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thermosphere: more sysreg code

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This commit is contained in:
TuxSH 2019-07-25 17:50:15 +02:00
parent ffa216c8c7
commit 68469ea862
3 changed files with 121 additions and 11 deletions
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42
thermosphere/src/exceptions.c
View file

@ -17,6 +17,30 @@
#include "hvc.h"
#include "log.h"
bool spsrEvaluateConditionCode(u64 spsr, u32 conditionCode)
{
if (conditionCode == 14) {
// AL
return true;
} else if (conditionCode == 15) {
// Invalid encoding
return false;
}
// NZCV
bool n = (spsr & BIT(31)) != 0;
bool z = (spsr & BIT(30)) != 0;
bool c = (spsr & BIT(29)) != 0;
bool v = (spsr & BIT(28)) != 0;
bool tableHalf[] = {
// EQ, CS, MI, VS, HI, GE, GT
z, c, n, v, c && !z, n == v, !z && n == v,
};
return (conditionCode & 1) == 0 ? tableHalf[conditionCode / 2] : !tableHalf[conditionCode / 2];
}
void dumpStackFrame(const ExceptionStackFrame *frame, bool sameEl)
{
#ifndef NDEBUG
@ -36,6 +60,24 @@ void dumpStackFrame(const ExceptionStackFrame *frame, bool sameEl)
#endif
}
static void advanceItState(ExceptionStackFrame *frame)
{
if (!spsrIsThumb(frame->spsr_el2) || spsrGetT32ItFlags(frame->spsr_el2) == 0) {
return;
}
u32 it = spsrGetT32ItFlags(frame->spsr_el2);
// Last instruction of the block => wipe, otherwise advance
spsrSetT32ItFlags(&frame->spsr_el2, (it & 7) == 0 ? 0 : (it & 0xE0) | ((it << 1) & 0x1F));
}
void skipFaultingInstruction(ExceptionStackFrame *frame, u32 size)
{
advanceItState(frame);
frame->elr_el2 += size;
}
void handleLowerElSyncException(ExceptionStackFrame *frame, ExceptionSyndromeRegister esr)
{

25
thermosphere/src/exceptions.h
View file

@ -79,4 +79,29 @@ typedef struct ExceptionSyndromeRegister {
u32 res0 : 32;
} ExceptionSyndromeRegister;
static inline bool spsrIsA32(u64 spsr)
{
return (spsr & 0x10) != 0;
}
static inline bool spsrIsThumb(u64 spsr)
{
return spsrIsA32(spsr) && (spsr & 0x20) != 0;
}
static inline u32 spsrGetT32ItFlags(u64 spsr)
{
return (((spsr >> 10) & 0x3F) << 2) | ((spsr >> 25) & 3);
}
static inline void spsrSetT32ItFlags(u64 *spsr, u32 itFlags)
{
static const u32 itMask = (0x3F << 10) | (3 << 25);
*spsr &= ~itMask;
*spsr |= (itFlags & 3) << 25;
*spsr |= ((itFlags >> 2) & 0x3F) << 10;
}
bool spsrEvaluateConditionCode(u64 spsr, u32 conditionCode);
void skipFaultingInstruction(ExceptionStackFrame *frame, u32 size);
void dumpStackFrame(const ExceptionStackFrame *frame, bool sameEl);

