More JSystem borrowing (#383)

This commit is contained in:
hatal175
2023-07-24 01:30:24 +03:00
committed by GitHub
parent 6d9f00cb46
commit cb8bf4a489
24 changed files with 709 additions and 771 deletions
+18 -141
View File
@@ -19,96 +19,10 @@
// Forward References:
//
extern "C" void ctor_subroutine__10JFWDisplayFb();
extern "C" void __ct__10JFWDisplayFP7JKRHeapQ26JUTXfb10EXfbNumberb();
extern "C" void __dt__10JFWDisplayFv();
extern "C" void createManager__10JFWDisplayFPC16_GXRenderModeObjP7JKRHeapQ26JUTXfb10EXfbNumberb();
extern "C" static void callDirectDraw__Fv();
extern "C" void prepareCopyDisp__10JFWDisplayFv();
extern "C" void drawendXfb_single__10JFWDisplayFv();
extern "C" void exchangeXfb_double__10JFWDisplayFv();
extern "C" void exchangeXfb_triple__10JFWDisplayFv();
extern "C" void copyXfb_triple__10JFWDisplayFv();
extern "C" void preGX__10JFWDisplayFv();
extern "C" void endGX__10JFWDisplayFv();
extern "C" void beginRender__10JFWDisplayFv();
extern "C" void endRender__10JFWDisplayFv();
extern "C" void endFrame__10JFWDisplayFv();
extern "C" void waitBlanking__10JFWDisplayFi();
extern "C" static void waitForTick__FUlUs();
extern "C" static void JFWThreadAlarmHandler__FP7OSAlarmP9OSContext();
extern "C" void threadSleep__10JFWDisplayFx();
extern "C" void clearEfb_init__10JFWDisplayFv();
extern "C" void clearEfb__10JFWDisplayFv();
extern "C" void clearEfb__10JFWDisplayF8_GXColor();
extern "C" void clearEfb__10JFWDisplayFiiii8_GXColor();
extern "C" void calcCombinationRatio__10JFWDisplayFv();
extern "C" static void JFWDrawDoneAlarm__Fv();
extern "C" static void JFWGXAbortAlarmHandler__FP7OSAlarmP9OSContext();
extern "C" static void diagnoseGpHang__Fv();
extern "C" void __sinit_JFWDisplay_cpp();
extern "C" void func_80273724(void* _this);
extern "C" extern char const* const JFWDisplay__stringBase0;
extern "C" u8 sList__8JFWAlarm[12];
extern "C" u8 sManager__10JFWDisplay[4];
//
// External References:
//
extern "C" void* __nw__FUl();
extern "C" void __dl__FPv();
extern "C" void __ct__10JSUPtrLinkFPv();
extern "C" void __dt__10JSUPtrLinkFv();
extern "C" void __ct__10JSUPtrListFb();
extern "C" void __dt__10JSUPtrListFv();
extern "C" void append__10JSUPtrListFP10JSUPtrLink();
extern "C" void remove__10JSUPtrListFP10JSUPtrLink();
extern "C" void flush__10JUTDbPrintFv();
extern "C" void changeFrameBuffer__14JUTDirectPrintFPvUsUs();
extern "C" void flushMessage__12JUTAssertionFv();
extern "C" void flushMessage_dbPrint__12JUTAssertionFv();
extern "C" void drawDoneStart__8JUTVideoFv();
extern "C" void dummyNoDrawWait__8JUTVideoFv();
extern "C" void setRenderMode__8JUTVideoFPC16_GXRenderModeObj();
extern "C" void waitRetraceIfNeed__8JUTVideoFv();
extern "C" void createManager__6JUTXfbFP7JKRHeapQ26JUTXfb10EXfbNumber();
extern "C" void destroyManager__6JUTXfbFv();
extern "C" void control__8JUTFaderFv();
extern "C" void create__10JUTProcBarFv();
extern "C" void destroy__10JUTProcBarFv();
extern "C" void clear__10JUTProcBarFv();
extern "C" void draw__10JUTProcBarFv();
extern "C" void draw__17JUTConsoleManagerCFv();
extern "C" void __ct__13J2DOrthoGraphFffffff();
extern "C" void setPort__13J2DOrthoGraphFv();
extern "C" void VIFlush();
extern "C" void GXClearVtxDesc();
extern "C" void GXInvalidateVtxCache();
extern "C" void GXAbortFrame();
extern "C" void GXSetDrawDone();
extern "C" void GXDrawDone();
extern "C" void GXPixModeSync();
extern "C" void GXInvalidateTexAll();
extern "C" void __register_global_object();
extern "C" void _savegpr_24();
extern "C" void _savegpr_28();
extern "C" void _savegpr_29();
extern "C" void _restgpr_24();
extern "C" void _restgpr_28();
extern "C" void _restgpr_29();
extern "C" void __cvt_dbl_usll();
extern "C" extern void* __vt__14J2DGrafContext[10];
extern "C" extern void* __vt__13J2DOrthoGraph[10];
extern "C" u8 sDebugPrint__10JUTDbPrint[4 + 4 /* padding */];
extern "C" u8 sDirectPrint__14JUTDirectPrint[4 + 4 /* padding */];
extern "C" u8 sManager__8JUTVideo[4];
extern "C" u8 sVideoLastTick__8JUTVideo[4];
extern "C" u8 sVideoInterval__8JUTVideo[4];
extern "C" u8 sManager__6JUTXfb[4 + 4 /* padding */];
extern "C" u8 sManager__10JUTProcBar[4];
extern "C" u8 sManager__17JUTConsoleManager[4];
//
// Declarations:
//
@@ -141,14 +55,14 @@ void JFWDisplay::ctor_subroutine(bool enableAlpha) {
/* ############################################################################################## */
/* 803C4020-803C4060 021140 0030+10 1/1 0/0 0/0 .data e_mtx */
SECTION_DATA static Mtx e_mtx ALIGN_DECL(32) = {
static Mtx e_mtx ALIGN_DECL(32) = {
{1.0f, 0.0f, 0.0f, 0.0f},
{0.0f, 1.0f, 0.0f, 0.0f},
{0.0f, 0.0f, 1.0f, 0.0f},
};
/* 803C4060-803C40A0 021180 0040+00 1/1 0/0 0/0 .data clear_z_TX */
SECTION_DATA static u8 clear_z_TX[64] ALIGN_DECL(32) = {
static u8 clear_z_TX[64] ALIGN_DECL(32) = {
0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF,
0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF,
0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF,
@@ -483,7 +397,6 @@ void JFWDisplay::waitBlanking(int param_0) {
}
}
#ifdef NONMATCHING
/* ############################################################################################## */
/* 804511D0-804511D4 0006D0 0004+00 1/1 0/0 0/0 .sbss nextTick$2642 */
static OSTime nextTick ALIGN_DECL(8);
@@ -498,64 +411,28 @@ static u32 nextCount;
static s8 data_804511E0;
/* 80272CB0-80272DD0 26D5F0 0120+00 2/2 0/0 0/0 .text waitForTick__FUlUs */
static void waitForTick(u32 param_0, u16 param_1) {
if (param_0 != 0) {
if (!data_804511D8) {
nextTick = OSGetTime();
data_804511D8 = true;
static void waitForTick(u32 p1, u16 p2) {
if (p1 != 0) {
static s64 nextTick = OSGetTime();
s64 time = OSGetTime();
while (time < nextTick) {
JFWDisplay::getManager()->threadSleep((nextTick - time));
time = OSGetTime();
}
while (OSGetTime() < nextTick) {
JFWDisplay::getManager()->threadSleep(nextTick - param_0);
}
nextTick += param_0;
} else {
if (!data_804511E0) {
nextCount = VIGetRetraceCount();
data_804511E0 = true;
}
int uvar4 = 1;
if (param_1 != 0) {
uvar4 = param_1;
}
nextTick = time + p1;
}
else {
static u32 nextCount = VIGetRetraceCount();
u32 uVar1 = (p2 == 0) ? 1 : p2;
OSMessage msg;
do {
if (!OSReceiveMessage(JUTVideo::getManager()->getMessageQueue(), &msg,
OS_MESSAGE_BLOCK)) {
msg = NULL;
if (!OSReceiveMessage(JUTVideo::getManager()->getMessageQueue(), &msg, OS_MESSAGE_BLOCK)) {
msg = 0;
}
} while ((int)msg - nextCount > 0);
nextCount = (int)msg + uvar4;
} while (((int)msg - (int)nextCount) < 0);
nextCount = (int)msg + uVar1;
}
}
#else
/* ############################################################################################## */
/* 804511D0-804511D4 0006D0 0004+00 1/1 0/0 0/0 .sbss nextTick$2642 */
static u8 nextTick[4] ALIGN_DECL(8);
/* 804511D4-804511D8 0006D4 0004+00 1/1 0/0 0/0 .sbss None */
static u8 data_804511D4[4];
