int reiserfs_on_disk_super_in_proc( char *buffer, char **start, off_t offset,
int count, int *eof, void *data )
{
struct super_block *sb;
struct reiserfs_sb_info *sb_info;
struct reiserfs_super_block *rs;
int hash_code;
int len = 0;
sb = procinfo_prologue( ( kdev_t ) ( long ) data );
if( sb == NULL )
return -ENOENT;
sb_info = &sb->u.reiserfs_sb;
rs = sb_info -> s_rs;
hash_code = DFL( s_hash_function_code );
len += sprintf( &buffer[ len ],
"block_count: \t%i\n"
"free_blocks: \t%i\n"
"root_block: \t%i\n"
"blocksize: \t%i\n"
"oid_maxsize: \t%i\n"
"oid_cursize: \t%i\n"
"umount_state: \t%i\n"
"magic: \t%10.10s\n"
"fs_state: \t%i\n"
"hash: \t%s\n"
"tree_height: \t%i\n"
"bmap_nr: \t%i\n"
"version: \t%i\n"
"reserved_for_journal: \t%i\n"
"inode_generation: \t%i\n"
"flags: \t%x[%s]\n",
DFL( s_block_count ),
DFL( s_free_blocks ),
DFL( s_root_block ),
DF( s_blocksize ),
DF( s_oid_maxsize ),
DF( s_oid_cursize ),
DF( s_umount_state ),
rs -> s_v1.s_magic,
DF( s_fs_state ),
hash_code == TEA_HASH ? "tea" :
( hash_code == YURA_HASH ) ? "rupasov" :
( hash_code == R5_HASH ) ? "r5" :
( hash_code == UNSET_HASH ) ? "unset" : "unknown",
DF( s_tree_height ),
DF( s_bmap_nr ),
DF( s_version ),
DF( s_reserved_for_journal ),
DPL( s_inode_generation ),
DPL( s_flags ),
(DPL( s_flags ) & reiserfs_attrs_cleared
? "attrs_cleared" : "" ));
procinfo_epilogue( sb );
return reiserfs_proc_tail( len, buffer, start, offset, count, eof );
}
static void i80286_data_descriptor_full(i80286_state *cpustate, int reg, UINT16 selector, int cpl, UINT32 trap, UINT16 offset, int size)
{
if (PM) {
UINT16 desc[3];
UINT8 r;
UINT32 addr;
/* selector format
15..3 number/address in descriptor table
2: 0 global, 1 local descriptor table
1,0: requested privileg level
must be higher or same as current privileg level in code selector */
if ((reg != SS) && !IDXTBL(selector)) {
cpustate->sregs[reg]=0;
cpustate->limit[reg]=0;
cpustate->base[reg]=0;
cpustate->rights[reg]=0;
cpustate->valid[reg]=0;
return;
}
if ((addr = i80286_selector_address(cpustate,selector)) == -1) throw trap;
desc[0] = ReadWord(addr);
desc[1] = ReadWord(addr+2);
desc[2] = ReadWord(addr+4);
r = RIGHTS(desc);
if (!SEGDESC(r)) throw trap;
if (reg == SS) {
if (!IDXTBL(selector)) throw trap;
if (DPL(r)!=cpl) throw trap;
if (RPL(selector)!=cpl) throw trap;
if (!RW(r) || CODE(r)) throw trap;
if (!PRES(r)) throw TRAP(STACK_FAULT,(IDXTBL(selector)+(trap&1)));
} else {
if ((DPL(r) < PMAX(cpl,RPL(selector))) && (!CODE(r) || (CODE(r) && !CONF(r)))) throw trap;
if (CODE(r) && !READ(r)) throw trap;
if (!PRES(r)) throw TRAP(SEG_NOT_PRESENT,(IDXTBL(selector)+(trap&1)));
}
if (offset+size) {
if ((CODE(r) || !EXPDOWN(r)) && ((offset+size-1) > LIMIT(desc))) throw (reg==SS)?TRAP(STACK_FAULT,(trap&1)):trap;
if (!CODE(r) && EXPDOWN(r) && ((offset <= LIMIT(desc)) || ((offset+size-1) > 0xffff))) throw (reg==SS)?TRAP(STACK_FAULT,(trap&1)):trap;
}
SET_ACC(desc);
WriteWord(addr+4, desc[2]);
cpustate->sregs[reg]=selector;
cpustate->limit[reg]=LIMIT(desc);
cpustate->base[reg]=BASE(desc);
cpustate->rights[reg]=RIGHTS(desc);
} else {
cpustate->sregs[reg]=selector;
cpustate->base[reg]=selector<<4;
}
cpustate->valid[reg]=1;
}
struct POINT GetInflectionPoint(int LorR) {
int z;
struct POINT tmpReturn;
int tmp = 0;
int max = 0;
tmpReturn = edgePoint[LorR][edgeStartZ[LorR]];
edgeLimitLines[LorR] = LPP(crctr_BTX[LorR].head, crctr_BTX[LorR].tail);
for (z = edgeStartZ[LorR]; z < C_activePoint[LorR]; z++) {
tmp = DPL(edgePoint[LorR][z],edgeLimitLines[LorR]);
tmp = ABS(tmp);
if(tmp > max)
{
max = tmp;
tmpReturn = edgePoint[LorR][z];
}
}
return tmpReturn;
