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#include "global.h"
#include "filesystem.h"
#include "msg_data.h"
#include "heap.h"
#include "MI_memory.h"
#include "string16.h"
#include "proto.h"
#pragma thumb on
void * LoadSingleElementFromNarc(NarcId narc_id, s32 file_id, u32 heap_id);
void FreeMsgDataRawData(void * data);
void CopyEncryptedMessage16(u16 * dest, const u16 * src, struct UnkStruct_200A394_4 * param);
void DecryptMessageDirect(struct UnkStruct_200A394 * r3, u32 r5, u16 * r4);
void DecryptMessageViaNewNarcHandle(NarcId narc_id, u32 group, u32 num, u32 heap_id, u16 * dest);
void FUN_0200A4D4(struct UnkStruct_200A394 * r5, u32 r4, struct String * dest);
struct String * FUN_0200A584(struct UnkStruct_200A394 * r5, u32 r4, u32 heap_id);
void FUN_0200A648(NarcId narc_id, u32 group, u32 num, u32 heap_id, struct String * dest);
void FUN_0200A670(NARC * narc, u32 group, u32 num, u32 heap_id, struct String * dest);
struct String * FUN_0200A738(NarcId narc_id, u32 group, u32 num, u32 heap_id);
struct String * FUN_0200A76C(NARC * narc, u32 group, u32 num, u32 heap_id);
u16 FUN_0200A848(struct UnkStruct_200A394 * tbl);
u16 FUN_0200A84C(NarcId narc_id, s32 file_id);
void * LoadSingleElementFromNarc(NarcId narc_id, s32 file_id, u32 heap_id)
{
return AllocAndReadWholeNarcMemberByIdPair(narc_id, file_id, heap_id);
}
void FreeMsgDataRawData(void * data)
{
FreeToHeap(data);
}
inline static void Decrypt1(struct UnkStruct_200A394_4 * arg0, u32 arg1, u32 seed)
{
seed = seed * 765 * (arg1 + 1) & 0xffff;
seed |= seed << 16;
arg0->unk0 ^= seed;
arg0->unk4 ^= seed;
}
inline static void Decrypt2(u16 * arg0, u32 count, u32 arg2)
{
u16 seed = (u16)((arg2 + 1) * 596947);
while (count-- > 0)
{
*arg0 ^= seed;
arg0++;
seed += 18749;
}
}
void DecryptMessageDirect(struct UnkStruct_200A394 * table, u32 num, u16 * dest)
{
struct UnkStruct_200A394_4 sp0;
if (num < table->unk0)
{
sp0 = table->unk4[num];
Decrypt1(&sp0, num, table->unk2);
CopyEncryptedMessage16(dest, (const u16 *)((u8 *)table + sp0.unk0), &sp0);
Decrypt2(dest, sp0.unk4, num);
}
else
{
GF_ASSERT(0);
}
}
void DecryptMessageViaNewNarcHandle(NarcId narc_id, u32 group, u32 num, u32 heap_id, u16 * dest)
{
NARC * narc = NARC_ctor(narc_id, heap_id);
u16 spC[2];
struct UnkStruct_200A394_4 sp4;
if (narc != NULL)
{
NARC_ReadFromMember(narc, group, 0, 4, spC);
NARC_ReadFromMember(narc, group, 8 * num + 4, 8, &sp4);
Decrypt1(&sp4, num, spC[1]);
NARC_ReadFromMember(narc, group, sp4.unk0, 2 * sp4.unk4, dest);
Decrypt2(dest, sp4.unk4, num);
NARC_dtor(narc);
}
}
void CopyEncryptedMessage16(u16 * dest, const u16 * src, struct UnkStruct_200A394_4 * param)
{
MI_CpuCopy16(src, dest, 2 * param->unk4);
}
void FUN_0200A4D4(struct UnkStruct_200A394 * table, u32 num, struct String * dest)
{
struct UnkStruct_200A394_4 sp4;
u16 * buf;
if (num < table->unk0)
{
sp4 = table->unk4[num];
Decrypt1(&sp4, num, table->unk2);
buf = AllocFromHeapAtEnd(0, 2 * sp4.unk4);