/* 804511D8-804511DC 0006D8 0004+00 1/1 0/0 0/0 .sbss None */
static s8 data_804511D8;
/* 804511DC-804511E0 0006DC 0004+00 1/1 0/0 0/0 .sbss nextCount$2650 */
static u32 nextCount;
/* 804511E0-804511E8 0006E0 0008+00 1/1 0/0 0/0 .sbss None */
static s8 data_804511E0;
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
static asm void waitForTick(u32 param_0, u16 param_1) {
nofralloc
#include "asm/JSystem/JFramework/JFWDisplay/waitForTick__FUlUs.s"
}
#pragma pop
#endif
/* 80430FE4-80430FF0 05DD04 000C+00 4/4 0/0 0/0 .bss sList__8JFWAlarm */
JSUList<JFWAlarm> JFWAlarm::sList(false);
+294 -164
View File
@@ -10,6 +10,7 @@
#include "JSystem/JKernel/JKRAramStream.h"
#include "JSystem/JKernel/JKRDecomp.h"
#include "JSystem/JKernel/JKRExpHeap.h"
#include "JSystem/JKernel/JKRArchive.h"
#include "JSystem/JUtility/JUTException.h"
#include "MSL_C/string.h"
#include "dol2asm.h"
@@ -22,67 +23,16 @@
// Forward References:
//
extern "C" void create__7JKRAramFUlUllll();
extern "C" void __ct__7JKRAramFUlUll();
extern "C" void __dt__7JKRAramFv();
extern "C" void run__7JKRAramFv();
extern "C" void checkOkAddress__7JKRAramFPUcUlP12JKRAramBlockUl();
extern "C" void changeGroupIdIfNeed__7JKRAramFPUci();
extern "C" void mainRamToAram__7JKRAramFPUcUlUl15JKRExpandSwitchUlP7JKRHeapiPUl();
extern "C" void aramToMainRam__7JKRAramFUlPUcUl15JKRExpandSwitchUlP7JKRHeapiPUl();
extern "C" static void JKRDecompressFromAramToMainRam__FUlPvUlUlUlPUl();
extern "C" static void decompSZS_subroutine__FPUcPUc();
static int decompSZS_subroutine(u8* param_0, u8* param_1);
extern "C" static void firstSrcData__Fv();
static u8* firstSrcData(void);
extern "C" static void nextSrcData__FPUc();
extern "C" void __sinit_JKRAram_cpp();
extern "C" void func_802D2DF0(void* _this);
extern "C" extern char const* const JKRAram__stringBase0;
extern "C" u8 sMessageBuffer__7JKRAram[16];
extern "C" u8 sMessageQueue__7JKRAram[32];
extern "C" u8 sAramCommandList__7JKRAram[12];
extern "C" u32 sSZSBufferSize__7JKRAram[1 + 1 /* padding */];
extern "C" u8 sAramObject__7JKRAram[4];
static u8* firstSrcData();
static u8* nextSrcData(u8* param_0);
static int JKRDecompressFromAramToMainRam(u32 src, void* dst, u32 srcLength, u32 dstLength, u32 offset,
u32* resourceSize);
int decompSZS_subroutine(u8 *src, u8 *dest);
//
// External References:
//
extern "C" void alloc__7JKRHeapFUliP7JKRHeap();
extern "C" void alloc__7JKRHeapFUli();
extern "C" void free__7JKRHeapFPvP7JKRHeap();
extern "C" void* __nw__FUlP7JKRHeapi();
extern "C" void __dl__FPv();
extern "C" void __ct__9JKRThreadFUlii();
extern "C" void __dt__9JKRThreadFv();
extern "C" void __ct__11JKRAramHeapFUlUl();
extern "C" void alloc__11JKRAramHeapFUlQ211JKRAramHeap10EAllocMode();
extern "C" void orderSync__12JKRAramPieceFiUlUlUlP12JKRAramBlock();
extern "C" void startDMA__12JKRAramPieceFP12JKRAMCommand();
extern "C" void create__13JKRAramStreamFl();
extern "C" void create__9JKRDecompFl();
extern "C" void orderSync__9JKRDecompFPUcPUcUlUl();
extern "C" void checkCompressed__9JKRDecompFPUc();
extern "C" void __dt__10JSUPtrListFv();
extern "C" void initiate__10JSUPtrListFv();
extern "C" void panic_f__12JUTExceptionFPCciPCce();
extern "C" void ARQInit();
extern "C" void __register_global_object();
extern "C" void _savegpr_22();
extern "C" void _savegpr_23();
extern "C" void _savegpr_25();
extern "C" void _savegpr_27();
extern "C" void _savegpr_28();
extern "C" void _savegpr_29();
extern "C" void _restgpr_22();
extern "C" void _restgpr_23();
extern "C" void _restgpr_25();
extern "C" void _restgpr_27();
extern "C" void _restgpr_28();
extern "C" void _restgpr_29();
extern "C" u8 sSystemHeap__7JKRHeap[4];
extern "C" u8 sCurrentHeap__7JKRHeap[4];
//
// Declarations:
@@ -198,27 +148,151 @@ void JKRAram::changeGroupIdIfNeed(u8* data, int groupId) {
/* 802D233C-802D25B4 2CCC7C 0278+00 0/0 3/3 0/0 .text
* mainRamToAram__7JKRAramFPUcUlUl15JKRExpandSwitchUlP7JKRHeapiPUl */
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
asm void JKRAram::mainRamToAram(u8* param_0, u32 param_1, u32 param_2, JKRExpandSwitch param_3,
u32 param_4, JKRHeap* param_5, int param_6, u32* param_7) {
nofralloc
#include "asm/JSystem/JKernel/JKRAram/mainRamToAram__7JKRAramFPUcUlUl15JKRExpandSwitchUlP7JKRHeapiPUl.s"
JKRAramBlock *JKRAram::mainRamToAram(u8 *buf, u32 bufSize, u32 alignedSize, JKRExpandSwitch expandSwitch, u32 fileSize, JKRHeap *heap, int id, u32 *pSize) {
JKRAramBlock *block = NULL;
checkOkAddress(buf, bufSize, NULL, 0);
if (expandSwitch == EXPAND_SWITCH_UNKNOWN1) {
expandSwitch = (JKRCheckCompressed_noASR(buf) == COMPRESSION_NONE) ? EXPAND_SWITCH_UNKNOWN0 : EXPAND_SWITCH_UNKNOWN1;
}
if (expandSwitch == EXPAND_SWITCH_UNKNOWN1) {
u32 expandSize = JKRDecompExpandSize(buf);
if (fileSize == 0 || fileSize > expandSize) {
fileSize = ALIGN_NEXT(expandSize, 32);
}
if (bufSize == 0) {
JKRAramBlock* allocatedBlock = (JKRAramBlock*)JKRAllocFromAram(fileSize, JKRAramHeap::HEAD);
block = (JKRAramBlock*)allocatedBlock;
if (allocatedBlock == NULL)
return NULL;
allocatedBlock->newGroupID(decideAramGroupId(id));
bufSize = allocatedBlock->getAddress();
}
if (alignedSize == 0 || alignedSize > expandSize)
alignedSize = ALIGN_NEXT(expandSize, 32);
if (alignedSize > fileSize)
alignedSize = fileSize;
void *allocatedMem = JKRAllocFromHeap(heap, fileSize, -32);
if (allocatedMem == NULL) {
if (block != NULL) {
JKRFreeToAram(block);
}
block = NULL;
}
else {
JKRDecompress(buf, (u8 *)allocatedMem, fileSize, 0);
JKRAramPcs(0, (u32)allocatedMem, bufSize, alignedSize, block);
JKRFreeToHeap(heap, allocatedMem);
block = block == NULL ? (JKRAramBlock *)-1 : block;
if (pSize != NULL) {
*pSize = alignedSize;
}
}
}
else {
if (fileSize != 0 && alignedSize > fileSize)
alignedSize = fileSize;
if (bufSize == 0) {
JKRAramBlock* allocatedBlock = (JKRAramBlock*)JKRAllocFromAram(alignedSize, JKRAramHeap::HEAD);
block = allocatedBlock;
block->newGroupID(decideAramGroupId(id));
if (block == NULL)
return NULL;
bufSize = allocatedBlock->getAddress();
}
JKRAramPcs(0, (u32)buf, bufSize, alignedSize, block);
block = block == NULL ? (JKRAramBlock *)-1 : block;
if (pSize != NULL)
*pSize = alignedSize;
}
return block;
}
#pragma pop
/* 802D25B4-802D2830 2CCEF4 027C+00 0/0 6/6 0/0 .text
* aramToMainRam__7JKRAramFUlPUcUl15JKRExpandSwitchUlP7JKRHeapiPUl */
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
asm void JKRAram::aramToMainRam(u32 param_0, u8* param_1, u32 param_2, JKRExpandSwitch param_3,
u32 param_4, JKRHeap* param_5, int param_6, u32* param_7) {
nofralloc
#include "asm/JSystem/JKernel/JKRAram/aramToMainRam__7JKRAramFUlPUcUl15JKRExpandSwitchUlP7JKRHeapiPUl.s"
u8 *JKRAram::aramToMainRam(u32 address, u8 *buf, u32 p3, JKRExpandSwitch expandSwitch, u32 p5, JKRHeap *heap, int id, u32 *pSize) {
JKRCompression compression = COMPRESSION_NONE;
if (pSize != NULL)
