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mirror of https://github.com/RPCS3/rpcs3.git synced 2024-11-25 12:12:50 +01:00

Merge pull request #145 from Nekotekina/master

Fixed conflicts.
This commit is contained in:
Alexandro Sánchez Bach 2014-03-31 12:04:34 +02:00
parent 8011cc8ec4
commit 01dbb8eb9a
42 changed files with 1687 additions and 613 deletions

3
.gitignore vendored
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@ -55,3 +55,6 @@ rpcs3/git-version.h
!/bin/dev_hdd0/game/
/bin/dev_hdd0/game/*
!/bin/dev_hdd0/game/TEST12345/
# Ignore other system generated files
bin/dev_hdd0/log.txt

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@ -1,15 +1,21 @@
#include <stdafx.h>
#include <Utilities/SMutex.h>
__forceinline void SM_Sleep()
{
Sleep(1);
}
#ifdef _WIN32
__declspec(thread)
#else
thread_local
#endif
size_t g_this_thread_id = 0;
__forceinline size_t SM_GetCurrentThreadId()
{
return std::hash<std::thread::id>()(std::this_thread::get_id());
return g_this_thread_id ? g_this_thread_id : g_this_thread_id = std::hash<std::thread::id>()(std::this_thread::get_id());
}
__forceinline u32 SM_GetCurrentCPUThreadId()

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@ -21,7 +21,7 @@ template
<
typename T,
u64 free_value = 0,
u64 dead_value = ~0,
u64 dead_value = 0xffffffff,
void (*wait)() = SM_Sleep
>
class SMutexBase
@ -139,7 +139,7 @@ class SMutexLockerBase
public:
const T tid;
SMutexLockerBase(SMutexBase<T>& _sm)
__forceinline SMutexLockerBase(SMutexBase<T>& _sm)
: sm(_sm)
, tid(get_tid())
{
@ -155,7 +155,7 @@ public:
sm.lock(tid);
}
~SMutexLockerBase()
__forceinline ~SMutexLockerBase()
{
if (tid) sm.unlock(tid);
}

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@ -3,7 +3,7 @@
template<typename T, u32 SQSize = 666>
class SQueue
{
SMutex m_mutex;
SMutexGeneral m_mutex;
u32 m_pos;
u32 m_count;
T m_data[SQSize];
@ -15,6 +15,11 @@ public:
{
}
const u32 GetSize() const
{
return SQSize;
}
bool Push(const T& data)
{
while (true)
@ -35,7 +40,7 @@ public:
}
{
SMutexLocker lock(m_mutex);
SMutexGeneralLocker lock(m_mutex);
if (m_count >= SQSize) continue;
@ -66,7 +71,7 @@ public:
}
{
SMutexLocker lock(m_mutex);
SMutexGeneralLocker lock(m_mutex);
if (!m_count) continue;
@ -91,7 +96,7 @@ public:
void Clear()
{
SMutexLocker lock(m_mutex);
SMutexGeneralLocker lock(m_mutex);
m_count = 0;
}
@ -115,7 +120,7 @@ public:
}
{
SMutexLocker lock(m_mutex);
SMutexGeneralLocker lock(m_mutex);
if (m_count) break;
}
}

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@ -23,7 +23,7 @@ void AudioDumper::WriteHeader()
size_t AudioDumper::WriteData(const void* buffer, size_t size)
{
for (u32 i = 0; i < size / 8; i++)
/*for (u32 i = 0; i < size / 8; i++)
{
if (((u64*)buffer)[i]) goto process;
}
@ -32,7 +32,7 @@ size_t AudioDumper::WriteData(const void* buffer, size_t size)
if (((u8*)buffer)[i + (size & ~7)]) goto process;
}
return size; // ignore empty data
process:
process:*/
size_t ret = m_output.Write(buffer, size);
m_header.Size += ret;
m_header.RIFF.Size += ret;

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@ -1,5 +1,7 @@
#pragma once
extern u64 get_system_time();
// Error codes
enum
{
@ -20,16 +22,6 @@ enum
CELL_AUDIO_ERROR_AUDIOSYSTEM_NOT_FOUND = 0x8031070e,
CELL_AUDIO_ERROR_TAG_NOT_FOUND = 0x8031070f,
//libmixer Error Codes
CELL_LIBMIXER_ERROR_NOT_INITIALIZED = 0x80310002,
CELL_LIBMIXER_ERROR_INVALID_PARAMATER = 0x80310003,
CELL_LIBMIXER_ERROR_NO_MEMORY = 0x80310005,
CELL_LIBMIXER_ERROR_ALREADY_EXIST = 0x80310006,
CELL_LIBMIXER_ERROR_FULL = 0x80310007,
CELL_LIBMIXER_ERROR_NOT_EXIST = 0x80310008,
CELL_LIBMIXER_ERROR_TYPE_MISMATCH = 0x80310009,
CELL_LIBMIXER_ERROR_NOT_FOUND = 0x8031000a,
//libsnd3 Error Codes
CELL_SND3_ERROR_PARAM = 0x80310301,
CELL_SND3_ERROR_CREATE_MUTEX = 0x80310302,
@ -108,7 +100,6 @@ struct CellAudioPortConfig
struct AudioPortConfig
{
SMutexGeneral m_mutex;
bool m_is_audio_port_opened;
bool m_is_audio_port_started;
u8 channel;
@ -121,7 +112,6 @@ struct AudioPortConfig
struct AudioConfig //custom structure
{
std::mutex m_mutex;
enum
{
AUDIO_PORT_COUNT = 8,
@ -150,7 +140,9 @@ struct AudioConfig //custom structure
memset(&m_ports, 0, sizeof(AudioPortConfig) * AUDIO_PORT_COUNT);
m_port_in_use = 0;
}
} m_config;
};
extern AudioConfig m_config;
//libsnd3 datatypes
struct CellSnd3DataCtx