}
SCORE NWDASimple(const ProfPos *PA, unsigned uLengthA, const ProfPos *PB,
unsigned uLengthB, PWPath &Path)
{
assert(uLengthB > 0 && uLengthA > 0);
const unsigned uPrefixCountA = uLengthA + 1;
const unsigned uPrefixCountB = uLengthB + 1;
// Allocate DP matrices
const size_t LM = uPrefixCountA*uPrefixCountB;
SCORE *DPL_ = new SCORE[LM];
SCORE *DPM_ = new SCORE[LM];
SCORE *DPD_ = new SCORE[LM];
SCORE *DPE_ = new SCORE[LM];
SCORE *DPI_ = new SCORE[LM];
SCORE *DPJ_ = new SCORE[LM];
char *TBM_ = new char[LM];
char *TBD_ = new char[LM];
char *TBE_ = new char[LM];
char *TBI_ = new char[LM];
char *TBJ_ = new char[LM];
memset(TBM_, '?', LM);
memset(TBD_, '?', LM);
memset(TBE_, '?', LM);
memset(TBI_, '?', LM);
memset(TBJ_, '?', LM);
DPM(0, 0) = 0;
DPD(0, 0) = MINUS_INFINITY;
DPE(0, 0) = MINUS_INFINITY;
DPI(0, 0) = MINUS_INFINITY;
DPJ(0, 0) = MINUS_INFINITY;
DPM(1, 0) = MINUS_INFINITY;
DPD(1, 0) = PA[0].m_scoreGapOpen;
DPE(1, 0) = PA[0].m_scoreGapOpen2;
TBD(1, 0) = 'D';
TBE(1, 0) = 'E';
DPI(1, 0) = MINUS_INFINITY;
DPJ(1, 0) = MINUS_INFINITY;
DPM(0, 1) = MINUS_INFINITY;
DPD(0, 1) = MINUS_INFINITY;
DPE(0, 1) = MINUS_INFINITY;
DPI(0, 1) = PB[0].m_scoreGapOpen;
DPJ(0, 1) = PB[0].m_scoreGapOpen2;
TBI(0, 1) = 'I';
TBJ(0, 1) = 'J';
// Empty prefix of B is special case
for (unsigned uPrefixLengthA = 2; uPrefixLengthA < uPrefixCountA; ++uPrefixLengthA)
{
DPM(uPrefixLengthA, 0) = MINUS_INFINITY;
DPD(uPrefixLengthA, 0) = DPD(uPrefixLengthA - 1, 0) + g_scoreGapExtend.get();
DPE(uPrefixLengthA, 0) = DPE(uPrefixLengthA - 1, 0) + g_scoreGapExtend2.get();
TBD(uPrefixLengthA, 0) = 'D';
TBE(uPrefixLengthA, 0) = 'E';
DPI(uPrefixLengthA, 0) = MINUS_INFINITY;
DPJ(uPrefixLengthA, 0) = MINUS_INFINITY;
}
// Empty prefix of A is special case
for (unsigned uPrefixLengthB = 2; uPrefixLengthB < uPrefixCountB; ++uPrefixLengthB)
{
DPM(0, uPrefixLengthB) = MINUS_INFINITY;
DPD(0, uPrefixLengthB) = MINUS_INFINITY;
DPE(0, uPrefixLengthB) = MINUS_INFINITY;
DPI(0, uPrefixLengthB) = DPI(0, uPrefixLengthB - 1) + g_scoreGapExtend.get();
DPJ(0, uPrefixLengthB) = DPJ(0, uPrefixLengthB - 1) + g_scoreGapExtend2.get();
TBI(0, uPrefixLengthB) = 'I';
TBJ(0, uPrefixLengthB) = 'J';
}
// Special case to agree with NWFast, no D-I transitions so...
DPD(uLengthA, 0) = MINUS_INFINITY;
DPE(uLengthA, 0) = MINUS_INFINITY;
// DPI(0, uLengthB) = MINUS_INFINITY;
// DPJ(0, uLengthB) = MINUS_INFINITY;
// ============
// Main DP loop
// ============
SCORE scoreGapCloseB = MINUS_INFINITY;
SCORE scoreGapClose2B = MINUS_INFINITY;
for (unsigned uPrefixLengthB = 1; uPrefixLengthB < uPrefixCountB; ++uPrefixLengthB)
{
const ProfPos &PPB = PB[uPrefixLengthB - 1];
SCORE scoreGapCloseA = MINUS_INFINITY;
SCORE scoreGapClose2A = MINUS_INFINITY;
for (unsigned uPrefixLengthA = 1; uPrefixLengthA < uPrefixCountA; ++uPrefixLengthA)
{
const ProfPos &PPA = PA[uPrefixLengthA - 1];
{
// Match M=LetterA+LetterB
SCORE scoreLL = ScoreProfPos2(PPA, PPB);
DPL(uPrefixLengthA, uPrefixLengthB) = scoreLL;
SCORE scoreMM = DPM(uPrefixLengthA-1, uPrefixLengthB-1);
SCORE scoreDM = DPD(uPrefixLengthA-1, uPrefixLengthB-1) + scoreGapCloseA;
SCORE scoreEM = DPE(uPrefixLengthA-1, uPrefixLengthB-1) + scoreGapClose2A;
SCORE scoreIM = DPI(uPrefixLengthA-1, uPrefixLengthB-1) + scoreGapCloseB;
SCORE scoreJM = DPJ(uPrefixLengthA-1, uPrefixLengthB-1) + scoreGapClose2B;
SCORE scoreBest;
if (scoreMM >= scoreDM && scoreMM >= scoreEM && scoreMM >= scoreIM && scoreMM >= scoreJM)
{
scoreBest = scoreMM;
TBM(uPrefixLengthA, uPrefixLengthB) = 'M';
}
else if (scoreDM >= scoreMM && scoreDM >= scoreEM && scoreDM >= scoreIM && scoreDM >= scoreJM)