*pSize = 0;
checkOkAddress(buf, address, NULL, 0);
u32 expandSize;
if (expandSwitch == EXPAND_SWITCH_UNKNOWN1) {
u8 buffer[64];
u8 *bufPtr = (u8 *)ALIGN_NEXT((u32)buffer, 32);
JKRAramPcs(1, address, (u32)bufPtr, sizeof(buffer) / 2, NULL); // probably change sizeof(buffer) / 2 to 32
compression = JKRCheckCompressed_noASR(bufPtr);
expandSize = JKRDecompExpandSize(bufPtr);
}
if (compression == COMPRESSION_YAZ0) { // SZS
if (p5 != 0 && p5 < expandSize)
expandSize = p5;
if (buf == NULL)
buf = (u8 *)JKRAllocFromHeap(heap, expandSize, 32);
if (buf == NULL)
return NULL;
else {
changeGroupIdIfNeed(buf, id);
JKRDecompressFromAramToMainRam(address, buf, p3, expandSize, 0, pSize);
return buf;
}
}
else if (compression == COMPRESSION_YAY0) { // SZP
u8 *szpSpace = (u8 *)JKRAllocFromHeap(heap, p3, -32);
if (szpSpace == NULL) {
return NULL;
}
else {
JKRAramPcs(1, address, (u32)szpSpace, p3, NULL);
if (p5 != 0 && p5 < expandSize)
expandSize = p5;
u8* rv;
if (buf == NULL) {
rv = (u8 *)JKRAllocFromHeap(heap, expandSize, 32);
} else {
rv = buf;
}
if (rv == NULL) {
i_JKRFree(szpSpace);
return NULL;
}
else {
changeGroupIdIfNeed(rv, id);
JKRDecompress(szpSpace, rv, expandSize, 0);
JKRFreeToHeap(heap, szpSpace);
if (pSize != NULL) {
*pSize = expandSize;
}
return rv;
}
}
}
else { // Not compressed or ASR
if (buf == NULL)
buf = (u8 *)JKRAllocFromHeap(heap, p3, 32);
if (buf == NULL) {
return NULL;
}
else {
changeGroupIdIfNeed(buf, id);
JKRAramPcs(1, address, (u32)buf, p3, NULL);
if (pSize != NULL) {
*pSize = p3;
}
return buf;
}
}
}
#pragma pop
/* 804342DC-804342E8 060FFC 000C+00 1/1 0/0 0/0 .bss sAramCommandList__7JKRAram */
JSUList<JKRAMCommand> JKRAram::sAramCommandList;
@@ -266,7 +340,7 @@ static u32 readCount;
static u32 maxDest;
/* 804513FC-80451400 0008FC 0004+00 1/1 0/0 0/0 .sbss None */
static bool data_804513FC;
static bool s_is_decompress_mutex_initialized;
/* 80451400-80451404 000900 0004+00 2/2 0/0 0/0 .sbss tsPtr */
static u32* tsPtr;
@@ -276,92 +350,170 @@ static u32 tsArea;
/* 802D2830-802D29A0 2CD170 0170+00 1/1 0/0 0/0 .text
* JKRDecompressFromAramToMainRam__FUlPvUlUlUlPUl */
#ifdef NONMATCHING
// full match, except:
// tsPtr = &tsArea;
// doesn't use r13
void JKRDecompressFromAramToMainRam(u32 src, void* dst, u32 srcLength, u32 dstLength, u32 offset,
static int JKRDecompressFromAramToMainRam(u32 src, void* dst, u32 srcLength, u32 dstLength, u32 offset,
u32* resourceSize) {
#define s_is_decompress_mutex_initialized data_804513FC
// STATIC BEGIN
// This code is probably generated by the compiler for a static variable
BOOL enable = OSDisableInterrupts();
BOOL interrupts = OSDisableInterrupts();
if (s_is_decompress_mutex_initialized == false) {
OSInitMutex(&decompMutex);
s_is_decompress_mutex_initialized = true;
}
OSRestoreInterrupts(enable);
// STATIC END
OSRestoreInterrupts(interrupts);
OSLockMutex(&decompMutex);
u32 szpSize = JKRAram::getSZSBufferSize();
szpBuf = (u8*)JKRAllocFromSysHeap(szpSize, 0x20);
ASSERT(szpBuf != 0);
szpEnd = szpBuf + szpSize;
u32 szsBufferSize = JKRAram::getSZSBufferSize();
szpBuf = (u8 *)JKRAllocFromSysHeap(szsBufferSize, 32);
szpEnd = szpBuf + szsBufferSize;
if (offset != 0) {
refBuf = (u8*)JKRAllocFromSysHeap(0x1120, 0);
ASSERT(refBuf != 0);
refBuf = (u8 *)JKRAllocFromSysHeap(0x1120, 0);
refEnd = refBuf + 0x1120;
refCurrent = refBuf;
} else {
}
else {
refBuf = NULL;
}
srcAddress = src;
srcOffset = 0;
if (srcLength == 0) {
transLeft = -1;
} else {
transLeft = srcLength;
}
transLeft = (srcLength != 0) ? srcLength : -1;
fileOffset = offset;
readCount = 0;
maxDest = dstLength;
if (!resourceSize) {
tsPtr = &tsArea;
} else {
tsPtr = resourceSize;
}
tsPtr = (resourceSize != 0) ? resourceSize : &tsArea;
*tsPtr = 0;
decompSZS_subroutine(firstSrcData(), (u8*)dst);
JKRFreeToSysHeap(szpBuf);
decompSZS_subroutine(firstSrcData(), (u8 *)dst);
i_JKRFree(szpBuf);
if (refBuf) {
JKRFreeToSysHeap(refBuf);
i_JKRFree(refBuf);
}
DCStoreRangeNoSync(dst, *tsPtr);
OSUnlockMutex(&decompMutex);
#undef s_is_decompress_mutex_initialized
#undef decompMutex
return 0;
}
#else
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
static asm void JKRDecompressFromAramToMainRam(u32 param_0, void* param_1, u32 param_2, u32 param_3,
u32 param_4, u32* param_5) {
nofralloc
#include "asm/JSystem/JKernel/JKRAram/JKRDecompressFromAramToMainRam__FUlPvUlUlUlPUl.s"
}
#pragma pop
#endif
/* 802D29A0-802D2C40 2CD2E0 02A0+00 1/1 0/0 0/0 .text decompSZS_subroutine__FPUcPUc */
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
static asm int decompSZS_subroutine(u8* param_0, u8* param_1) {
nofralloc
#include "asm/JSystem/JKernel/JKRAram/decompSZS_subroutine__FPUcPUc.s"
int decompSZS_subroutine(u8 *src, u8 *dest) {
u8 *endPtr;
s32 validBitCount = 0;
s32 currCodeByte = 0;
u32 ts = 0;
if (src[0] != 'Y' || src[1] != 'a' || src[2] != 'z' || src[3] != '0') {
return -1;
}
SYaz0Header *header = (SYaz0Header *)src;
endPtr = dest + (header->length - fileOffset);
if (endPtr > dest + maxDest) {
endPtr = dest + maxDest;
}
src += 0x10;
do {
if (validBitCount == 0) {
if ((src > srcLimit) && transLeft) {
src = nextSrcData(src);
}
currCodeByte = *src;
validBitCount = 8;
src++;
}
if (currCodeByte & 0x80) {
if (fileOffset != 0) {
if (readCount >= fileOffset) {
*dest = *src;
dest++;
ts++;
if (dest == endPtr)
{
break;
}
}
*(refCurrent++) = *src;
if (refCurrent == refEnd) {
refCurrent = refBuf;
}
src++;
}
else {
*dest = *src;
dest++;
src++;
ts++;
if (dest == endPtr) {
break;
}
}
readCount++;
}
else {
u32 dist = ((src[0] & 0x0f) << 8) | src[1];
s32 numBytes = src[0] >> 4;
src += 2;
u8 *copySource;
if (fileOffset != 0) {
copySource = refCurrent - dist - 1;
if (copySource < refBuf) {
copySource += refEnd - refBuf;
}
}
else {
copySource = dest - dist - 1;
}
if (numBytes == 0) {
numBytes = *src + 0x12;
src += 1;
}
else {
numBytes += 2;
}
if (fileOffset != 0) {
do {
if (readCount >= fileOffset) {
*dest = *copySource;
dest++;
ts++;
if (dest == endPtr) {
break;
}
}
*(refCurrent++) = *copySource;
if (refCurrent == refEnd) {
refCurrent = refBuf;
}
copySource++;
if (copySource == refEnd) {
copySource = refBuf;
}
readCount++;
numBytes--;
} while (numBytes != 0);
}
else {
do {
*dest = *copySource;
dest++;
ts++;
if (dest == endPtr) {
break;
}
readCount++;
numBytes--;
copySource++;
} while (numBytes != 0);
}
}
currCodeByte <<= 1;
validBitCount--;
} while (dest < endPtr);
*tsPtr = ts;
return 0;
}
#pragma pop
/* 802D2C40-802D2CE4 2CD580 00A4+00 1/1 0/0 0/0 .text firstSrcData__Fv */
static u8* firstSrcData(void) {
static u8* firstSrcData() {
srcLimit = szpEnd - 0x19;
u8* buffer = szpBuf;
@@ -388,54 +540,32 @@ static u8* firstSrcData(void) {
}
/* 802D2CE4-802D2DAC 2CD624 00C8+00 1/1 0/0 0/0 .text nextSrcData__FPUc */
// missing one add instruction
#ifdef NONMATCHING
inline u32 nextSrcData_MIN(u32 A, u32 B) {
if (A > B)
return B;
return A;
}