if (buf != NULL)
{
MI_CpuCopy16((char *)table + sp4.unk0, buf, 2 * sp4.unk4);
Decrypt2(buf, sp4.unk4, num);
FUN_02021E8C(dest, buf, sp4.unk4);
FreeToHeap(buf);
}
}
else
{
GF_ASSERT(0);
FUN_02021A4C(dest);
}
}
struct String * FUN_0200A584(struct UnkStruct_200A394 * table, u32 num, u32 heap_id)
{
struct UnkStruct_200A394_4 sp4;
u16 * buf;
struct String * dest;
if (num < table->unk0)
{
sp4 = table->unk4[num];
Decrypt1(&sp4, num, table->unk2);
buf = AllocFromHeapAtEnd(heap_id, 2 * sp4.unk4);
if (buf != NULL)
{
MI_CpuCopy16((char *)table + sp4.unk0, buf, 2 * sp4.unk4);
Decrypt2(buf, sp4.unk4, num);
dest = FUN_020219F4(sp4.unk4, heap_id);
if (dest != NULL)
FUN_02021E8C(dest, buf, sp4.unk4);
FreeToHeap(buf);
return dest;
}
else
{
return NULL;
}
}
else
{
GF_ASSERT(0);
return FUN_020219F4(4, heap_id);
}
}
void FUN_0200A648(NarcId narc_id, u32 group, u32 num, u32 heap_id, struct String * dest)
{
NARC * narc = NARC_ctor(narc_id, heap_id);
if (narc != NULL)
{
FUN_0200A670(narc, group, num, heap_id, dest);
NARC_dtor(narc);
}
}
void FUN_0200A670(NARC * narc, u32 group, u32 num, u32 heap_id, struct String * dest)
{
u16 * buf;
u32 size;
u16 sp10[2];
struct UnkStruct_200A394_4 sp8;
NARC_ReadFromMember(narc, group, 0, 4, sp10);
if (num < sp10[0])
{
NARC_ReadFromMember(narc, group, 8 * num + 4, 8, &sp8);
Decrypt1(&sp8, num, sp10[1]);
size = sp8.unk4 * 2;
buf = AllocFromHeapAtEnd(heap_id, size);
if (buf != NULL)
{
NARC_ReadFromMember(narc, group, sp8.unk0, size, buf);
Decrypt2(buf, sp8.unk4, num);
FUN_02021E8C(dest, buf, sp8.unk4);
FreeToHeap(buf);
return;
}
}
else
{
GF_ASSERT(0);
FUN_02021A4C(dest);
}
}
struct String * FUN_0200A738(NarcId narc_id, u32 group, u32 num, u32 heap_id)
{
NARC * narc = NARC_ctor(narc_id, heap_id);
struct String * string;
if (narc != NULL)
{
string = FUN_0200A76C(narc, group, num, heap_id);
NARC_dtor(narc);
}
else
{
string = FUN_020219F4(4, heap_id);
}
return string;
}
struct String * FUN_0200A76C(NARC * narc, u32 group, u32 num, u32 heap_id)
{
struct String * dest;
u16 * buf;
u32 size;
u16 sp10[2];
struct UnkStruct_200A394_4 sp8;
NARC_ReadFromMember(narc, group, 0, 4, sp10);
if (num < sp10[0])
{
NARC_ReadFromMember(narc, group, 8 * num + 4, 8, &sp8);
Decrypt1(&sp8, num, sp10[1]);
dest = FUN_020219F4(sp8.unk4, heap_id);
if (dest != NULL)
{
size = sp8.unk4 * 2;
buf = AllocFromHeapAtEnd(heap_id, size);
if (buf != NULL)
{
NARC_ReadFromMember(narc, group, sp8.unk0, size, buf);
Decrypt2(buf, sp8.unk4, num);
FUN_02021E8C(dest, buf, sp8.unk4);
FreeToHeap(buf);
}
}
return dest;
}
else
{
GF_ASSERT(0);
return FUN_020219F4(4, heap_id);
}
}
u16 FUN_0200A848(struct UnkStruct_200A394 * tbl)
{
return tbl->unk0;
}
u16 FUN_0200A84C(NarcId narc_id, s32 file_id)
{
u16 n[2];
ReadFromNarcMemberByIdPair(&n, narc_id, file_id, 0, 4);
return n[0];
}
struct MsgData * NewMsgDataFromNarc(u32 type, NarcId narc_id, s32 file_id, u32 heap_id)
{
struct MsgData * msgData = AllocFromHeapAtEnd(heap_id, sizeof(struct MsgData));