{
scoreBest = scoreDM;
TBM(uPrefixLengthA, uPrefixLengthB) = 'D';
}
else if (scoreEM >= scoreMM && scoreEM >= scoreDM && scoreEM >= scoreIM && scoreEM >= scoreJM)
{
scoreBest = scoreEM;
TBM(uPrefixLengthA, uPrefixLengthB) = 'E';
}
else if (scoreIM >= scoreMM && scoreIM >= scoreDM && scoreIM >= scoreEM && scoreIM >= scoreJM)
{
scoreBest = scoreIM;
TBM(uPrefixLengthA, uPrefixLengthB) = 'I';
}
else
{
assert(scoreJM >= scoreMM && scoreJM >= scoreDM && scoreJM >= scoreEM && scoreJM >= scoreIM);
scoreBest = scoreJM;
TBM(uPrefixLengthA, uPrefixLengthB) = 'J';
}
DPM(uPrefixLengthA, uPrefixLengthB) = scoreBest + scoreLL;
}
{
// Delete D=LetterA+GapB
SCORE scoreMD = DPM(uPrefixLengthA-1, uPrefixLengthB) +
PA[uPrefixLengthA-1].m_scoreGapOpen;
SCORE scoreDD = DPD(uPrefixLengthA-1, uPrefixLengthB) + g_scoreGapExtend.get();
SCORE scoreBest;
if (scoreMD >= scoreDD)
{
scoreBest = scoreMD;
TBD(uPrefixLengthA, uPrefixLengthB) = 'M';
}
else
{
assert(scoreDD >= scoreMD);
scoreBest = scoreDD;
TBD(uPrefixLengthA, uPrefixLengthB) = 'D';
}
DPD(uPrefixLengthA, uPrefixLengthB) = scoreBest;
}
{
// Delete E=LetterA+GapB
SCORE scoreME = DPM(uPrefixLengthA-1, uPrefixLengthB) +
PA[uPrefixLengthA-1].m_scoreGapOpen2;
SCORE scoreEE = DPE(uPrefixLengthA-1, uPrefixLengthB) + g_scoreGapExtend2.get();
SCORE scoreBest;
if (scoreME >= scoreEE)
{
scoreBest = scoreME;
TBE(uPrefixLengthA, uPrefixLengthB) = 'M';
}
else
{
assert(scoreEE >= scoreME);
scoreBest = scoreEE;
TBE(uPrefixLengthA, uPrefixLengthB) = 'E';
}
DPE(uPrefixLengthA, uPrefixLengthB) = scoreBest;
}
// Insert I=GapA+LetterB
{
SCORE scoreMI = DPM(uPrefixLengthA, uPrefixLengthB-1) +
PB[uPrefixLengthB - 1].m_scoreGapOpen;
SCORE scoreII = DPI(uPrefixLengthA, uPrefixLengthB-1) + g_scoreGapExtend.get();
SCORE scoreBest;
if (scoreMI >= scoreII)
{
scoreBest = scoreMI;
TBI(uPrefixLengthA, uPrefixLengthB) = 'M';
}
else
{
assert(scoreII > scoreMI);
scoreBest = scoreII;
TBI(uPrefixLengthA, uPrefixLengthB) = 'I';
}
DPI(uPrefixLengthA, uPrefixLengthB) = scoreBest;
}
// Insert J=GapA+LetterB
{
SCORE scoreMJ = DPM(uPrefixLengthA, uPrefixLengthB-1) +
PB[uPrefixLengthB - 1].m_scoreGapOpen2;
SCORE scoreJJ = DPJ(uPrefixLengthA, uPrefixLengthB-1) + g_scoreGapExtend2.get();
SCORE scoreBest;
if (scoreMJ >= scoreJJ)
{
scoreBest = scoreMJ;
TBJ(uPrefixLengthA, uPrefixLengthB) = 'M';
}
else
{
assert(scoreJJ > scoreMJ);
scoreBest = scoreJJ;
TBJ(uPrefixLengthA, uPrefixLengthB) = 'J';
}
DPJ(uPrefixLengthA, uPrefixLengthB) = scoreBest;
}
scoreGapCloseA = PPA.m_scoreGapClose;
scoreGapClose2A = PPA.m_scoreGapClose2;
}
scoreGapCloseB = PPB.m_scoreGapClose;
scoreGapClose2B = PPB.m_scoreGapClose2;
}
#if TRACE
Log("\n");
Log("DA Simple DPL:\n");
ListDP(DPL_, PA, PB, uPrefixCountA, uPrefixCountB);
Log("\n");
Log("DA Simple DPM:\n");
ListDP(DPM_, PA, PB, uPrefixCountA, uPrefixCountB);
Log("\n");
Log("DA Simple DPD:\n");
ListDP(DPD_, PA, PB, uPrefixCountA, uPrefixCountB);
Log("\n");
Log("DA Simple DPE:\n");
ListDP(DPE_, PA, PB, uPrefixCountA, uPrefixCountB);
Log("\n");
Log("DA Simple DPI:\n");
ListDP(DPI_, PA, PB, uPrefixCountA, uPrefixCountB);
Log("\n");
Log("DA Simple DPJ:\n");
ListDP(DPJ_, PA, PB, uPrefixCountA, uPrefixCountB);
Log("\n");
Log("DA Simple TBM:\n");
ListTB(TBM_, PA, PB, uPrefixCountA, uPrefixCountB);
Log("\n");
Log("DA Simple TBD:\n");
ListTB(TBD_, PA, PB, uPrefixCountA, uPrefixCountB);
Log("\n");
Log("DA Simple TBE:\n");
ListTB(TBE_, PA, PB, uPrefixCountA, uPrefixCountB);
Log("\n");
Log("DA Simple TBI:\n");
ListTB(TBI_, PA, PB, uPrefixCountA, uPrefixCountB);
Log("\n");
Log("DA Simple TBJ:\n");