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@ -6,12 +6,12 @@
struct reservation_struct
{
SMutex mutex; // mutex for updating reservation_owner and data
volatile u32 owner; // id of thread that got reservation
volatile u32 addr;
volatile u32 size;
volatile u32 data32;
volatile u64 data64;
// atm, PPU can't break SPU MFC reservation correctly
u32 owner; // id of thread that got reservation
u32 addr;
u32 size;
u32 data32;
u64 data64;
u128 data[8];
__forceinline void clear()
{

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@ -586,6 +586,8 @@ public:
}
}
Sleep(1); // hack
switch(cmd & ~(MFC_BARRIER_MASK | MFC_FENCE_MASK | MFC_LIST_MASK | MFC_RESULT_MASK))
{
case MFC_PUT_CMD:
@ -702,20 +704,8 @@ public:
wxString(op & MFC_BARRIER_MASK ? "B" : "").wx_str(),
wxString(op & MFC_FENCE_MASK ? "F" : "").wx_str(),
lsa, ea, tag, size, cmd);
if (op & MFC_PUT_CMD)
{
SMutexLocker lock(reservation.mutex); // should be removed
MFCArgs.CMDStatus.SetValue(dmacCmd(cmd, tag, lsa, ea, size));
if ((reservation.addr + reservation.size > ea && reservation.addr <= ea + size) ||
(ea + size > reservation.addr && ea <= reservation.addr + reservation.size))
{
reservation.clear();
}
}
else
{
MFCArgs.CMDStatus.SetValue(dmacCmd(cmd, tag, lsa, ea, size));
}
MFCArgs.CMDStatus.SetValue(dmacCmd(cmd, tag, lsa, ea, size));
}
break;
@ -739,7 +729,7 @@ public:
case MFC_PUTLLUC_CMD:
case MFC_PUTQLLUC_CMD:
{
if (Ini.HLELogging.GetValue()) ConLog.Write("DMA %s: lsa=0x%x, ea = 0x%llx, (tag) = 0x%x, (size) = 0x%x, cmd = 0x%x",
if (Ini.HLELogging.GetValue() || size != 128) ConLog.Write("DMA %s: lsa=0x%x, ea = 0x%llx, (tag) = 0x%x, (size) = 0x%x, cmd = 0x%x",
wxString(op == MFC_GETLLAR_CMD ? "GETLLAR" :
op == MFC_PUTLLC_CMD ? "PUTLLC" :
op == MFC_PUTLLUC_CMD ? "PUTLLUC" : "PUTQLLUC").wx_str(),
@ -751,7 +741,11 @@ public:
reservation.owner = lock.tid;
reservation.addr = ea;
reservation.size = 128;
ProcessCmd(MFC_GET_CMD, tag, lsa, ea, 128);
for (u32 i = 0; i < 8; i++)
{
reservation.data[i] = *(u128*)&Memory[(u32)ea + i * 16];
*(u128*)&Memory[dmac.ls_offset + lsa + i * 16] = reservation.data[i];
}
Prxy.AtomicStat.PushUncond(MFC_GETLLAR_SUCCESS);
}
else if (op == MFC_PUTLLC_CMD) // store conditional
@ -761,8 +755,68 @@ public:
{
if (reservation.addr == ea && reservation.size == 128)
{
ProcessCmd(MFC_PUT_CMD, tag, lsa, ea, 128);
Prxy.AtomicStat.PushUncond(MFC_PUTLLC_SUCCESS);
u128 buf[8]; // data being written newly
u32 changed = 0, mask = 0, last = 0;
for (u32 i = 0; i < 8; i++)
{
buf[i] = *(u128*)&Memory[dmac.ls_offset + lsa + i * 16];
if (buf[i] != reservation.data[i])
{
changed++;
last = i;
mask |= (0xf << (i * 4));
}
}
if (changed == 0) // nothing changed?
{
Prxy.AtomicStat.PushUncond(MFC_PUTLLC_SUCCESS);
}
else if (changed == 1)
{
if (buf[last].hi != reservation.data[last].hi && buf[last].lo != reservation.data[last].lo)
{
ConLog.Error("MFC_PUTLLC_CMD: TODO: 128bit compare and swap");
Emu.Pause();
Prxy.AtomicStat.PushUncond(MFC_PUTLLC_SUCCESS);
}
else
{
const u32 last_q = (buf[last].hi == reservation.data[last].hi);
if (InterlockedCompareExchange64((volatile long long*)(Memory + (u32)ea + last * 16 + last_q * 8),
buf[last]._u64[last_q], reservation.data[last]._u64[last_q]) == reservation.data[last]._u64[last_q])
{
Prxy.AtomicStat.PushUncond(MFC_PUTLLC_SUCCESS);
}
else
{
Prxy.AtomicStat.PushUncond(MFC_PUTLLC_FAILURE);
}
/*u32 last_d = last_q * 2;
if (buf[last]._u32[last_d] == reservation.data[last]._u32[last_d] && buf[last]._u32[last_d+1] != reservation.data[last]._u32[last_d+1])
{
last_d++;
}
else if (buf[last]._u32[last_d+1] == reservation.data[last]._u32[last_d+1])
{
last_d;
}
else // full 64 bit
{
ConLog.Error("MFC_PUTLLC_CMD: TODO: 64bit compare and swap");
Emu.Pause();
Prxy.AtomicStat.PushUncond(MFC_PUTLLC_SUCCESS);
}*/
}
}
else
{
ProcessCmd(MFC_PUT_CMD, tag, lsa, ea, 128);
ConLog.Error("MFC_PUTLLC_CMD: Reservation Error: impossibru (~ 16x%d (mask=0x%x)) (opcode=0x%x, cmd=0x%x, lsa = 0x%x, ea = 0x%llx, tag = 0x%x, size = 0x%x)",
changed, mask, op, cmd, lsa, ea, tag, size);
Emu.Pause();
Prxy.AtomicStat.PushUncond(MFC_PUTLLC_SUCCESS);
}
}
else
{