static u8* nextSrcData(u8* current) {
u8* dest;
static u8 *nextSrcData(u8 *current) {
u8 *dest;
u32 left = (u32)(szpEnd - current);
if (!IS_NOT_ALIGNED(left, 0x20)) {
if (IS_NOT_ALIGNED(left, 0x20))
dest = szpBuf + 0x20 - (left & (0x20 - 1));
else
dest = szpBuf;
} else {
dest = szpBuf + 0x20 - (left & 0x1f);
}
memcpy(dest, current, left);
u32 transSize = nextSrcData_MIN(transLeft, szpEnd - (dest + left));
ASSERT(transSize > 0);
u32 transSize = (u32)(szpEnd - (dest + left));
if (transSize > transLeft)
transSize = transLeft;
JKRAramPcs(1, (u32)(srcAddress + srcOffset), (u32)(dest + left), ALIGN_NEXT(transSize, 0x20),
JKRAramPcs(1, (u32)(srcAddress + srcOffset), ((u32)dest + left), ALIGN_NEXT(transSize, 0x20),
NULL);
srcOffset += transSize;
transLeft -= transSize;
if (transLeft == 0) {
if (transLeft == 0)
srcLimit = (dest + left) + transSize;
}
return dest;
}
#else
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
static asm u8* nextSrcData(u8* param_0) {
nofralloc
#include "asm/JSystem/JKernel/JKRAram/nextSrcData__FPUc.s"
}
#pragma pop
#endif
/* ############################################################################################## */
/* 8039D0A6-8039D0B8 029706 000E+04 0/0 0/0 0/0 .rodata None */
#pragma push
#pragma force_active on
SECTION_DEAD static char const* const stringBase_8039D0A6 = "bad aramSync\n";
static const char* stringBase_8039D0A6 = "bad aramSync\n";
/* @stringBase0 padding */
SECTION_DEAD static char const* const pad_8039D0B4 = "\0\0\0";
#pragma pop
static const char* pad_8039D0B4 = "\0\0\0";
+281 -108
View File
@@ -9,80 +9,21 @@
#include "JSystem/JKernel/JKRDvdArchive.h"
#include "JSystem/JKernel/JKRDvdFile.h"
#include "JSystem/JKernel/JKRMemArchive.h"
#include "JSystem/JKernel/JKRDecomp.h"
#include "JSystem/JKernel/JKRAramArchive.h"
#include "JSystem/JUtility/JUTException.h"
#include "MSL_C/math.h"
#include "MSL_C/string.h"
#include "dol2asm.h"
#include "dolphin/os/OSCache.h"
//
// Forward References:
//
extern "C" void __ct__14JKRCompArchiveFlQ210JKRArchive15EMountDirection();
extern "C" void __dt__14JKRCompArchiveFv();
extern "C" void open__14JKRCompArchiveFl();
extern "C" void fetchResource__14JKRCompArchiveFPQ210JKRArchive12SDIFileEntryPUl();
extern "C" void fetchResource__14JKRCompArchiveFPvUlPQ210JKRArchive12SDIFileEntryPUl();
extern "C" void removeResourceAll__14JKRCompArchiveFv();
extern "C" void removeResource__14JKRCompArchiveFPv();
extern "C" void getExpandedResSize__14JKRCompArchiveCFPCv();
extern "C" extern char const* const JKRCompArchive__stringBase0;
//
// External References:
//
extern "C" void alloc__7JKRHeapFUliP7JKRHeap();
extern "C" void alloc__7JKRHeapFUli();
extern "C" void free__7JKRHeapFPvP7JKRHeap();
extern "C" void free__7JKRHeapFPv();
extern "C" void copyMemory__7JKRHeapFPvPvUl();
extern "C" void* __nw__FUlP7JKRHeapi();
extern "C" void __dl__FPv();
extern "C" void mainRamToAram__7JKRAramFPUcUlUl15JKRExpandSwitchUlP7JKRHeapiPUl();
extern "C" void aramToMainRam__7JKRAramFUlPUcUl15JKRExpandSwitchUlP7JKRHeapiPUl();
extern "C" void alloc__11JKRAramHeapFUlQ211JKRAramHeap10EAllocMode();
extern "C" void unmount__13JKRFileLoaderFv();
extern "C" void becomeCurrent__10JKRArchiveFPCc();
extern "C" void getResource__10JKRArchiveFPCc();
extern "C" void getResource__10JKRArchiveFUlPCc();
extern "C" void readResource__10JKRArchiveFPvUlUlPCc();
extern "C" void readResource__10JKRArchiveFPvUlPCc();
extern "C" void detachResource__10JKRArchiveFPv();
extern "C" void getResSize__10JKRArchiveCFPCv();
extern "C" void countFile__10JKRArchiveCFPCc();
extern "C" void getFirstFile__10JKRArchiveCFPCc();
extern "C" void __ct__10JKRArchiveFlQ210JKRArchive10EMountMode();
extern "C" void __dt__10JKRArchiveFv();
extern "C" void findPtrResource__10JKRArchiveCFPCv();
extern "C" void setExpandSize__10JKRArchiveFPQ210JKRArchive12SDIFileEntryUl();
extern "C" void getExpandSize__10JKRArchiveCFPQ210JKRArchive12SDIFileEntry();
extern "C" void fetchResource_subroutine__13JKRMemArchiveFPUcUlPUcUli();
extern "C" void fetchResource_subroutine__14JKRAramArchiveFUlUlPUcUli();
extern "C" void fetchResource_subroutine__14JKRAramArchiveFUlUlP7JKRHeapiPPUc();
extern "C" void fetchResource_subroutine__13JKRDvdArchiveFlUlUlPUcUlii();
extern "C" void fetchResource_subroutine__13JKRDvdArchiveFlUlUlP7JKRHeapiiPPUc();
extern "C" void __ct__10JKRDvdFileFl();
extern "C" void
loadToMainRAM__12JKRDvdRipperFlPUc15JKRExpandSwitchUlP7JKRHeapQ212JKRDvdRipper15EAllocDirectionUlPiPUl();
extern "C" void loadToAram__16JKRDvdAramRipperFlUl15JKRExpandSwitchUlUlPUl();
extern "C" void orderSync__9JKRDecompFPUcPUcUlUl();
extern "C" void prepend__10JSUPtrListFP10JSUPtrLink();
extern "C" void remove__10JSUPtrListFP10JSUPtrLink();
extern "C" void panic_f__12JUTExceptionFPCciPCce();
extern "C" void _savegpr_25();
extern "C" void _savegpr_26();
extern "C" void _savegpr_28();
extern "C" void _savegpr_29();
extern "C" void _restgpr_25();
extern "C" void _restgpr_26();
extern "C" void _restgpr_28();
extern "C" void _restgpr_29();
extern "C" u8 sVolumeList__13JKRFileLoader[12];
extern "C" u8 sSystemHeap__7JKRHeap[4];
extern "C" u8 sAramObject__7JKRAram[4];
//
// Declarations:
//
@@ -119,8 +60,8 @@ JKRCompArchive::~JKRCompArchive() {
mArcInfoBlock = NULL;
}
if (field_0x68 != NULL) {
delete field_0x68;
if (mAramPart != NULL) {
delete mAramPart;
}
if (mExpandedSize != NULL) {
@@ -128,8 +69,8 @@ JKRCompArchive::~JKRCompArchive() {
mExpandedSize = NULL;
}
if (field_0x70 != NULL) {
delete field_0x70;
if (mDvdFile != NULL) {
delete mDvdFile;
}
sVolumeList.remove(&mFileLoaderLink);
@@ -137,46 +78,254 @@ JKRCompArchive::~JKRCompArchive() {
}
/* 802D89BC-802D8F40 2D32FC 0584+00 1/1 0/0 0/0 .text open__14JKRCompArchiveFl */
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
asm bool JKRCompArchive::open(s32 param_0) {
nofralloc
#include "asm/JSystem/JKernel/JKRCompArchive/open__14JKRCompArchiveFl.s"
bool JKRCompArchive::open(long entryNum) {
mArcInfoBlock = NULL;
field_0x64 = 0;
mAramPart = NULL;
field_0x6c = 0;
mSizeOfMemPart = 0;
mSizeOfAramPart = 0;
field_0x7c = 0;
mNodes = NULL;
mFiles = NULL;
mStringTable = NULL;
mDvdFile = new (JKRGetSystemHeap(), 0) JKRDvdFile(entryNum);
if(mDvdFile == NULL) {
mMountMode = 0;
return 0;
}
SArcHeader *arcHeader = (SArcHeader *)JKRAllocFromSysHeap(sizeof(SArcHeader), -32); // NOTE: unconfirmed if this struct is used
if(arcHeader == NULL) {
mMountMode = 0;
}
else {
int alignment;
JKRDvdToMainRam(entryNum, (u8 *)arcHeader, EXPAND_SWITCH_UNKNOWN1, 32, NULL, JKRDvdRipper::ALLOC_DIRECTION_FORWARD, 0, &mCompression, NULL);
DCInvalidateRange(arcHeader, 32);
mSizeOfMemPart = arcHeader->field_0x14;
mSizeOfAramPart = arcHeader->field_0x18;
switch (mCompression)
{
case COMPRESSION_NONE:
case COMPRESSION_YAZ0:
alignment = mMountDirection == 1 ? 32 : -32;
