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|
/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
*/
// Script debugger functionality. Absolutely not threadsafe.
#include "sci/sci.h"
#include "sci/console.h"
#include "sci/debug.h"
#include "sci/engine/state.h"
#include "sci/engine/kernel.h"
#include "sci/engine/script.h"
namespace Sci {
// This table is only used for debugging. Don't include it for devices
// with not enough available memory (e.g. phones), where REDUCE_MEMORY_USAGE
// is defined
#ifndef REDUCE_MEMORY_USAGE
const char *opcodeNames[] = {
"bnot", "add", "sub", "mul", "div",
"mod", "shr", "shl", "xor", "and",
"or", "neg", "not", "eq?", "ne?",
"gt?", "ge?", "lt?", "le?", "ugt?",
"uge?", "ult?", "ule?", "bt", "bnt",
"jmp", "ldi", "push", "pushi", "toss",
"dup", "link", "call", "callk", "callb",
"calle", "ret", "send", "dummy", "dummy",
"class", "dummy", "self", "super", "&rest",
"lea", "selfID", "dummy", "pprev", "pToa",
"aTop", "pTos", "sTop", "ipToa", "dpToa",
"ipTos", "dpTos", "lofsa", "lofss", "push0",
"push1", "push2", "pushSelf", "dummy", "lag",
"lal", "lat", "lap", "lsg", "lsl",
"lst", "lsp", "lagi", "lali", "lati",
"lapi", "lsgi", "lsli", "lsti", "lspi",
"sag", "sal", "sat", "sap", "ssg",
"ssl", "sst", "ssp", "sagi", "sali",
"sati", "sapi", "ssgi", "ssli", "ssti",
"sspi", "+ag", "+al", "+at", "+ap",
"+sg", "+sl", "+st", "+sp", "+agi",
"+ali", "+ati", "+api", "+sgi", "+sli",
"+sti", "+spi", "-ag", "-al", "-at",
"-ap", "-sg", "-sl", "-st", "-sp",
"-agi", "-ali", "-ati", "-api", "-sgi",
"-sli", "-sti", "-spi"
};
#endif // REDUCE_MEMORY_USAGE
// Disassembles one command from the heap, returns address of next command or 0 if a ret was encountered.
reg_t disassemble(EngineState *s, reg_t pos, bool printBWTag, bool printBytecode) {
SegmentObj *mobj = s->_segMan->getSegment(pos.segment, SEG_TYPE_SCRIPT);
Script *script_entity = NULL;
const byte *scr;
int scr_size;
reg_t retval = make_reg(pos.segment, pos.offset + 1);
uint16 param_value = 0xffff; // Suppress GCC warning by setting default value, chose value as invalid to getKernelName etc.
int i = 0;
Kernel *kernel = g_sci->getKernel();
if (!mobj) {
warning("Disassembly failed: Segment %04x non-existant or not a script", pos.segment);
return retval;
} else
script_entity = (Script *)mobj;
scr = script_entity->getBuf();
scr_size = script_entity->getBufSize();
if (pos.offset >= scr_size) {
warning("Trying to disassemble beyond end of script");
return NULL_REG;
}
int16 opparams[4];
byte opsize;
int bytecount = readPMachineInstruction(scr + pos.offset, opsize, opparams);
const byte opcode = opsize >> 1;
opsize &= 1; // byte if true, word if false
debugN("%04x:%04x: ", PRINT_REG(pos));
if (printBytecode) {
if (pos.offset + bytecount > scr_size) {
warning("Operation arguments extend beyond end of script");
return retval;
}
for (i = 0; i < bytecount; i++)
debugN("%02x ", scr[pos.offset + i]);
for (i = bytecount; i < 5; i++)
debugN(" ");
}
if (printBWTag)
debugN("[%c] ", opsize ? 'B' : 'W');
#ifndef REDUCE_MEMORY_USAGE
debugN("%s", opcodeNames[opcode]);
#endif
i = 0;
while (g_opcode_formats[opcode][i]) {
switch (g_opcode_formats[opcode][i++]) {
case Script_Invalid:
warning("-Invalid operation-");
break;
case Script_SByte:
case Script_Byte:
param_value = scr[retval.offset];
debugN(" %02x", scr[retval.offset]);
retval.offset++;
break;
case Script_Word:
case Script_SWord:
param_value = READ_SCI11ENDIAN_UINT16(&scr[retval.offset]);
debugN(" %04x", READ_SCI11ENDIAN_UINT16(&scr[retval.offset]));
retval.offset += 2;
break;
case Script_SVariable:
case Script_Variable:
case Script_Property:
case Script_Global:
case Script_Local:
case Script_Temp:
case Script_Param:
if (opsize)
param_value = scr[retval.offset++];
else {
param_value = READ_SCI11ENDIAN_UINT16(&scr[retval.offset]);
retval.offset += 2;
}
if (opcode == op_callk)
debugN(" %s[%x]", (param_value < kernel->_kernelFuncs.size()) ?