ListTB(TBJ_, PA, PB, uPrefixCountA, uPrefixCountB);
#endif
// Trace-back
// ==========
Path.Clear();
// Find last edge
SCORE M = DPM(uLengthA, uLengthB);
SCORE D = DPD(uLengthA, uLengthB) + PA[uLengthA-1].m_scoreGapClose;
SCORE E = DPE(uLengthA, uLengthB) + PA[uLengthA-1].m_scoreGapClose2;
SCORE I = DPI(uLengthA, uLengthB) + PB[uLengthB-1].m_scoreGapClose;
SCORE J = DPJ(uLengthA, uLengthB) + PB[uLengthB-1].m_scoreGapClose2;
char cEdgeType = '?';
SCORE BestScore = M;
cEdgeType = 'M';
if (D > BestScore)
{
cEdgeType = 'D';
BestScore = D;
}
if (E > BestScore)
{
cEdgeType = 'E';
BestScore = E;
}
if (I > BestScore)
{
cEdgeType = 'I';
BestScore = I;
}
if (J > BestScore)
{
cEdgeType = 'J';
BestScore = J;
}
#if TRACE
Log("DA Simple: MAB=%.4g DAB=%.4g EAB=%.4g IAB=%.4g JAB=%.4g best=%c\n",
M, D, E, I, J, cEdgeType);
#endif
unsigned PLA = uLengthA;
unsigned PLB = uLengthB;
for (;;)
{
PWEdge Edge;
Edge.cType = XlatEdgeType(cEdgeType);
Edge.uPrefixLengthA = PLA;
Edge.uPrefixLengthB = PLB;
#if TRACE
Log("Prepend %c%d.%d\n", Edge.cType, PLA, PLB);
#endif
Path.PrependEdge(Edge);
switch (cEdgeType)
{
case 'M':
assert(PLA > 0);
assert(PLB > 0);
cEdgeType = TBM(PLA, PLB);
--PLA;
--PLB;
break;
case 'D':
assert(PLA > 0);
cEdgeType = TBD(PLA, PLB);
--PLA;
break;
case 'E':
assert(PLA > 0);
cEdgeType = TBE(PLA, PLB);
--PLA;
break;
case 'I':
assert(PLB > 0);
cEdgeType = TBI(PLA, PLB);
--PLB;
break;
case 'J':
assert(PLB > 0);
cEdgeType = TBJ(PLA, PLB);
--PLB;
break;
default:
Quit("Invalid edge %c", cEdgeType);
}
if (0 == PLA && 0 == PLB)
break;
}
Path.Validate();
// SCORE Score = TraceBack(PA, uLengthA, PB, uLengthB, DPM_, DPD_, DPI_, Path);
#if TRACE
SCORE scorePath = FastScorePath2(PA, uLengthA, PB, uLengthB, Path);
Path.LogMe();
Log("Score = %s Path = %s\n", LocalScoreToStr(BestScore), LocalScoreToStr(scorePath));
#endif
if (g_bKeepSimpleDP.get())
{
g_DPM.get() = DPM_;
g_DPD.get() = DPD_;
g_DPE.get() = DPE_;
g_DPI.get() = DPI_;
g_DPJ.get() = DPJ_;
g_TBM.get() = TBM_;
g_TBD.get() = TBD_;
g_TBE.get() = TBE_;
g_TBI.get() = TBI_;
g_TBJ.get() = TBJ_;
}
else
{
delete[] DPM_;
delete[] DPD_;
delete[] DPE_;
delete[] DPI_;
delete[] DPJ_;
delete[] TBM_;
delete[] TBD_;
delete[] TBE_;
delete[] TBI_;
delete[] TBJ_;
}
return BestScore;
}
static UINT16 i80286_far_return(i8086_state *cpustate, int iret, int bytes)
{
UINT16 sel, off, flags = 0;
int spaddr;
if (PM && NT && iret) {
i80286_switch_task(cpustate, ReadWord(cpustate->tr.base+TSS_BACK*2), IRET);
return cpustate->flags;
}
// must be restartable
if(PM) i80286_check_permission(cpustate, SS, cpustate->regs.w[SP], (iret?6:4), I80286_READ);
spaddr = (cpustate->base[SS] + cpustate->regs.w[SP]) & AMASK;
off = ReadWord(spaddr);
sel = ReadWord(spaddr+2);
if(iret) flags = ReadWord(spaddr+4);
if(PM) {
UINT16 desc[3], newsp, newss;
int addr, r;
if ((addr = i80286_selector_address(cpustate,sel)) == -1)
throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(sel));
if (RPL(sel)<CPL) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(sel));
desc[0] = ReadWord(addr);
desc[1] = ReadWord(addr+2);
desc[2] = ReadWord(addr+4);
r = RIGHTS(desc);
if (!CODE(r) || !SEGDESC(r)) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(sel));
if (CONF(r)) { if(DPL(r)>RPL(sel)) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(sel)); }
else if (DPL(r)!=RPL(sel)) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(sel));
if (!PRES(r)) throw TRAP(SEG_NOT_PRESENT,IDXTBL(sel));
if (off > LIMIT(desc)) throw TRAP(GENERAL_PROTECTION_FAULT,0);
if (CPL<RPL(sel)) {
i80286_check_permission(cpustate, SS, cpustate->regs.w[SP]+(iret?6:4)+bytes, 4, I80286_READ);