mArcInfoBlock = (SArcDataInfo *)JKRAllocFromHeap(mHeap, arcHeader->file_data_offset + mSizeOfMemPart, alignment);
if (mArcInfoBlock == NULL) {
mMountMode = 0;
}
else
{
JKRDvdToMainRam(entryNum, (u8 *)mArcInfoBlock, EXPAND_SWITCH_UNKNOWN1, (u32)arcHeader->file_data_offset + mSizeOfMemPart,
NULL, JKRDvdRipper::ALLOC_DIRECTION_FORWARD, 0x20, NULL, NULL);
DCInvalidateRange(mArcInfoBlock, (u32)arcHeader->file_data_offset + mSizeOfMemPart);
field_0x64 = (u32)mArcInfoBlock + arcHeader->file_data_offset;
if (mSizeOfAramPart != 0) {
mAramPart = (JKRAramBlock*)JKRAllocFromAram(mSizeOfAramPart, JKRAramHeap::HEAD);
if(mAramPart == NULL) {
mMountMode = 0;
break;
}
JKRDvdToAram(entryNum, mAramPart->getAddress(), EXPAND_SWITCH_UNKNOWN1, arcHeader->header_length + arcHeader->file_data_offset + mSizeOfMemPart, 0, NULL);
}
mNodes = (SDIDirEntry*)((u32)mArcInfoBlock + mArcInfoBlock->node_offset);
mFiles = (SDIFileEntry *)((u32)mArcInfoBlock + mArcInfoBlock->file_entry_offset);
mStringTable = (char*)((u32)mArcInfoBlock + mArcInfoBlock->string_table_offset);
field_0x6c = arcHeader->header_length + arcHeader->file_data_offset;
}
break;
case COMPRESSION_YAY0:
u32 alignedSize = ALIGN_NEXT(mDvdFile->getFileSize(), 32);
alignment = ((mMountDirection == 1) ? 32 : -32);
u8 *buf = (u8 *)JKRAllocFromSysHeap(alignedSize, -alignment);
if(buf == NULL) {
mMountMode = 0;
}
else {
JKRDvdToMainRam(entryNum, buf, EXPAND_SWITCH_UNKNOWN2, alignedSize, NULL, JKRDvdRipper::ALLOC_DIRECTION_FORWARD, 0, NULL, NULL);
DCInvalidateRange(buf, alignedSize);
u32 expandSize = ALIGN_NEXT(JKRDecompExpandSize(buf), 32);
u8 *mem = (u8 *)JKRAllocFromHeap(mHeap, expandSize, -alignment);
if(mem == NULL) {
mMountMode = 0;
}
else {
arcHeader = (SArcHeader *)mem;
JKRDecompress((u8 *)buf, (u8 *)mem, expandSize, 0);
JKRFreeToSysHeap(buf);
mArcInfoBlock = (SArcDataInfo *)JKRAllocFromHeap(mHeap, arcHeader->file_data_offset + mSizeOfMemPart, alignment);
if(mArcInfoBlock == NULL) {
mMountMode = 0;
}
else {
// arcHeader + 1 should lead to 0x20, which is the data after the header
JKRHeap::copyMemory((u8 *)mArcInfoBlock, arcHeader + 1, (arcHeader->file_data_offset + mSizeOfMemPart));
field_0x64 = (u32)mArcInfoBlock + arcHeader->file_data_offset;
if (mSizeOfAramPart != 0) {
mAramPart = (JKRAramBlock*)JKRAllocFromAram(mSizeOfAramPart, JKRAramHeap::HEAD);
if(mAramPart == NULL) {
mMountMode = 0;
}
else {
JKRMainRamToAram((u8 *)mem + arcHeader->header_length + arcHeader->file_data_offset + mSizeOfMemPart,
mAramPart->getAddress(), mSizeOfAramPart, EXPAND_SWITCH_UNKNOWN0, 0, NULL, -1, NULL);
}
}
}
}
}
mNodes = (SDIDirEntry *)((u32)mArcInfoBlock + mArcInfoBlock->node_offset);
mFiles = (SDIFileEntry *)((u32)mArcInfoBlock + mArcInfoBlock->file_entry_offset);
mStringTable = (char *)((u32)mArcInfoBlock + mArcInfoBlock->string_table_offset);
field_0x6c = arcHeader->header_length + arcHeader->file_data_offset;
break;
}
mExpandedSize = NULL;
u8 compressedFiles = 0;
SDIFileEntry *fileEntry = mFiles;
for (int i = 0; i < mArcInfoBlock->num_file_entries; i++)
{
u8 flag = fileEntry->type_flags_and_name_offset >> 0x18;
if (((flag & 0x1) != 0) && (((flag)&0x10) == 0))
{
compressedFiles = compressedFiles | (flag & 4);
}
fileEntry++;
}
if (compressedFiles != 0)
{
mExpandedSize = (s32 *)JKRAllocFromHeap(mHeap, mArcInfoBlock->num_file_entries * 4, abs(alignment));
if (mExpandedSize == NULL)
{
JKRFreeToSysHeap(mArcInfoBlock);
mMountMode = 0;
}
else
{
memset(mExpandedSize, 0, mArcInfoBlock->num_file_entries * 4);
}
}
}
if (arcHeader != NULL)
{
JKRFreeToSysHeap(arcHeader);
}
if(mMountMode == 0) {
if(mDvdFile != NULL) {
delete mDvdFile;
}
return false;
}
return true;
}
#pragma pop
/* 802D8F40-802D90C0 2D3880 0180+00 1/0 0/0 0/0 .text
* fetchResource__14JKRCompArchiveFPQ210JKRArchive12SDIFileEntryPUl */
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
asm void* JKRCompArchive::fetchResource(JKRArchive::SDIFileEntry* param_0, u32* param_1) {
nofralloc
#include "asm/JSystem/JKernel/JKRCompArchive/fetchResource__14JKRCompArchiveFPQ210JKRArchive12SDIFileEntryPUl.s"
void* JKRCompArchive::fetchResource(SDIFileEntry *fileEntry, u32 *pSize) {
u32 ptrSize;
u32 size = fileEntry->data_size;
int compression = JKRConvertAttrToCompressionType(fileEntry->type_flags_and_name_offset >> 0x18);
if(pSize == NULL) {
pSize = &ptrSize; // this makes barely any sense but ok
}
if (fileEntry->data == NULL) {
u32 flag = fileEntry->type_flags_and_name_offset >> 0x18;
if(flag & 0x10) {
fileEntry->data = (void *)(field_0x64 + fileEntry->data_offset);
*pSize = size;
}
else if (flag & 0x20) {
u8 *data;
*pSize = JKRAramArchive::fetchResource_subroutine(fileEntry->data_offset + mAramPart->getAddress() - mSizeOfMemPart, size, mHeap, compression, &data);
fileEntry->data = data;
if(compression == COMPRESSION_YAZ0) {
setExpandSize(fileEntry, *pSize);
}
}
else if (flag & 0x40) {
u8 *data;
u32 resSize = JKRDvdArchive::fetchResource_subroutine(mEntryNum, field_0x6c + fileEntry->data_offset, fileEntry->data_size, mHeap, compression, mCompression, &data);
if (pSize != NULL) {
*pSize = resSize;
}
fileEntry->data = data;
if (compression == COMPRESSION_YAZ0) {
setExpandSize(fileEntry, *pSize);
}
}
}
else {
if (pSize != NULL) {
*pSize = fileEntry->data_size;
}
}
return fileEntry->data;
}
#pragma pop
/* ############################################################################################## */
/* 8039D220-8039D220 029880 0000+00 0/0 0/0 0/0 .rodata @stringBase0 */
#pragma push
#pragma force_active on
SECTION_DEAD static char const* const stringBase_8039D220 = "JKRCompArchive.cpp";
SECTION_DEAD static char const* const stringBase_8039D233 = "%s";
SECTION_DEAD static char const* const stringBase_8039D236 = "illegal archive.";
#pragma pop
/* 802D90C0-802D9260 2D3A00 01A0+00 1/0 0/0 0/0 .text
* fetchResource__14JKRCompArchiveFPvUlPQ210JKRArchive12SDIFileEntryPUl */
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
asm void* JKRCompArchive::fetchResource(void* param_0, u32 param_1,
JKRArchive::SDIFileEntry* param_2, u32* param_3) {
nofralloc
#include "asm/JSystem/JKernel/JKRCompArchive/fetchResource__14JKRCompArchiveFPvUlPQ210JKRArchive12SDIFileEntryPUl.s"
void *JKRCompArchive::fetchResource(void *data, u32 compressedSize, SDIFileEntry *fileEntry, u32 *pSize)
{
u32 size = 0;
u32 fileSize = fileEntry->data_size;
u32 alignedSize = ALIGN_NEXT(fileSize, 32);
u32 fileFlag = fileEntry->type_flags_and_name_offset >> 0x18;
int compression = JKRConvertAttrToCompressionType(fileFlag);
if(fileEntry->data != NULL) {
if (compression == COMPRESSION_YAZ0) {
u32 expandSize = getExpandSize(fileEntry);
if (expandSize != 0) {
fileSize = expandSize;
}
}
if (fileSize > compressedSize) {
fileSize = compressedSize;
}
JKRHeap::copyMemory(data, fileEntry->data, fileSize);
size = fileSize;
}
else {
if (fileFlag & 0x10) {