((param_value < kernel->getKernelNamesSize()) ? kernel->getKernelName(param_value).c_str() : "[Unknown(postulated)]")
: "<invalid>", param_value);
else
debugN(opsize ? " %02x" : " %04x", param_value);
break;
case Script_Offset:
if (opsize)
param_value = scr[retval.offset++];
else {
param_value = READ_SCI11ENDIAN_UINT16(&scr[retval.offset]);
retval.offset += 2;
}
debugN(opsize ? " %02x" : " %04x", param_value);
break;
case Script_SRelative:
if (opsize) {
int8 offset = (int8)scr[retval.offset++];
debugN(" %02x [%04x]", 0xff & offset, 0xffff & (retval.offset + offset));
}
else {
int16 offset = (int16)READ_SCI11ENDIAN_UINT16(&scr[retval.offset]);
retval.offset += 2;
debugN(" %04x [%04x]", 0xffff & offset, 0xffff & (retval.offset + offset));
}
break;
case Script_End:
retval = NULL_REG;
break;
default:
error("Internal assertion failed in disassemble()");
}
}
if (pos == s->xs->addr.pc) { // Extra information if debugging the current opcode
if ((opcode == op_pTos) || (opcode == op_sTop) || (opcode == op_pToa) || (opcode == op_aTop) ||
(opcode == op_dpToa) || (opcode == op_ipToa) || (opcode == op_dpTos) || (opcode == op_ipTos)) {
const Object *obj = s->_segMan->getObject(s->xs->objp);
if (!obj) {
warning("Attempted to reference on non-object at %04x:%04x", PRINT_REG(s->xs->objp));
} else {
if (getSciVersion() == SCI_VERSION_3)
debugN("\t(%s)", g_sci->getKernel()->getSelectorName(param_value).c_str());
else
debugN("\t(%s)", g_sci->getKernel()->getSelectorName(obj->propertyOffsetToId(s->_segMan, param_value)).c_str());
}
}
}
debugN("\n");
if (pos == s->xs->addr.pc) { // Extra information if debugging the current opcode
if (opcode == op_callk) {
int stackframe = (scr[pos.offset + 2] >> 1) + (s->r_rest);
int argc = ((s->xs->sp)[- stackframe - 1]).offset;
bool oldScriptHeader = (getSciVersion() == SCI_VERSION_0_EARLY);
if (!oldScriptHeader)
argc += (s->r_rest);
debugN(" Kernel params: (");
for (int j = 0; j < argc; j++) {
debugN("%04x:%04x", PRINT_REG((s->xs->sp)[j - stackframe]));
if (j + 1 < argc)
debugN(", ");
}
debugN(")\n");
} else if ((opcode == op_send) || (opcode == op_self)) {
int restmod = s->r_rest;
int stackframe = (scr[pos.offset + 1] >> 1) + restmod;
reg_t *sb = s->xs->sp;
uint16 selector;
reg_t fun_ref;
while (stackframe > 0) {
int argc = sb[- stackframe + 1].offset;
const char *name = NULL;
reg_t called_obj_addr = s->xs->objp;
if (opcode == op_send)
called_obj_addr = s->r_acc;
else if (opcode == op_self)
called_obj_addr = s->xs->objp;
selector = sb[- stackframe].offset;
name = s->_segMan->getObjectName(called_obj_addr);
if (!name)
name = "<invalid>";
debugN(" %s::%s[", name, g_sci->getKernel()->getSelectorName(selector).c_str());