65
thermosphere/src/sysreg_traps.c
View file

@ -19,7 +19,7 @@
#include "sysreg.h"
// For a32 mcr/mrc => a64 mrs
u32 convertMcrMrcIss(u32 *outCondition, u32 a32Iss, u32 coproc, u32 el)
static u32 convertMcrMrcIss(u32 *outCondition, bool *outCondValid, u32 a32Iss, u32 coproc, u32 el)
{
// NOTE: MCRR / MRRC do NOT map for the most part and need to be handled separately
@ -30,9 +30,8 @@ u32 convertMcrMrcIss(u32 *outCondition, u32 a32Iss, u32 coproc, u32 el)
u32 CRn = (a32Iss >> 10) & 15;
//u32 Rt = (a32Iss >> 5) & 31;
//u32 CRm = (a32Iss >> 1) & 15;
bool condValid = (a32Iss & BIT(24)) != 0;
*outCondition = condValid ? ((a32Iss >> 20) & 15): 14; // use "unconditional" by default
*outCondValid = (a32Iss & BIT(24)) != 0;
*outCondition = (a32Iss >> 20) & 15;
u32 op0 = (16 - coproc) & 3;
u32 op1;
@ -82,6 +81,17 @@ u32 convertMcrMrcIss(u32 *outCondition, u32 a32Iss, u32 coproc, u32 el)
return (a32Iss & ~(MASK2(24, 20) | MASK2(16, 14))) | (op0 << 20) | (op1 << 14);
}
static bool evaluateMcrMrcCondition(u64 spsr, u32 condition, bool condValid)
{
if (!condValid) {
// Only T32 instructions can do that
u32 it = spsrGetT32ItFlags(spsr);
return it == 0 || spsrEvaluateConditionCode(spsr, it >> 4);
} else {
return spsrEvaluateConditionCode(spsr, condition);
}
}
static void doSystemRegisterRwImpl(u64 *val, u32 iss)
{
u32 op0 = (iss >> 20) & 3;
@ -109,7 +119,10 @@ void doSystemRegisterRead(ExceptionStackFrame *frame, u32 iss, u32 reg1, u32 reg
{
// reg1 != reg2: mrrc/mcrr
u64 val = 0;
doSystemRegisterRwImpl(&val, iss | 1);
iss &= ~((0x1F << 5) | 1);
doSystemRegisterRwImpl(&val, iss);
if (reg1 == reg2) {
frame->x[reg1] = val;
} else {
@ -117,22 +130,52 @@ void doSystemRegisterRead(ExceptionStackFrame *frame, u32 iss, u32 reg1, u32 reg
frame->x[reg2] = val >> 32;
}
// Sysreg access are always 4 bit in length even for Aarch32
frame->elr_el2 += 4;
skipFaultingInstruction(frame, 4);
}
void doSystemRegisterWrite(ExceptionStackFrame *frame, u32 iss, u32 reg1, u32 reg2)
{
// reg1 != reg2: mrrc/mcrr
u64 val = frame->x[reg1];
iss &= ~((0x1F << 5) | 1);
if (reg1 != reg2) {
val = (val << 32) >> 32;
val |= frame->x[reg2] << 32;
}
doSystemRegisterRwImpl(&val, iss & ~1);
// Sysreg access are always 4 bit in length even for Aarch32
frame->elr_el2 += 4;
doSystemRegisterRwImpl(&val, iss);
skipFaultingInstruction(frame, 4);
}
void handleMsrMrsTrap(ExceptionStackFrame *frame, ExceptionSyndromeRegister esr)
{
u32 iss = esr.iss;
u32 reg = (iss >> 5) & 31;
bool isRead = (iss & 1) != 0;
if (isRead) {
doSystemRegisterRead(frame, iss, reg, reg);
} else {
doSystemRegisterWrite(frame, iss, reg, reg);
}
}
void handleMcrMrcTrap(ExceptionStackFrame *frame, ExceptionSyndromeRegister esr)
{
u32 condition;
bool condValid;
u32 coproc = esr.ec == Exception_CP14RTTrap ? 14 : 15;
// EL0 if User Mode else EL1
esr.iss = convertMcrMrcIss(&condition, &condValid, esr.iss, coproc, (frame->spsr_el2 & 0xF) == 0 ? 0 : 1);
if (esr.iss & BIT(31)) {
// Error, we shouldn't have trapped those in first place anyway.
return;
} else if (!evaluateMcrMrcCondition(frame->spsr_el2, condition, condValid)) {
return;
}
handleMsrMrsTrap(frame, esr);
}