size = JKRMemArchive::fetchResource_subroutine((u8 *)(field_0x64 + fileEntry->data_offset), alignedSize, (u8 *)data,
compressedSize & ~31, compression);
}
else if (fileFlag & 0x20) {
size = JKRAramArchive::fetchResource_subroutine(fileEntry->data_offset + mAramPart->getAddress() - mSizeOfMemPart,
alignedSize, (u8 *)data, compressedSize & ~31, compression);
}
else if (fileFlag & 0x40){
size = JKRDvdArchive::fetchResource_subroutine(mEntryNum, field_0x6c + fileEntry->data_offset, alignedSize, (u8 *)data,
compressedSize & ~31, compression, mCompression);
} else {
JUTException::panic_f(__FILE__, 0x308, "%s", "illegal archive.");
}
}
if(pSize != NULL) {
*pSize = size;
}
return data;
}
#pragma pop
/* 802D9260-802D92F4 2D3BA0 0094+00 1/0 0/0 0/0 .text removeResourceAll__14JKRCompArchiveFv */
void JKRCompArchive::removeResourceAll() {
@@ -212,22 +361,46 @@ bool JKRCompArchive::removeResource(void* resource) {
}
/* ############################################################################################## */
/* 8039D220-8039D220 029880 0000+00 0/0 0/0 0/0 .rodata @stringBase0 */
#pragma push
#pragma force_active on
SECTION_DEAD static char const* const stringBase_8039D247 = "illegal resource.";
/* @stringBase0 padding */
SECTION_DEAD static char const* const pad_8039D259 = "\0\0\0\0\0\0";
#pragma pop
/* 802D9360-802D9518 2D3CA0 01B8+00 1/0 0/0 0/0 .text getExpandedResSize__14JKRCompArchiveCFPCv */
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
asm u32 JKRCompArchive::getExpandedResSize(void const* param_0) const {
nofralloc
#include "asm/JSystem/JKernel/JKRCompArchive/getExpandedResSize__14JKRCompArchiveCFPCv.s"
u32 JKRCompArchive::getExpandedResSize(const void *resource) const
{
if (mExpandedSize == NULL) {
return getResSize(resource);
}
SDIFileEntry *fileEntry = findPtrResource(resource);
if(!fileEntry) {
return 0xffffffff;
}
u8 flags = (fileEntry->type_flags_and_name_offset >> 0x18);
if((flags & 4) == 0) { // not compressed
return getResSize(resource);
}
if ((flags & 0x10) != 0) {
return JKRDecompExpandSize((u8 *)resource);
}
u8 buf[64];
u8 *bufPtr = (u8 *)ALIGN_NEXT((u32)buf, 32);
if ((flags & 0x20) != 0) {
u32 addr = mAramPart->mAddress;
addr = fileEntry->data_offset + addr;
JKRAramToMainRam(addr, bufPtr, sizeof(buf) / 2, EXPAND_SWITCH_UNKNOWN0, 0, NULL, -1, NULL);
DCInvalidateRange(bufPtr, sizeof(buf) / 2);
}
else if ((flags & 0x40) != 0) {
JKRDvdToMainRam(mEntryNum, bufPtr, EXPAND_SWITCH_UNKNOWN2, sizeof(buf) / 2, NULL, JKRDvdRipper::ALLOC_DIRECTION_FORWARD, field_0x6c + fileEntry->data_offset, NULL, NULL);
DCInvalidateRange(bufPtr, sizeof(buf) / 2);
}
else {
JUTException::panic_f(__FILE__, 0x3af, "%s", "illegal resource.");
}
u32 expandSize = JKRDecompExpandSize(bufPtr);
const_cast<JKRCompArchive *>(this)->setExpandSize(fileEntry, expandSize);
return expandSize;
}
#pragma pop
/* 8039D220-8039D220 029880 0000+00 0/0 0/0 0/0 .rodata @stringBase0 */
+2 -1
View File
@@ -1078,7 +1078,7 @@ JKRExpHeap::CMemBlock* JKRExpHeap::CMemBlock::getHeapBlock(void* ptr) {
/* 802D0938-802D09E0 2CB278 00A8+00 1/0 0/0 0/0 .text
* state_register__10JKRExpHeapCFPQ27JKRHeap6TStateUl */
void JKRExpHeap::state_register(JKRHeap::TState* p, u32 param_1) const {
u32 JKRExpHeap::state_register(JKRHeap::TState* p, u32 param_1) const {
p->mId = param_1;
if (param_1 <= 0xff) {
p->mUsedSize = getUsedSize(param_1);
@@ -1099,6 +1099,7 @@ void JKRExpHeap::state_register(JKRHeap::TState* p, u32 param_1) const {
}
}
p->mCheckCode = checkCode;
return checkCode;
}
/* 802D09E0-802D0A10 2CB320 0030+00 1/0 0/0 0/0 .text
+1 -1
View File
@@ -516,7 +516,7 @@ void operator delete[](void* ptr) {
/* 802CED84-802CED88 2C96C4 0004+00 1/0 1/0 0/0 .text
* state_register__7JKRHeapCFPQ27JKRHeap6TStateUl */
void JKRHeap::state_register(JKRHeap::TState* p, u32 id) const {
u32 JKRHeap::state_register(JKRHeap::TState* p, u32 id) const {
JUT_ASSERT(__FILE__, 1213, p != 0);
JUT_ASSERT(__FILE__, 1214, p->getHeap() == this);
}
+21 -95
View File
@@ -9,7 +9,6 @@
#include "JSystem/JKernel/JKRHeap.h"
#include "JSystem/JUtility/JUTException.h"
#include "MSL_C/string.h"
#include "dol2asm.h"
#include "dolphin/os/OSCache.h"
#include "global.h"
@@ -17,53 +16,10 @@
// Forward References:
//
extern "C" void __ct__13JKRMemArchiveFlQ210JKRArchive15EMountDirection();
extern "C" void __ct__13JKRMemArchiveFPvUl15JKRMemBreakFlag();
extern "C" void __dt__13JKRMemArchiveFv();
extern "C" void open__13JKRMemArchiveFlQ210JKRArchive15EMountDirection();
extern "C" void open__13JKRMemArchiveFPvUl15JKRMemBreakFlag();
extern "C" void fetchResource__13JKRMemArchiveFPQ210JKRArchive12SDIFileEntryPUl();
extern "C" void fetchResource__13JKRMemArchiveFPvUlPQ210JKRArchive12SDIFileEntryPUl();
extern "C" void removeResourceAll__13JKRMemArchiveFv();
extern "C" void removeResource__13JKRMemArchiveFPv();
extern "C" void fetchResource_subroutine__13JKRMemArchiveFPUcUlPUcUli();
extern "C" void getExpandedResSize__13JKRMemArchiveCFPCv();
extern "C" extern char const* const JKRMemArchive__stringBase0;
//
// External References:
//
extern "C" void free__7JKRHeapFPvP7JKRHeap();
extern "C" void findFromRoot__7JKRHeapFPv();
extern "C" void __dl__FPv();
extern "C" void unmount__13JKRFileLoaderFv();
extern "C" void becomeCurrent__10JKRArchiveFPCc();
extern "C" void getResource__10JKRArchiveFPCc();
extern "C" void getResource__10JKRArchiveFUlPCc();
extern "C" void readResource__10JKRArchiveFPvUlUlPCc();
extern "C" void readResource__10JKRArchiveFPvUlPCc();
extern "C" void detachResource__10JKRArchiveFPv();
extern "C" void getResSize__10JKRArchiveCFPCv();
extern "C" void countFile__10JKRArchiveCFPCc();
extern "C" void getFirstFile__10JKRArchiveCFPCc();
extern "C" void __ct__10JKRArchiveFlQ210JKRArchive10EMountMode();
extern "C" void __dt__10JKRArchiveFv();
extern "C" void findPtrResource__10JKRArchiveCFPCv();
extern "C" void setExpandSize__10JKRArchiveFPQ210JKRArchive12SDIFileEntryUl();
extern "C" void getExpandSize__10JKRArchiveCFPQ210JKRArchive12SDIFileEntry();
extern "C" void
loadToMainRAM__12JKRDvdRipperFlPUc15JKRExpandSwitchUlP7JKRHeapQ212JKRDvdRipper15EAllocDirectionUlPiPUl();
extern "C" void orderSync__9JKRDecompFPUcPUcUlUl();
extern "C" void prepend__10JSUPtrListFP10JSUPtrLink();
extern "C" void remove__10JSUPtrListFP10JSUPtrLink();
extern "C" void panic_f__12JUTExceptionFPCciPCce();
extern "C" void _savegpr_28();
extern "C" void _savegpr_29();
extern "C" void _restgpr_28();
extern "C" void _restgpr_29();
extern "C" u8 sVolumeList__13JKRFileLoader[12];
//
// Declarations:
//
@@ -116,10 +72,6 @@ JKRMemArchive::~JKRMemArchive() {
/* 802D6BCC-802D6D30 2D150C 0164+00 1/1 0/0 0/0 .text
* open__13JKRMemArchiveFlQ210JKRArchive15EMountDirection */
// full match, except:
// mArchiveData = (u8*)(mArcHeader->file_data_offset + mArcHeader->header_length + (u32)mArcHeader);
// where the addition is swapped.