switch (lookupSelector(s->_segMan, called_obj_addr, selector, 0, &fun_ref)) {
case kSelectorMethod:
debugN("FUNCT");
argc += restmod;
restmod = 0;
break;
case kSelectorVariable:
debugN("VAR");
break;
case kSelectorNone:
debugN("INVALID");
break;
}
debugN("](");
while (argc--) {
debugN("%04x:%04x", PRINT_REG(sb[- stackframe + 2]));
if (argc)
debugN(", ");
stackframe--;
}
debugN(")\n");
stackframe -= 2;
} // while (stackframe > 0)
} // Send-like opcodes
} // (heappos == *p_pc)
return retval;
}
bool isJumpOpcode(EngineState *s, reg_t pos, reg_t& jumpTarget) {
SegmentObj *mobj = s->_segMan->getSegment(pos.segment, SEG_TYPE_SCRIPT);
if (!mobj)
return false;
Script *script_entity = (Script *)mobj;
const byte *scr = script_entity->getBuf();
int scr_size = script_entity->getBufSize();
if (pos.offset >= scr_size)
return false;
int16 opparams[4];
byte opsize;
int bytecount = readPMachineInstruction(scr + pos.offset, opsize, opparams);
const byte opcode = opsize >> 1;
switch (opcode) {
case op_bt:
case op_bnt:
case op_jmp:
jumpTarget = pos + bytecount + opparams[0];
return true;
default:
return false;
}
}
void SciEngine::scriptDebug() {
EngineState *s = _gamestate;
if (_debugState.seeking && !_debugState.breakpointWasHit) { // Are we looking for something special?
if (_debugState.seeking == kDebugSeekStepOver) {
// are we above seek-level? resume then
if (_debugState.seekLevel < (int)s->_executionStack.size())
return;
_debugState.seeking = kDebugSeekNothing;
}
if (_debugState.seeking != kDebugSeekNothing) {
const reg_t pc = s->xs->addr.pc;
SegmentObj *mobj = s->_segMan->getSegment(pc.segment, SEG_TYPE_SCRIPT);
if (mobj) {
Script *scr = (Script *)mobj;
const byte *code_buf = scr->getBuf();
int code_buf_size = scr->getBufSize();
int opcode = pc.offset >= code_buf_size ? 0 : code_buf[pc.offset];
int op = opcode >> 1;
int paramb1 = pc.offset + 1 >= code_buf_size ? 0 : code_buf[pc.offset + 1];
int paramf1 = (opcode & 1) ? paramb1 : (pc.offset + 2 >= code_buf_size ? 0 : (int16)READ_SCI11ENDIAN_UINT16(code_buf + pc.offset + 1));
switch (_debugState.seeking) {
case kDebugSeekSpecialCallk:
if (paramb1 != _debugState.seekSpecial)
return;
case kDebugSeekCallk:
if (op != op_callk)
return;
break;
case kDebugSeekLevelRet:
if ((op != op_ret) || (_debugState.seekLevel < (int)s->_executionStack.size()-1))
return;
break;
case kDebugSeekGlobal:
if (op < op_sag)
return;
if ((op & 0x3) > 1)
return; // param or temp
if ((op & 0x3) && s->_executionStack.back().local_segment > 0)
return; // locals and not running in script.000
if (paramf1 != _debugState.seekSpecial)
return; // CORRECT global?