newsp = ReadWord(spaddr+((iret?6:4)+bytes));
newss = ReadWord(spaddr+((iret?8:6)+bytes));
i80286_data_descriptor_full(cpustate, SS, newss, RPL(sel), TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(newss)), 0, 0);
cpustate->regs.w[SP] = newsp + bytes;
} else cpustate->regs.w[SP] += (iret?6:4) + bytes;
SET_ACC(desc);
WriteWord(addr+4, desc[2]);
cpustate->sregs[CS]=sel;
cpustate->limit[CS]=LIMIT(desc);
cpustate->base[CS]=BASE(desc);
cpustate->rights[CS]=RIGHTS(desc);
cpustate->pc=(cpustate->base[CS]+off)&AMASK;
// docs say check rpl but windows doesn't like it
r = cpustate->rights[DS];
if (i80286_verify(cpustate, cpustate->sregs[DS], I80286_READ, r, 0) || (CODE(r) && CONF(r) ? 0 : (DPL(r) < CPL)))
i80286_data_descriptor(cpustate, DS, 0);
r = cpustate->rights[ES];
if (i80286_verify(cpustate, cpustate->sregs[ES], I80286_READ, r, 0) || (CODE(r) && CONF(r) ? 0 : (DPL(r) < CPL)))
i80286_data_descriptor(cpustate, ES, 0);
} else {
cpustate->regs.w[SP] += (iret?6:4) + bytes;
cpustate->sregs[CS]=sel;
cpustate->base[CS]=sel<<4;
cpustate->rights[CS]=0x9a;
cpustate->limit[CS]=0xffff;
cpustate->pc=(cpustate->base[CS]+off)&AMASK;
}
CHANGE_PC(cpustate->pc);
return flags;
}
static void PREFIX286(_0fpre)(i8086_state *cpustate)
{
unsigned next = FETCHOP;
UINT16 ModRM, desc[3];
UINT16 tmp, msw, sel;
UINT8 r;
UINT32 addr;
switch (next) {
case 0:
if (!PM) throw TRAP(ILLEGAL_INSTRUCTION,-1);
ModRM=FETCHOP;
switch (ModRM&0x38) {
case 0: /* sldt */
PutRMWord(ModRM, cpustate->ldtr.sel);
break;
case 8: /* str */
PutRMWord(ModRM, cpustate->tr.sel);
break;
case 0x10: /* lldt */
if (CPL!=0) throw TRAP(GENERAL_PROTECTION_FAULT,0);
sel=GetRMWord(ModRM);
if (TBL(sel)) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(sel));
if (IDXTBL(sel)) {
if (IDX(sel)>=cpustate->gdtr.limit) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(sel));
addr = cpustate->gdtr.base + IDX(sel);
desc[0] = ReadWord(addr);
desc[1] = ReadWord(addr+2);
desc[2] = ReadWord(addr+4);
r = RIGHTS(desc);
if (SEGDESC(r) || (GATE(r) != LDTDESC)) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(sel));
if (!PRES(r)) throw TRAP(SEG_NOT_PRESENT,IDXTBL(sel));
} else {
desc[0] = 0;
desc[1] = 0;
desc[2] = 0;
}
cpustate->ldtr.sel=sel;
cpustate->ldtr.limit=LIMIT(desc);
cpustate->ldtr.base=BASE(desc);
cpustate->ldtr.rights=RIGHTS(desc);
break;
case 0x18: /* ltr */
if (CPL!=0) throw TRAP(GENERAL_PROTECTION_FAULT,0);
sel=GetRMWord(ModRM);
if ((addr = i80286_selector_address(cpustate,sel)) == -1) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(sel));
desc[0] = ReadWord(addr);
desc[1] = ReadWord(addr+2);
desc[2] = ReadWord(addr+4);
r = RIGHTS(desc);
if (SEGDESC(r) || (GATE(r) != TSSDESCIDLE)) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(sel));
if (!PRES(r)) throw TRAP(SEG_NOT_PRESENT,IDXTBL(sel));
desc[2] |= 0x200; // mark busy
WriteWord(addr+4, desc[2]);
cpustate->tr.sel=sel;
cpustate->tr.limit=LIMIT(desc);
cpustate->tr.base=BASE(desc);
cpustate->tr.rights=RIGHTS(desc);
break;
case 0x20: /* verr */
tmp=GetRMWord(ModRM);
if ((addr = i80286_selector_address(cpustate,tmp)) == -1) cpustate->ZeroVal = 1;
else {
desc[2] = ReadWord(addr+4);
r = RIGHTS(desc);
cpustate->ZeroVal = i80286_verify(cpustate, tmp, I80286_READ, RIGHTS(desc), 0);
cpustate->ZeroVal = cpustate->ZeroVal || (CODE(r) && CONF(r) ? 0 : (DPL(r)<PMAX(RPL(tmp),CPL)));
}
break;
case 0x28: /* verw */
tmp=GetRMWord(ModRM);
if ((addr = i80286_selector_address(cpustate,tmp)) == -1) cpustate->ZeroVal = 1;
else {
desc[2] = ReadWord(addr+4);
r = RIGHTS(desc);