#ifdef NONMATCHING
bool JKRMemArchive::open(long entryNum, JKRArchive::EMountDirection mountDirection) {
mArcHeader = NULL;
mArcInfoBlock = NULL;
@@ -132,17 +84,18 @@ bool JKRMemArchive::open(long entryNum, JKRArchive::EMountDirection mountDirecti
if (mMountDirection == JKRArchive::MOUNT_DIRECTION_HEAD) {
u32 loadedSize;
mArcHeader = (SArcHeader*)JKRDvdRipper::loadToMainRAM(
mArcHeader = (SArcHeader *)JKRDvdRipper::loadToMainRAM(
entryNum, NULL, EXPAND_SWITCH_UNKNOWN1, 0, mHeap, JKRDvdRipper::ALLOC_DIRECTION_FORWARD,
0, &mCompression, &loadedSize);
0, (int *)&mCompression, &loadedSize);
if (mArcHeader) {
DCInvalidateRange(mArcHeader, loadedSize);
}
} else {
}
else {
u32 loadedSize;
mArcHeader = (SArcHeader*)JKRDvdRipper::loadToMainRAM(
mArcHeader = (SArcHeader *)JKRDvdRipper::loadToMainRAM(
entryNum, NULL, EXPAND_SWITCH_UNKNOWN1, 0, mHeap,
JKRDvdRipper::ALLOC_DIRECTION_BACKWARD, 0, &mCompression, &loadedSize);
JKRDvdRipper::ALLOC_DIRECTION_BACKWARD, 0, (int *)&mCompression, &loadedSize);
if (mArcHeader) {
DCInvalidateRange(mArcHeader, loadedSize);
}
@@ -150,62 +103,35 @@ bool JKRMemArchive::open(long entryNum, JKRArchive::EMountDirection mountDirecti
if (!mArcHeader) {
mMountMode = UNKNOWN_MOUNT_MODE;
} else {
ASSERT(mArcHeader->signature == 'RARC');
mArcInfoBlock = (SArcDataInfo*)((u8*)mArcHeader + mArcHeader->header_length);
mNodes = (SDIDirEntry*)((u8*)&mArcInfoBlock->num_nodes + mArcInfoBlock->node_offset);
mFiles = (SDIFileEntry*)((u8*)&mArcInfoBlock->num_nodes + mArcInfoBlock->file_entry_offset);
mStringTable = (char*)((u8*)&mArcInfoBlock->num_nodes + mArcInfoBlock->string_table_offset);
}
else {
mArcInfoBlock = (SArcDataInfo *)((u8 *)mArcHeader + mArcHeader->header_length);
mNodes = (SDIDirEntry *)((u8 *)&mArcInfoBlock->num_nodes + mArcInfoBlock->node_offset);
mFiles = (SDIFileEntry *)((u8 *)&mArcInfoBlock->num_nodes + mArcInfoBlock->file_entry_offset);
mStringTable = (char *)((u8 *)&mArcInfoBlock->num_nodes + mArcInfoBlock->string_table_offset);
mArchiveData =
(u8*)(mArcHeader->file_data_offset + mArcHeader->header_length + (u32)mArcHeader);
(u8 *)((u32)mArcHeader + mArcHeader->header_length + mArcHeader->file_data_offset);
mIsOpen = true;
}
return mMountMode != UNKNOWN_MOUNT_MODE;
return (mMountMode == UNKNOWN_MOUNT_MODE) ? false : true;
}
#else
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
asm bool JKRMemArchive::open(s32 param_0, JKRArchive::EMountDirection param_1) {
nofralloc
#include "asm/JSystem/JKernel/JKRMemArchive/open__13JKRMemArchiveFlQ210JKRArchive15EMountDirection.s"
}
#pragma pop
#endif
/* 802D6D30-802D6DDC 2D1670 00AC+00 1/1 0/0 0/0 .text open__13JKRMemArchiveFPvUl15JKRMemBreakFlag
*/
// full match, except:
// mArchiveData = (u8*)(mArcHeader->file_data_offset + mArcHeader->header_length + (u32)mArcHeader);
// where the addition is swapped.
#ifdef NONMATCHING
bool JKRMemArchive::open(void* buffer, u32 bufferSize, JKRMemBreakFlag flag) {
mArcHeader = (SArcHeader*)buffer;
ASSERT(mArcHeader->signature == 'RARC');
mArcInfoBlock = (SArcDataInfo*)((u8*)mArcHeader + mArcHeader->header_length);
mNodes = (SDIDirEntry*)((u8*)&mArcInfoBlock->num_nodes + mArcInfoBlock->node_offset);
mFiles = (SDIFileEntry*)((u8*)&mArcInfoBlock->num_nodes + mArcInfoBlock->file_entry_offset);
mStringTable = (char*)((u8*)&mArcInfoBlock->num_nodes + mArcInfoBlock->string_table_offset);
mArchiveData =
(u8*)(mArcHeader->file_data_offset + mArcHeader->header_length + (u32)mArcHeader);
mIsOpen = (flag == JKRMEMBREAK_FLAG_UNKNOWN1);
mArcHeader = (SArcHeader *)buffer;
mArcInfoBlock = (SArcDataInfo *)((u8 *)mArcHeader + mArcHeader->header_length);
mNodes = (SDIDirEntry *)((u8 *)&mArcInfoBlock->num_nodes + mArcInfoBlock->node_offset);
mFiles = (SDIFileEntry *)((u8 *)&mArcInfoBlock->num_nodes + mArcInfoBlock->file_entry_offset);
mStringTable = (char *)((u8 *)&mArcInfoBlock->num_nodes + mArcInfoBlock->string_table_offset);
mArchiveData = (u8 *)(((u32)mArcHeader + mArcHeader->header_length) + mArcHeader->file_data_offset);
mIsOpen = (flag == JKRMEMBREAK_FLAG_UNKNOWN1) ? true : false; // mIsOpen might be u8
mHeap = JKRHeap::findFromRoot(buffer);
mCompression = COMPRESSION_NONE;
return true;
}
#else
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
asm bool JKRMemArchive::open(void* param_0, u32 param_1, JKRMemBreakFlag param_2) {
nofralloc
#include "asm/JSystem/JKernel/JKRMemArchive/open__13JKRMemArchiveFPvUl15JKRMemBreakFlag.s"
}
#pragma pop
#endif
/* 802D6DDC-802D6E10 2D171C 0034+00 1/0 0/0 0/0 .text
* fetchResource__13JKRMemArchiveFPQ210JKRArchive12SDIFileEntryPUl */
+3 -63
View File
@@ -5,67 +5,18 @@
#include "JSystem/JKernel/JKRSolidHeap.h"
#include "JSystem/JUtility/JUTAssert.h"
#include "JSystem/JUtility/JUTConsole.h"
#include "MSL_C/math.h"
#include "dol2asm.h"
#include "global.h"
//
// Forward References:
//
extern "C" void create__12JKRSolidHeapFUlP7JKRHeapb();
extern "C" void do_destroy__12JKRSolidHeapFv();
extern "C" void __ct__12JKRSolidHeapFPvUlP7JKRHeapb();
extern "C" void __dt__12JKRSolidHeapFv();
extern "C" void adjustSize__12JKRSolidHeapFv();
extern "C" void do_alloc__12JKRSolidHeapFUli();
extern "C" void allocFromHead__12JKRSolidHeapFUli();
extern "C" void allocFromTail__12JKRSolidHeapFUli();
extern "C" void do_free__12JKRSolidHeapFPv();
extern "C" void do_freeAll__12JKRSolidHeapFv();
extern "C" void do_freeTail__12JKRSolidHeapFv();
extern "C" void do_fillFreeArea__12JKRSolidHeapFv();
extern "C" void do_resize__12JKRSolidHeapFPvUl();
extern "C" void do_getSize__12JKRSolidHeapFPv();
extern "C" void check__12JKRSolidHeapFv();
extern "C" void dump__12JKRSolidHeapFv();
extern "C" void state_register__12JKRSolidHeapCFPQ27JKRHeap6TStateUl();
extern "C" void state_compare__12JKRSolidHeapCFRCQ27JKRHeap6TStateRCQ27JKRHeap6TState();
extern "C" void getHeapType__12JKRSolidHeapFv();
extern "C" void do_getFreeSize__12JKRSolidHeapFv();
extern "C" void do_getMaxFreeBlock__12JKRSolidHeapFv();
extern "C" void do_getTotalFreeSize__12JKRSolidHeapFv();
extern "C" extern char const* const JKRSolidHeap__stringBase0;
//
// External References:
//
extern "C" bool dump_sort__7JKRHeapFv();
extern "C" void __ct__7JKRHeapFPvUlP7JKRHeapb();
extern "C" void __dt__7JKRHeapFv();
extern "C" void alloc__7JKRHeapFUliP7JKRHeap();
extern "C" void free__7JKRHeapFPvP7JKRHeap();
extern "C" void callAllDisposer__7JKRHeapFv();
extern "C" void resize__7JKRHeapFPvUl();
extern "C" void getFreeSize__7JKRHeapFv();
extern "C" void getTotalFreeSize__7JKRHeapFv();
extern "C" void getMaxAllocatableSize__7JKRHeapFi();
extern "C" void dispose__7JKRHeapFPvPv();