break;
default:
break;
}
_debugState.seeking = kDebugSeekNothing;
}
}
// OK, found whatever we were looking for
}
debugN("Step #%d\n", s->scriptStepCounter);
disassemble(s, s->xs->addr.pc, false, true);
if (_debugState.runningStep) {
_debugState.runningStep--;
return;
}
_debugState.debugging = false;
_console->attach();
}
void Kernel::dumpScriptObject(char *data, int seeker, int objsize) {
int selectors, overloads, selectorsize;
int species = (int16)READ_SCI11ENDIAN_UINT16((unsigned char *) data + 8 + seeker);
int superclass = (int16)READ_SCI11ENDIAN_UINT16((unsigned char *) data + 10 + seeker);
int namepos = (int16)READ_SCI11ENDIAN_UINT16((unsigned char *) data + 14 + seeker);
int i = 0;
debugN("Object\n");
Common::hexdump((unsigned char *) data + seeker, objsize - 4, 16, seeker);
//-4 because the size includes the two-word header
debugN("Name: %s\n", namepos ? ((char *)(data + namepos)) : "<unknown>");
debugN("Superclass: %x\n", superclass);
debugN("Species: %x\n", species);
debugN("-info-:%x\n", (int16)READ_SCI11ENDIAN_UINT16((unsigned char *) data + 12 + seeker) & 0xffff);
debugN("Function area offset: %x\n", (int16)READ_SCI11ENDIAN_UINT16((unsigned char *) data + seeker + 4));
debugN("Selectors [%x]:\n", selectors = (selectorsize = (int16)READ_SCI11ENDIAN_UINT16((unsigned char *) data + seeker + 6)));
seeker += 8;
while (selectors--) {
debugN(" [#%03x] = 0x%x\n", i++, (int16)READ_SCI11ENDIAN_UINT16((unsigned char *)data + seeker) & 0xffff);
seeker += 2;
}
debugN("Overridden functions: %x\n", selectors = overloads = (int16)READ_SCI11ENDIAN_UINT16((unsigned char *)data + seeker));
seeker += 2;
if (overloads < 100)
while (overloads--) {
int selector = (int16)READ_SCI11ENDIAN_UINT16((unsigned char *) data + (seeker));
debugN(" [%03x] %s: @", selector & 0xffff, (selector >= 0 && selector < (int)_selectorNames.size()) ? _selectorNames[selector].c_str() : "<?>");
debugN("%04x\n", (int16)READ_SCI11ENDIAN_UINT16((unsigned char *)data + seeker + selectors*2 + 2) & 0xffff);
seeker += 2;
}
}
void Kernel::dumpScriptClass(char *data, int seeker, int objsize) {
int selectors, overloads, selectorsize;
int species = (int16)READ_SCI11ENDIAN_UINT16((unsigned char *) data + 8 + seeker);
int superclass = (int16)READ_SCI11ENDIAN_UINT16((unsigned char *) data + 10 + seeker);
int namepos = (int16)READ_SCI11ENDIAN_UINT16((unsigned char *) data + 14 + seeker);
debugN("Class\n");
Common::hexdump((unsigned char *) data + seeker, objsize - 4, 16, seeker);
debugN("Name: %s\n", namepos ? ((char *)data + namepos) : "<unknown>");
debugN("Superclass: %x\n", superclass);
debugN("Species: %x\n", species);
debugN("-info-:%x\n", (int16)READ_SCI11ENDIAN_UINT16((unsigned char *)data + 12 + seeker) & 0xffff);
debugN("Function area offset: %x\n", (int16)READ_SCI11ENDIAN_UINT16((unsigned char *)data + seeker + 4));
debugN("Selectors [%x]:\n", selectors = (selectorsize = (int16)READ_SCI11ENDIAN_UINT16((unsigned char *)data + seeker + 6)));
seeker += 8;
selectorsize <<= 1;
while (selectors--) {
int selector = (int16)READ_SCI11ENDIAN_UINT16((unsigned char *) data + (seeker) + selectorsize);
debugN(" [%03x] %s = 0x%x\n", 0xffff & selector, (selector >= 0 && selector < (int)_selectorNames.size()) ? _selectorNames[selector].c_str() : "<?>",
(int16)READ_SCI11ENDIAN_UINT16((unsigned char *)data + seeker) & 0xffff);
seeker += 2;
}
seeker += selectorsize;
debugN("Overloaded functions: %x\n", selectors = overloads = (int16)READ_SCI11ENDIAN_UINT16((unsigned char *)data + seeker));
seeker += 2;
while (overloads--) {
int selector = (int16)READ_SCI11ENDIAN_UINT16((unsigned char *)data + (seeker));
debugN("selector=%d; selectorNames.size() =%d\n", selector, _selectorNames.size());
debugN(" [%03x] %s: @", selector & 0xffff, (selector >= 0 && selector < (int)_selectorNames.size()) ?
