOpDisp26(dest, config, line); break;
case DASM_IMM5S : dasmOpImm5S (dest, line); break;
case DASM_IMM5U : dasmOpImm5U (dest, line); break;
case DASM_IMM16S: dasmOpImm16S(dest, config, line); break;
case DASM_IMM16U: dasmOpImm16U(dest, config, line); break;
case DASM_JMP : dasmOpJMP (dest, config, line); break;
case DASM_MEMORY: dasmOpMemory(dest, config, line); break;
case DASM_REG1 : dasmOpReg1 (dest, config, line); break;
case DASM_REG2 : dasmOpReg2 (dest, config, line); break;
case DASM_SETF : dasmOpSETF (dest, config, line); break;
case DASM_SYSTEM: dasmOpSystem(dest, config, line); break;
}
}
/* Prepare an OpDef for a SETF instruction */
static OpDef* dasmSETF(VBU_DasmConfig *config,
VBU_DasmLine *line, OpDef *opdef) {
/* Split notation */
if (config->bcondNotation == VBU_SPLIT) {
strcpy(opdef->mnemonic, "SETF");
opdef->operandsLength = 2;
opdef->operands[0] = DASM_SETF;
opdef->operands[1] = DASM_REG2;
return opdef;
}
/* Joined notation */
sprintf(opdef->mnemonic, "SETF%s",
dasmCondition(config, line->code[1] >> 1 & 15));
opdef->operandsLength = 1;
opdef->operands[0] = DASM_REG2;
return opdef;
}
/* Disassemble one instruction */
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static int dasmLine(VB *sim, uint32_t *address, uint32_t pc,
VBU_DasmConfig *config, VBU_DasmLine **lines, size_t *size, size_t *offset,
unsigned index) {
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char *dest; /* Text output pointer */
char *format; /* Hexadecimal format string */
VBU_DasmLine *line; /* Output line */
size_t more; /* Number of bytes to output */
OpDef *opdef; /* Instruction descriptor */
OpDef special; /* Special-case descriptor */
char tAddress[9]; /* Address display text */
char tCode[4][3]; /* Code display text */
char tMnemonic[8]; /* Mnemonic display text */
char tOperands[3][15]; /* Operands display text */
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uint32_t x; /* Scratch and iterator */
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/* Process non-text members */
line = &(*lines)[index];
line->address = *address;
line->codeLength = dasmInstSize(sim, *address);
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line->isPC = *address == pc;
for (x = 0; x < line->codeLength; x++)
line->code[x] = vbRead(sim, *address + x, VB_U8);
*address += pc - *address < line->codeLength ?
pc - *address : line->codeLength;
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/* Do not process text members */
if (config == NULL) {
line->text.address = NULL;
line->text.mnemonic = NULL;
line->text.operandsLength = 0;
for (x = 0; x < line->codeLength; x++)
line->text.code[x] = NULL;
return 0;
}
/* Select instruction descriptor */
x = line->code[1] >> 2 & 63;
switch (x) {
case 0x12: /* SETF */
opdef = dasmSETF(config, line, &special);
break;
case 0x1F: /* Bit string */
x = line->code[0] & 31;
opdef = (OpDef *) (x < 16 ? &OPDEFS_BITSTRING[x] : &OPDEF_ILLEGAL);
break;
case 0x20: case 0x21: case 0x22: case 0x23: /* BCOND */
case 0x24: case 0x25: case 0x26: case 0x27:
opdef = dasmBCOND(config, line, &special);
break;
case 0x3E: /* Floating-point/Nintendo */
x = line->code[3] >> 2 & 63;
opdef = (OpDef *) (x < 13 ? &OPDEFS_FLOATENDO[x] : &OPDEF_ILLEGAL);
break;
default: opdef = (OpDef *) &OPDEFS[x]; /* Other */
}
/* Address */
format = config->hexCase == VBU_LOWER ? "%08x" : "%08X";