cpustate->ZeroVal = i80286_verify(cpustate, tmp, I80286_WRITE, RIGHTS(desc), 0);
cpustate->ZeroVal = cpustate->ZeroVal || (DPL(r)<PMAX(RPL(tmp),CPL));
}
break;
default:
throw TRAP(ILLEGAL_INSTRUCTION,-1);
break;
}
break;
case 1:
/* lgdt, lldt in protected mode privilege level 0 required else common protection
failure 0xd */
ModRM = FETCHOP;
switch (ModRM&0x38) {
case 0: /* sgdt */
PutRMWord(ModRM,cpustate->gdtr.limit);
PutRMWordOffset(2,cpustate->gdtr.base&0xffff);
PutRMWordOffset(4,0xff00|cpustate->gdtr.base>>16);
break;
case 8: /* sidt */
PutRMWord(ModRM,cpustate->idtr.limit);
PutRMWordOffset(2,cpustate->idtr.base&0xffff);
PutRMWordOffset(4,0xff00|cpustate->idtr.base>>16);
break;
case 0x10: /* lgdt */
if (PM&&(CPL!=0)) throw TRAP(GENERAL_PROTECTION_FAULT,0);
cpustate->gdtr.limit=GetRMWord(ModRM);
cpustate->gdtr.base=GetRMWordOffset(2)|(GetRMByteOffset(4)<<16);
break;
case 0x18: /* lidt */
if (PM&&(CPL!=0)) throw TRAP(GENERAL_PROTECTION_FAULT,0);
cpustate->idtr.limit=GetRMWord(ModRM);
cpustate->idtr.base=GetRMWordOffset(2)|(GetRMByteOffset(4)<<16);
break;
case 0x20: /* smsw */
PutRMWord(ModRM, cpustate->msw);
break;
case 0x30: /* lmsw */
if (PM&&(CPL!=0)) throw TRAP(GENERAL_PROTECTION_FAULT,0);
msw = GetRMWord(ModRM);
if (!PM&&(msw&1)) cpustate->sregs[CS] = IDX(cpustate->sregs[CS]); // cheat and set cpl to 0
cpustate->msw=(cpustate->msw&1)|msw;
break;
default:
throw TRAP(ILLEGAL_INSTRUCTION,-1);
break;
}
break;
case 2: /* LAR */
if (!PM) throw TRAP(ILLEGAL_INSTRUCTION,-1);
ModRM = FETCHOP;
tmp=GetRMWord(ModRM);
if ((addr = i80286_selector_address(cpustate,tmp)) == -1) cpustate->ZeroVal = 1;
else {
desc[2] = ReadWord(addr+4);
r = RIGHTS(desc);
if (DPL(r)>=PMAX(RPL(tmp),CPL)) {
cpustate->ZeroVal = 0;
// rights are expected to be in upper byte
RegWord(ModRM) = r << 8;
}
else
cpustate->ZeroVal = 1;
}
break;
case 3: /* LSL */
if (!PM) throw TRAP(ILLEGAL_INSTRUCTION,-1);
ModRM = FETCHOP;
tmp=GetRMWord(ModRM);
if ((addr = i80286_selector_address(cpustate,tmp)) == -1) cpustate->ZeroVal = 1;
else {
desc[2] = ReadWord(addr+4);
r = RIGHTS(desc);
if (!SEGDESC(r) && (GATE(r) >= CALLGATE)) cpustate->ZeroVal = 1; // not valid for gates
else if (DPL(r)>=PMAX(RPL(tmp),CPL)) {
cpustate->ZeroVal = 0;
RegWord(ModRM) = ReadWord(addr);
}
else
cpustate->ZeroVal = 1;
}
break;
case 5: /* loadall */
if (PM&&(CPL!=0)) throw TRAP(GENERAL_PROTECTION_FAULT,0);
cpustate->msw = (cpustate->msw&1)|ReadWord(0x806);
cpustate->tr.sel = ReadWord(0x816);
tmp = ReadWord(0x818);
ExpandFlags(tmp);
cpustate->flags = tmp;
cpustate->flags = CompressFlags();
cpustate->pc = ReadWord(0x81a);
cpustate->ldtr.sel = ReadWord(0x81c);
cpustate->sregs[DS] = ReadWord(0x81e);
cpustate->sregs[SS] = ReadWord(0x820);
cpustate->sregs[CS] = ReadWord(0x822);
cpustate->sregs[ES] = ReadWord(0x824);
cpustate->regs.w[DI] = ReadWord(0x826);
cpustate->regs.w[SI] = ReadWord(0x828);
cpustate->regs.w[BP] = ReadWord(0x82a);
cpustate->regs.w[SP] = ReadWord(0x82c);
cpustate->regs.w[BX] = ReadWord(0x82e);
cpustate->regs.w[DX] = ReadWord(0x830);
cpustate->regs.w[CX] = ReadWord(0x832);
cpustate->regs.w[AX] = ReadWord(0x834);
// loadall uses base-rights-limit order
#define LOADDESC(addr, sreg) { desc[1] = ReadWord(addr); desc[2] = ReadWord(addr+2); desc[0] = ReadWord(addr+4); \
cpustate->base[sreg] = BASE(desc); cpustate->rights[sreg] = RIGHTS(desc); \
cpustate->limit[sreg] = LIMIT(desc); }
LOADDESC(0x836, ES);
LOADDESC(0x83C, CS);
LOADDESC(0x842, SS);
LOADDESC(0x848, DS);
#undef LOADDESC
// void cast supresses warning
#define LOADDESC(addr, reg, r) { desc[1] = ReadWord(addr); desc[2] = ReadWord(addr+2); desc[0] = ReadWord(addr+4); \