_selectorNames[selector].c_str() : "<?>");
debugN("%04x\n", (int16)READ_SCI11ENDIAN_UINT16((unsigned char *)data + seeker + selectors * 2 + 2) & 0xffff);
seeker += 2;
}
}
void Kernel::dissectScript(int scriptNumber, Vocabulary *vocab) {
int objectctr[11] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
unsigned int _seeker = 0;
Resource *script = _resMan->findResource(ResourceId(kResourceTypeScript, scriptNumber), 0);
if (!script) {
warning("dissectScript(): Script not found!\n");
return;
}
while (_seeker < script->size) {
int objType = (int16)READ_SCI11ENDIAN_UINT16(script->data + _seeker);
int objsize;
unsigned int seeker = _seeker + 4;
if (!objType) {
debugN("End of script object (#0) encountered.\n");
debugN("Classes: %i, Objects: %i, Export: %i,\n Var: %i (all base 10)",
objectctr[6], objectctr[1], objectctr[7], objectctr[10]);
return;
}
debugN("\n");
objsize = (int16)READ_SCI11ENDIAN_UINT16(script->data + _seeker + 2);
debugN("Obj type #%x, size 0x%x: ", objType, objsize);
_seeker += objsize;
objectctr[objType]++;
switch (objType) {
case SCI_OBJ_OBJECT:
dumpScriptObject((char *)script->data, seeker, objsize);
break;
case SCI_OBJ_CODE:
debugN("Code\n");
Common::hexdump(script->data + seeker, objsize - 4, 16, seeker);
break;
case SCI_OBJ_SYNONYMS:
debugN("Synonyms\n");
Common::hexdump(script->data + seeker, objsize - 4, 16, seeker);
break;
case SCI_OBJ_SAID:
debugN("Said\n");
Common::hexdump(script->data + seeker, objsize - 4, 16, seeker);
debugN("%04x: ", seeker);
vocab->debugDecipherSaidBlock(script->data + seeker);
debugN("\n");
break;
case SCI_OBJ_STRINGS:
debugN("Strings\n");
while (script->data [seeker]) {
debugN("%04x: %s\n", seeker, script->data + seeker);
seeker += strlen((char *)script->data + seeker) + 1;
}
seeker++; // the ending zero byte
break;
case SCI_OBJ_CLASS:
dumpScriptClass((char *)script->data, seeker, objsize);
break;
case SCI_OBJ_EXPORTS:
debugN("Exports\n");
Common::hexdump((unsigned char *)script->data + seeker, objsize - 4, 16, seeker);
break;
case SCI_OBJ_POINTERS:
debugN("Pointers\n");
Common::hexdump(script->data + seeker, objsize - 4, 16, seeker);
break;
case 9:
debugN("<unknown>\n");
Common::hexdump(script->data + seeker, objsize - 4, 16, seeker);
break;
case SCI_OBJ_LOCALVARS:
debugN("Local vars\n");
Common::hexdump(script->data + seeker, objsize - 4, 16, seeker);