extern "C" void dispose__7JKRHeapFv();
extern "C" void __dl__FPv();
extern "C" void state_dump__7JKRHeapCFRCQ27JKRHeap6TState();
extern "C" bool do_changeGroupID__7JKRHeapFUc();
extern "C" bool do_getCurrentGroupId__7JKRHeapFv();
extern "C" void JUTReportConsole_f(const char*, ...);
extern "C" void JUTWarningConsole_f(const char*, ...);
extern "C" void _savegpr_28();
extern "C" void _savegpr_29();
extern "C" void _restgpr_28();
extern "C" void _restgpr_29();
extern "C" u8 sRootHeap__7JKRHeap[4];
extern "C" u8 mErrorHandler__7JKRHeap[4];
//
// Declarations:
//
@@ -315,9 +266,7 @@ bool JKRSolidHeap::dump(void) {
}
/* 802D11FC-802D1258 2CBB3C 005C+00 1/0 0/0 0/0 .text
* state_register__12JKRSolidHeapCFPQ27JKRHeap6TStateUl */
// full match expect using the wrong register
#ifdef NONMATCHING
void JKRSolidHeap::state_register(JKRHeap::TState* p, u32 id) const {
u32 JKRSolidHeap::state_register(JKRHeap::TState* p, u32 id) const {
JUT_ASSERT(__FILE__, 0x25c, p != 0);
JUT_ASSERT(__FILE__, 0x25d, p->getHeap() == this);
@@ -325,17 +274,8 @@ void JKRSolidHeap::state_register(JKRHeap::TState* p, u32 id) const {
setState_u32ID_(p, id);
setState_uUsedSize_(p, getUsedSize((JKRSolidHeap*)this));
setState_u32CheckCode_(p, (u32)mSolidHead + (u32)mSolidTail * 3);
return (u32)mSolidHead + (u32)mSolidTail * 3;
}
#else
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
asm void JKRSolidHeap::state_register(JKRHeap::TState* param_0, u32 param_1) const {
nofralloc
#include "asm/JSystem/JKernel/JKRSolidHeap/state_register__12JKRSolidHeapCFPQ27JKRHeap6TStateUl.s"
}
#pragma pop
#endif
/* 802D1258-802D1288 2CBB98 0030+00 1/0 0/0 0/0 .text
* state_compare__12JKRSolidHeapCFRCQ27JKRHeap6TStateRCQ27JKRHeap6TState */
+13 -27
View File
@@ -4,55 +4,41 @@
//
#include "JSystem/JParticle/JPAKeyBlock.h"
#include "dol2asm.h"
#include "dolphin/types.h"
#include "JSystem/JParticle/JPAMath.h"
//
// Types:
//
struct JPAKeyBlock {
/* 8027D730 */ JPAKeyBlock(u8 const*);
/* 8027D740 */ void calc(f32);
};
//
// Forward References:
//
extern "C" void __ct__11JPAKeyBlockFPCUc();
extern "C" void calc__11JPAKeyBlockFf();
//
// External References:
//
extern "C" void JPACalcKeyAnmValue__FfUsPCf();
//
// Declarations:
//
/* 8027D730-8027D740 278070 0010+00 0/0 1/1 0/0 .text __ct__11JPAKeyBlockFPCUc */
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
asm JPAKeyBlock::JPAKeyBlock(u8 const* param_0) {
nofralloc
#include "asm/JSystem/JParticle/JPAKeyBlock/__ct__11JPAKeyBlockFPCUc.s"
JPAKeyBlock::JPAKeyBlock(const u8* data)
: mDataStart(data)
, field_0x4(reinterpret_cast<const float*>(&data[0xC]))
{
}
#pragma pop
/* ############################################################################################## */
/* 80455350-80455358 003950 0008+00 1/1 0/0 0/0 .sdata2 @2215 */
SECTION_SDATA2 static f64 lit_2215 = 4503601774854144.0 /* cast s32 to float */;
/* 8027D740-8027D7D4 278080 0094+00 0/0 1/1 0/0 .text calc__11JPAKeyBlockFf */
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
asm void JPAKeyBlock::calc(f32 param_0) {
nofralloc
#include "asm/JSystem/JParticle/JPAKeyBlock/calc__11JPAKeyBlockFf.s"
void JPAKeyBlock::calc(float p1) {
if (mDataStart[0xB] != '\0') {
int v1 = (int)field_0x4[(mDataStart[9] - 1) * 4] + 1;
// p1 -= (v1 * ((int)p1 / v1));
int v2 = ((int)p1 / v1);
p1 = p1 - (v2 * v1);
}
JPACalcKeyAnmValue(p1, mDataStart[9], field_0x4);
}
#pragma pop
+11 -15
View File
@@ -4,7 +4,6 @@
//
#include "JSystem/JStudio/JStudio/fvb-data-parse.h"
#include "dol2asm.h"
#include "dolphin/types.h"
//
@@ -15,28 +14,25 @@
// Forward References:
//
extern "C" void
getData__Q47JStudio3fvb4data17TParse_TParagraphCFPQ57JStudio3fvb4data17TParse_TParagraph5TData();
//
// External References:
//
extern "C" void
parseVariableUInt_16_32_following__Q27JGadget6binaryFPCvPUlPUlPQ37JGadget6binary5TEBit();
//
// Declarations:
//
/* 802850AC-80285114 27F9EC 0068+00 0/0 1/1 0/0 .text
* getData__Q47JStudio3fvb4data17TParse_TParagraphCFPQ57JStudio3fvb4data17TParse_TParagraph5TData */
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
asm void JStudio::fvb::data::TParse_TParagraph::getData(
JStudio::fvb::data::TParse_TParagraph::TData* param_0) const {
nofralloc
#include "asm/JSystem/JStudio/JStudio/fvb-data-parse/func_802850AC.s"
void JStudio::fvb::data::TParse_TParagraph::getData(TParse_TParagraph::TData* data) const
{
u16* parse = (u16*)JGadget::binary::parseVariableUInt_16_32_following(getRaw(), (u32*)data, (u32*)&data->u32Type, NULL);
u32 t = (u32)data->u32Size;
if (!t) {
data->pContent = NULL;
data->next = parse;
} else {
data->pContent = parse;
data->next = parse + ((t + 3) >> 1 & ~1);
}
}
#pragma pop
+27 -42
View File
@@ -4,15 +4,12 @@
//
#include "JSystem/JStudio/JStudio/stb-data-parse.h"
#include "dol2asm.h"
#include "global.h"
namespace JStudio {
namespace stb {
namespace data {
extern "C" u32 gauDataSize_TEParagraph_data__Q37JStudio3stb4data[];
void TParse_TSequence::getData(TData* pData) const {
ASSERT(pData != 0);
@@ -50,48 +47,36 @@ void TParse_TParagraph::getData(TData* pData) const {
}
}
#ifdef NONMATCHING
void TParse_TParagraph_data::getData(data::TParse_TParagraph_data::TData* pData) const {
ASSERT(pData != 0);
u8* set2;
pData->_4 = 0;
pData->_8 = 0;
pData->_c = NULL;
pData->_10 = 0;
u8* p = (u8*)getRaw();
if (p != NULL) {
u8 val = *p;
pData->_0 = val & ~8;
if (val != 0) {
u32 count = 1;
p++;
if (val & 8) {
count = *(p++);
}
pData->_8 = count;
pData->_c = p;
u8 idx = val & 7;
if (idx) {
u32 size = gauDataSize_TEParagraph_data[idx];
pData->_4 = size;
pData->_10 = p + size * count;
}
}
}
int dSize = pData->dataSize = 0;
pData->_8 = 0;
pData->fileCount = NULL;
pData->_10 = NULL;
u8* filedata = (u8*)getRaw();
if (filedata == NULL)
return;
u8 set = *filedata;
pData->status = set & ~0x8;
if (!set)
return;
int is8;
int set3 = 1;
is8 = set & 8;
// Probably fake match
if (set2 = (filedata + 1), is8) {
set3 = *set2++;
}
pData->_8 = set3;
pData->fileCount = set2;
if (!(set & 7))
return;
dSize = (gauDataSize_TEParagraph_data)[set &= 7];
pData->dataSize = dSize;
pData->_10 = (u8*)set2 + (dSize * set3);
}
#else
/* 80289A80-80289B00 2843C0 0080+00 0/0 3/3 1/1 .text
* getData__Q47JStudio3stb4data22TParse_TParagraph_dataCFPQ57JStudio3stb4data22TParse_TParagraph_data5TData
*/
#pragma push
#pragma optimization_level 0
#pragma optimizewithasm off
asm void TParse_TParagraph_data::getData(TParse_TParagraph_data::TData* param_0) const {
nofralloc
#include "asm/JSystem/JStudio/JStudio/stb-data-parse/func_80289A80.s"
}
#pragma pop
#endif
} // namespace data
} // namespace stb