cpustate->reg.base = BASE(desc); (void)(r); cpustate->reg.limit = LIMIT(desc); }
LOADDESC(0x84e, gdtr, 1);
LOADDESC(0x854, ldtr, cpustate->ldtr.rights = RIGHTS(desc));
LOADDESC(0x85a, idtr, 1);
LOADDESC(0x860, tr, cpustate->tr.rights = RIGHTS(desc));
#undef LOADDESC
cpustate->pc = (cpustate->pc + cpustate->base[CS]) & AMASK;
CHANGE_PC(cpustate->pc);
break;
case 6: /* clts */
if (PM&&(CPL!=0)) throw TRAP(GENERAL_PROTECTION_FAULT,0);
cpustate->msw&=~8;
break;
default:
throw TRAP(ILLEGAL_INSTRUCTION,-1);
break;
}
}
static void i80286_interrupt_descriptor(i80286_state *cpustate,UINT16 number, int hwint, int error)
{
UINT16 desc[3], gatedesc[3]={0,0,0}, gatesel;
UINT8 r;
UINT32 addr;
if(!PM) return PREFIX86(_interrupt)(cpustate, number);
if ((number<<3)>=cpustate->idtr.limit)
throw TRAP(GENERAL_PROTECTION_FAULT,(number*8+2+(hwint&&1)));
desc[0] = ReadWord(cpustate->idtr.base+(number<<3));
desc[1] = ReadWord(cpustate->idtr.base+(number<<3)+2);
desc[2] = ReadWord(cpustate->idtr.base+(number<<3)+4);
r = RIGHTS(desc);
if (!hwint && (DPL(r)<CPL)) throw TRAP(GENERAL_PROTECTION_FAULT,(number*8+2+(hwint&&1)));
if (!PRES(r)) throw TRAP(SEG_NOT_PRESENT,(number*8+2+(hwint&&1)));
gatesel = GATESEL(desc);
switch (GATE(r)) {
case TASKGATE:
i80286_switch_task(cpustate, gatesel, CALL);
if((hwint == 1) && (error != -1)) PUSH(error);
i80286_load_flags(cpustate, cpustate->flags, CPL);
break;
case INTGATE:
case TRAPGATE:
if ((addr = i80286_selector_address(cpustate,gatesel)) == -1)
throw TRAP(GENERAL_PROTECTION_FAULT,(IDXTBL(gatesel)+(hwint&&1)));
gatedesc[0] = ReadWord(addr);
gatedesc[1] = ReadWord(addr+2);
gatedesc[2] = ReadWord(addr+4);
r = RIGHTS(gatedesc);
if (!CODE(r) || !SEGDESC(r)) throw TRAP(GENERAL_PROTECTION_FAULT,(IDXTBL(gatesel)+(hwint&&1)));
if (DPL(r)>CPL) throw TRAP(GENERAL_PROTECTION_FAULT,(IDXTBL(gatesel)+(hwint&&1)));
if (!PRES(r)) throw TRAP(SEG_NOT_PRESENT,(IDXTBL(gatesel)+(hwint&&1)));
if (GATEOFF(desc) > LIMIT(gatedesc)) throw TRAP(GENERAL_PROTECTION_FAULT,(int)(hwint&&1));
if (!CONF(r)&&(DPL(r)<CPL)) { // inner call
UINT16 tss_ss, tss_sp, oldss, oldsp;
tss_ss = ReadWord(cpustate->tr.base+TSS_SS0*2+(DPL(r)*4));
tss_sp = ReadWord(cpustate->tr.base+TSS_SP0*2+(DPL(r)*4));
oldss = cpustate->sregs[SS];
oldsp = cpustate->regs.w[SP];
i80286_data_descriptor_full(cpustate, SS, tss_ss, DPL(r), TRAP(INVALID_TSS,(IDXTBL(tss_ss)+(hwint&&1))), tss_sp-((error != -1)?12:10), (error != -1)?12:10);
cpustate->regs.w[SP] = tss_sp;
PUSH(oldss);
PUSH(oldsp);
} else i80286_check_permission(cpustate, SS, cpustate->regs.w[SP]-((error != -1)?8:6), (error != -1)?8:6, I80286_READ);
SET_ACC(gatedesc);
WriteWord(addr+4, gatedesc[2]);
PREFIX(_pushf(cpustate));
PUSH(cpustate->sregs[CS]);
PUSH(cpustate->pc-cpustate->base[CS]);
if((hwint == 1) && (error != -1)) PUSH(error);
cpustate->sregs[CS]=IDXTBL(gatesel) | DPL(r);
cpustate->limit[CS]=LIMIT(gatedesc);
cpustate->base[CS]=BASE(gatedesc);
cpustate->rights[CS]=RIGHTS(gatedesc);
cpustate->pc=(cpustate->base[CS]+GATEOFF(desc))&AMASK;
cpustate->TF = 0;
cpustate->flags &= ~0x4000;
if (GATE(RIGHTS(desc)) == INTGATE) cpustate->IF = 0;
CHANGE_PC(cpustate->pc);
break;
default:
throw TRAP(GENERAL_PROTECTION_FAULT,(number*8+2+(hwint&&1)));
}
}
static void i80286_code_descriptor(i80286_state *cpustate, UINT16 selector, UINT16 offset, int gate)
{
if (PM) {
UINT16 desc[3];
UINT8 r;
UINT32 addr;
/* selector format
15..3 number/address in descriptor table
2: 0 global, 1 local descriptor table
1,0: requested privileg level
must be higher or same as current privileg level in code selector */