break;
default:
debugN("Unsupported!\n");
return;
}
}
debugN("Script ends without terminator\n");
}
bool SciEngine::checkSelectorBreakpoint(BreakpointType breakpointType, reg_t send_obj, int selector) {
Common::String methodName = _gamestate->_segMan->getObjectName(send_obj);
methodName += ("::" + getKernel()->getSelectorName(selector));
Common::List<Breakpoint>::const_iterator bpIter;
for (bpIter = _debugState._breakpoints.begin(); bpIter != _debugState._breakpoints.end(); ++bpIter) {
if ((*bpIter).type == breakpointType && (*bpIter).name == methodName) {
_console->DebugPrintf("Break on %s (in [%04x:%04x])\n", methodName.c_str(), PRINT_REG(send_obj));
_debugState.debugging = true;
_debugState.breakpointWasHit = true;
return true;
}
}
return false;
}
bool SciEngine::checkExportBreakpoint(uint16 script, uint16 pubfunct) {
if (_debugState._activeBreakpointTypes & BREAK_EXPORT) {
uint32 bpaddress = (script << 16 | pubfunct);
Common::List<Breakpoint>::const_iterator bp;
for (bp = _debugState._breakpoints.begin(); bp != _debugState._breakpoints.end(); ++bp) {
if (bp->type == BREAK_EXPORT && bp->address == bpaddress) {
_console->DebugPrintf("Break on script %d, export %d\n", script, pubfunct);
_debugState.debugging = true;
_debugState.breakpointWasHit = true;
return true;
}
}
}
return false;
}
void debugSelectorCall(reg_t send_obj, Selector selector, int argc, StackPtr argp, ObjVarRef &varp, reg_t funcp, SegManager *segMan, SelectorType selectorType) {
int activeBreakpointTypes = g_sci->_debugState._activeBreakpointTypes;
const char *objectName = segMan->getObjectName(send_obj);
const char *selectorName = g_sci->getKernel()->getSelectorName(selector).c_str();
Console *con = g_sci->getSciDebugger();
#ifdef VM_DEBUG_SEND
debugN("Send to %04x:%04x (%s), selector %04x (%s):", PRINT_REG(send_obj),
s->_segMan->getObjectName(send_obj), selector,
g_sci->getKernel()->getSelectorName(selector).c_str());
#endif // VM_DEBUG_SEND
switch (selectorType) {
case kSelectorNone:
break;
case kSelectorVariable:
#ifdef VM_DEBUG_SEND
if (argc)
debugN("Varselector: Write %04x:%04x\n", PRINT_REG(argp[1]));
else
debugN("Varselector: Read\n");
#endif // VM_DEBUG_SEND
// argc == 0: read selector
// argc == 1: write selector
// argc can be bigger than 1 in some cases, because of a script bug.
// Usually, these aren't fatal.