if (msgData != NULL)
{
if (type == 0)
{
msgData->data.raw = LoadSingleElementFromNarc(narc_id, file_id, heap_id);
if (msgData->data.raw == NULL)
{
FreeToHeap(msgData);
return NULL;
}
}
else
{
msgData->data.narc = NARC_ctor(narc_id, heap_id);
}
msgData->type = (u16)type;
msgData->narc_id = (u16)narc_id;
msgData->file_id = (u16)file_id;
msgData->heap_id = (u16)heap_id;
}
return msgData;
}
void DestroyMsgData(struct MsgData * msgData)
{
if (msgData != NULL)
{
switch (msgData->type)
{
case 0:
FreeMsgDataRawData(msgData->data.raw);
break;
case 1:
NARC_dtor(msgData->data.narc);
break;
}
FreeToHeap(msgData);
}
}
void FUN_0200A8E0(struct MsgData * msgData, u32 msg_no, struct String * dest)
{
switch (msgData->type)
{
case 0:
FUN_0200A4D4(msgData->data.raw, msg_no, dest);
break;
case 1:
FUN_0200A670(msgData->data.narc, msgData->file_id, msg_no, msgData->heap_id, dest);
break;
}
}
struct String * FUN_0200A914(struct MsgData * msgData, u32 msg_no)
{
switch (msgData->type)
{
case 0:
return FUN_0200A584(msgData->data.raw, msg_no, msgData->heap_id);
case 1:
return FUN_0200A76C(msgData->data.narc, msgData->file_id, msg_no, msgData->heap_id);
default:
return NULL;
}
}
u16 FUN_0200A940(struct MsgData * msgData)
{
switch (msgData->type)
{
case 0:
return FUN_0200A848(msgData->data.raw);
case 1:
return FUN_0200A84C((NarcId)msgData->narc_id, msgData->file_id);
default:
return 0;
}
}
void DecryptCopyString(struct MsgData * msgData, u32 msg_no, u16 * dest)
{
switch (msgData->type)
{
case 0:
DecryptMessageDirect(msgData->data.raw, msg_no, dest);
break;
case 1:
DecryptMessageViaNewNarcHandle((NarcId)msgData->narc_id, msgData->file_id, msg_no, msgData->heap_id, dest);
break;
}
}
void GetSpeciesName(u16 species, u32 heap_id, u16 * dest)
{
struct MsgData * msgData = NewMsgDataFromNarc(1, NARC_MSGDATA_MSG, 362, heap_id);
DecryptCopyString(msgData, species, dest);
DestroyMsgData(msgData);
}
struct String * FUN_0200A9C4(u32 * a0, struct MsgData * msgData, u32 msgno, struct String * a3)
{
struct String * ret = NULL;
struct String * r4 = FUN_020219F4(1024, 0);
struct String * r5;
if (r4 != NULL)
{
r5 = FUN_0200A914(msgData, msgno);
if (r5 != NULL)
{
FUN_0200B7B8(a0, r4, r5);
ret = FUN_02021ACC(r4, a3);
FUN_02021A20(r5);
}
FUN_02021A20(r4);
}
return ret;
}
struct String * FUN_0200AA14(u32 msg_no, u32 heapno)
{
struct MsgData * msgData = NewMsgDataFromNarc(1, NARC_MSGDATA_MSG, 588, heapno);
struct String * ret;
if (msgData != NULL)
{
ret = FUN_020219F4(16, heapno);
if (ret != NULL)
{
FUN_0200A8E0(msgData, msg_no, ret);
}
DestroyMsgData(msgData);
return ret;
}
return NULL;
}
struct String * FUN_0200AA50(u16 species, u32 heap_id)
{
struct String * ret;
struct MsgData * msgData = NewMsgDataFromNarc(1, NARC_MSGDATA_MSG, 362, heap_id);
if (msgData != NULL)
{
ret = FUN_0200A914(msgData, species);
DestroyMsgData(msgData);
return ret;
}
return NULL;
}
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