if ((addr = i80286_selector_address(cpustate,selector)) == -1) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(selector));
desc[0] = ReadWord(addr);
desc[1] = ReadWord(addr+2);
desc[2] = ReadWord(addr+4);
r = RIGHTS(desc);
if (SEGDESC(r)) {
if (!CODE(r)) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(selector));
if (CONF(r)) { if(DPL(r)>CPL) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(selector)); }
else if ((RPL(selector)>CPL) || (DPL(r)!=CPL)) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(selector));
if (!PRES(r)) throw TRAP(SEG_NOT_PRESENT,IDXTBL(selector)); // this order is important
if (offset > LIMIT(desc)) throw TRAP(GENERAL_PROTECTION_FAULT, 0);
SET_ACC(desc);
WriteWord(addr+4, desc[2]);
cpustate->sregs[CS]=IDXTBL(selector) | CPL;
cpustate->limit[CS]=LIMIT(desc);
cpustate->base[CS]=BASE(desc);
cpustate->rights[CS]=RIGHTS(desc);
cpustate->pc=cpustate->base[CS]+offset;
} else { // systemdescriptor
UINT16 gatedesc[3]={0,0,0};
UINT16 gatesel = GATESEL(desc);
if (!gate) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(selector)); // tss cs must be segment
if (DPL(r) < PMAX(CPL,RPL(selector))) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(selector));
if (!PRES(r)) throw TRAP(SEG_NOT_PRESENT, IDXTBL(selector));
switch (GATE(r)) {
case CALLGATE:
if ((addr = i80286_selector_address(cpustate,gatesel)) == -1)
throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(gatesel));
gatedesc[0] = ReadWord(addr);
gatedesc[1] = ReadWord(addr+2);
gatedesc[2] = ReadWord(addr+4);
r = RIGHTS(gatedesc);
if (!CODE(r) || !SEGDESC(r)) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(gatesel));
if (DPL(r)>CPL) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(gatesel));
if (!PRES(r)) throw TRAP(SEG_NOT_PRESENT,IDXTBL(gatesel));
if (GATEOFF(desc) > LIMIT(gatedesc)) throw TRAP(GENERAL_PROTECTION_FAULT,0);
if (!CONF(r)&&(DPL(r)<CPL)) { // inner call
UINT16 tss_ss, tss_sp, oldss, oldsp;
UINT32 oldstk;
int i;
if(gate == JMP) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(gatesel)); // can't jmp to inner
tss_ss = ReadWord(cpustate->tr.base+TSS_SS0*2+(DPL(r)*4));
tss_sp = ReadWord(cpustate->tr.base+TSS_SP0*2+(DPL(r)*4));
oldss = cpustate->sregs[SS];
oldsp = cpustate->regs.w[SP];
oldstk = cpustate->base[SS] + oldsp;
i80286_data_descriptor_full(cpustate, SS, tss_ss, DPL(r), TRAP(INVALID_TSS,IDXTBL(tss_ss)), tss_sp-8-(GATECNT(desc)*2), 8+(GATECNT(desc)*2));
cpustate->regs.w[SP] = tss_sp;
PUSH(oldss);
PUSH(oldsp);
for (i = GATECNT(desc)-1; i >= 0; i--)
PUSH(ReadWord(oldstk+(i*2)));
} else i80286_check_permission(cpustate, SS, cpustate->regs.w[SP]-4, 4, I80286_READ);
SET_ACC(gatedesc);
WriteWord(addr+4, gatedesc[2]);
cpustate->sregs[CS]=IDXTBL(gatesel) | DPL(r);
cpustate->limit[CS]=LIMIT(gatedesc);
cpustate->base[CS]=BASE(gatedesc);
cpustate->rights[CS]=RIGHTS(gatedesc);
cpustate->pc=(cpustate->base[CS]+GATEOFF(desc))&AMASK;
break;
case TASKGATE:
selector = gatesel;
if ((addr = i80286_selector_address(cpustate,selector)) == -1)
throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(selector));
desc[2] = ReadWord(addr+4);
r = RIGHTS(desc);
if (SEGDESC(r) || (GATE(r) != TSSDESCIDLE)) throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(selector));
case TSSDESCIDLE:
i80286_switch_task(cpustate, selector, gate);
i80286_load_flags(cpustate, cpustate->flags, CPL);
break;
default:
throw TRAP(GENERAL_PROTECTION_FAULT,IDXTBL(selector));
}
}
} else {
cpustate->sregs[CS]=selector;
cpustate->base[CS]=selector<<4;
cpustate->rights[CS]=0x9a;
cpustate->limit[CS]=0xffff;
cpustate->pc=(cpustate->base[CS]+offset)&AMASK;
}
}