if ((activeBreakpointTypes & BREAK_SELECTORREAD) ||
(activeBreakpointTypes & BREAK_SELECTORWRITE) ||
argc > 1) {
reg_t selectorValue = *varp.getPointer(segMan);
if (!argc && (activeBreakpointTypes & BREAK_SELECTORREAD)) {
if (g_sci->checkSelectorBreakpoint(BREAK_SELECTORREAD, send_obj, selector))
con->DebugPrintf("Read from selector (%s:%s): %04x:%04x\n",
objectName, selectorName,
PRINT_REG(selectorValue));
} else if (argc && (activeBreakpointTypes & BREAK_SELECTORWRITE)) {
if (g_sci->checkSelectorBreakpoint(BREAK_SELECTORWRITE, send_obj, selector))
con->DebugPrintf("Write to selector (%s:%s): change %04x:%04x to %04x:%04x\n",
objectName, selectorName,
PRINT_REG(selectorValue), PRINT_REG(argp[1]));
}
if (argc > 1)
debug(kDebugLevelScripts, "Write to selector (%s:%s): change %04x:%04x to %04x:%04x, argc == %d\n",
objectName, selectorName,
PRINT_REG(selectorValue), PRINT_REG(argp[1]), argc);
}
break;
case kSelectorMethod:
#ifndef VM_DEBUG_SEND
if (activeBreakpointTypes & BREAK_SELECTOREXEC) {
if (g_sci->checkSelectorBreakpoint(BREAK_SELECTOREXEC, send_obj, selector)) {
#else
if (true) {
if (true) {
#endif
con->DebugPrintf("%s::%s(", objectName, selectorName);
for (int i = 0; i < argc; i++) {
con->DebugPrintf("%04x:%04x", PRINT_REG(argp[i+1]));
if (i + 1 < argc)
con->DebugPrintf(", ");
}
con->DebugPrintf(") at %04x:%04x\n", PRINT_REG(funcp));
}
}
break;
} // switch
}
void logKernelCall(const KernelFunction *kernelCall, const KernelSubFunction *kernelSubCall, EngineState *s, int argc, reg_t *argv, reg_t result) {
Kernel *kernel = g_sci->getKernel();
if (!kernelSubCall) {
debugN("k%s: ", kernelCall->name);
} else {
int callNameLen = strlen(kernelCall->name);
if (strncmp(kernelCall->name, kernelSubCall->name, callNameLen) == 0) {
const char *subCallName = kernelSubCall->name + callNameLen;
debugN("k%s(%s): ", kernelCall->name, subCallName);
} else {
debugN("k%s(%s): ", kernelCall->name, kernelSubCall->name);
}
}
for (int parmNr = 0; parmNr < argc; parmNr++) {
if (parmNr)
debugN(", ");
uint16 regType = kernel->findRegType(argv[parmNr]);
if (regType & SIG_TYPE_NULL)
debugN("0");
else if (regType & SIG_TYPE_UNINITIALIZED)
debugN("UNINIT");
else if (regType & SIG_IS_INVALID)
debugN("INVALID");
else if (regType & SIG_TYPE_INTEGER)
debugN("%d", argv[parmNr].offset);
else {
debugN("%04x:%04x", PRINT_REG(argv[parmNr]));
switch (regType) {
case SIG_TYPE_OBJECT:
debugN(" (%s)", s->_segMan->getObjectName(argv[parmNr]));
break;
case SIG_TYPE_REFERENCE:
{
SegmentObj *mobj = s->_segMan->getSegmentObj(argv[parmNr].segment);
switch (mobj->getType()) {
case SEG_TYPE_HUNK:
{
HunkTable *ht = (HunkTable*)mobj;
int index = argv[parmNr].offset;
if (ht->isValidEntry(index)) {
// NOTE: This ", deleted" isn't as useful as it could
// be because it prints the status _after_ the kernel
// call.
debugN(" ('%s' hunk%s)", ht->_table[index].type, ht->_table[index].mem ? "" : ", deleted");
} else
debugN(" (INVALID hunk ref)");
break;
}
default:
// TODO: Any other segment types which could
// use special handling?
if (kernelCall->function == kSaid) {
SegmentRef saidSpec = s->_segMan->dereference(argv[parmNr]);
if (saidSpec.isRaw) {
debugN(" ('");
g_sci->getVocabulary()->debugDecipherSaidBlock(saidSpec.raw);
debugN("')");
} else {
debugN(" (non-raw said-spec)");
}
} else {
debugN(" ('%s')", s->_segMan->getString(argv[parmNr]).c_str());
}
break;
}
}
default:
break;
}
}
}
if (result.isPointer())
debugN(" = %04x:%04x\n", PRINT_REG(result));
else
debugN(" = %d\n", result.offset);
}
} // End of namespace Sci
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