sprintf(tAddress, format, line->address);
more = 9;
/* Code */
format = config->hexCase == VBU_LOWER ? "%02x" : "%02X";
for (x = 0; x < line->codeLength; x++) {
sprintf(tCode[x], format, (int) line->code[x]);
more += 3;
}
/* Mnemonic */
strcpy(tMnemonic, opdef->mnemonic);
if (config->mnemonicCase == VBU_LOWER)
dasmToLower(tMnemonic);
more += strlen(tMnemonic) + 1;
/* Operands */
line->text.operandsLength = opdef->operandsLength;
for (x = 0; x < opdef->operandsLength; x++) {
dasmOperand(tOperands[x], config, line, opdef->operands[x]);
more += strlen(tOperands[x]) + 1;
}
/* Grow the text buffer */
line = dasmGrow(lines, size, *offset + more, index);
if (line == NULL)
return 1;
/* Working variables */
dest = &((char *) *lines)[*offset];
*offset += more;
/* Address */
strcpy(dest, tAddress);
line->text.address = dest;
dest += 9;
/* Code */
for (x = 0; x < line->codeLength; x++) {
strcpy(dest, tCode[x]);
line->text.code[x] = dest;
dest += 3;
}
/* Mnemonic */
strcpy(dest, tMnemonic);
line->text.mnemonic = dest;
dest += strlen(dest) + 1;
/* Operands */
for (x = 0; x < opdef->operandsLength; x++) {
strcpy(dest, tOperands[
config->operandOrder == VBU_DEST_FIRST ?
opdef->operandsLength - 1 - x :
x
]);
line->text.operands[x] = dest;
dest += strlen(dest) + 1;
}
return 0;
}
/***************************** Library Functions *****************************/
/* Disassemble from a simulation */
static VBU_DasmLine* dasmDisassemble(VB *sim, uint32_t address,
VBU_DasmConfig *config, unsigned length, int line) {
uint32_t addr; /* Working address */
uint32_t *circle = NULL; /* Circular address buffer */
VBU_DasmLine *lines = NULL; /* Output line buffer */
size_t offset; /* Offset into lines buffer */
uint32_t pc; /* Program counter */
size_t size; /* Number of bytes in lines */
unsigned x; /* Iterator */
/* Nothing to disassemble */
if (length == 0)
return NULL;
/* Establish a circular buffer */
if (line > 0) {
circle = VBU_REALLOC(NULL, (size_t) (line + 1) * sizeof (uint32_t));
if (circle == NULL)
goto catch;
}
/* Begin decoding from at least 10 lines before first/reference */
addr = (address & 0xFFFFFFFE) +
(int32_t) ((line < 0 ? -line : 0) - 10) * 4;
/* Locate the address of the line containing the reference address */
pc = vbGetProgramCounter(sim);
for (x = 0;;) {
/* Track the address in the circular buffer */
if (line > 0) {
circle[x] = addr;
if (++x > (size_t) line)
x = 0;
}
/* Check if the instruction contains the reference address */
size = dasmInstSize(sim, addr);
if (address - addr < size)
break;
addr += pc - addr < size ? pc - addr : size;
}
/* Address of first line is in the circular buffer */
if (line > 0) {
addr = circle[x];
circle = VBU_REALLOC(circle, 0);
}
/* Keep decoding until the first line of output */
else for (; line < 0; line++)
addr += dasmInstSize(sim, addr);
/* Working variables */
size = length * sizeof (VBU_DasmLine);
lines = VBU_REALLOC(NULL, size);
offset = size;
if (lines == NULL)
goto catch;
/* Process output lines */
for (x = 0; x < length; x++) {
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if (dasmLine(sim, &addr, pc, config, &lines, &size, &offset, x))
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goto catch;
}
return lines;
/* Exception handler */
catch:
circle = VBU_REALLOC(circle, 0);
lines = VBU_REALLOC(lines , 0);
return NULL;
}
#endif /* VBUAPI */