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@ -170,7 +170,8 @@ public:
}
break;
default: ConLog.Error("Init tex error: Bad tex format (0x%x | %s | 0x%x)", format, is_swizzled ? "swizzled" : "linear", tex.GetFormat() & 0x40); break;
default: ConLog.Error("Init tex error: Bad tex format (0x%x | %s | 0x%x)", format,
wxString(is_swizzled ? "swizzled" : "linear").wx_str(), tex.GetFormat() & 0x40); break;
}
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAX_LEVEL, tex.GetMipmap() - 1);

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@ -651,7 +651,8 @@ void RSXThread::DoCmd(const u32 fcmd, const u32 cmd, mem32_ptr_t& args, const u3
case NV4097_SET_SHADER_PROGRAM:
{
m_cur_shader_prog = &m_shader_progs[/*m_cur_shader_prog_num++*/0];
m_cur_shader_prog = &m_shader_progs[m_cur_shader_prog_num];
//m_cur_shader_prog_num = (m_cur_shader_prog_num + 1) % 16;
u32 a0 = ARGS(0);
m_cur_shader_prog->offset = a0 & ~0x3;
m_cur_shader_prog->addr = GetAddress(m_cur_shader_prog->offset, (a0 & 0x3) - 1);
@ -948,7 +949,17 @@ void RSXThread::DoCmd(const u32 fcmd, const u32 cmd, mem32_ptr_t& args, const u3
case NV4097_SET_VIEWPORT_OFFSET:
{
/*const u32 offset0 = ARGS(0);
const u32 offset1 = ARGS(1);
const u32 offset2 = ARGS(2);
const u32 offset3 = ARGS(3);
const u32 scale0 = ARGS(4);
const u32 scale1 = ARGS(5);
const u32 scale2 = ARGS(6);
const u32 scale3 = ARGS(7);*/
//TODO
//ConLog.Warning("NV4097_SET_VIEWPORT_OFFSET: offset (%d, %d, %d, %d), scale (%d, %d, %d, %d)",
//offset0, offset1, offset2, offset3, scale0, scale1, scale2, scale3);
}
break;
@ -1369,10 +1380,58 @@ void RSXThread::DoCmd(const u32 fcmd, const u32 cmd, mem32_ptr_t& args, const u3
case 0x000002f8:
break;
case NV0039_SET_CONTEXT_DMA_BUFFER_IN:
case NV0039_OFFSET_IN:
case NV0039_OFFSET_OUT:
//TODO
case NV0039_SET_CONTEXT_DMA_BUFFER_IN: // [E : RSXThread]: TODO: unknown/illegal method [0x00002184](0xfeed0000, 0xfeed0000)
{
const u32 srcContext = ARGS(0);
const u32 dstContext = ARGS(1);
if (srcContext == 0xfeed0000 && dstContext == 0xfeed0000)
{
}
else
{
ConLog.Warning("NV0039_SET_CONTEXT_DMA_BUFFER_IN: TODO: srcContext=0x%x, dstContext=0x%x", srcContext, dstContext);
}
}
break;
case NV0039_OFFSET_IN: // [E : RSXThread]: TODO: unknown/illegal method [0x0000230c](0x0, 0xb00400, 0x0, 0x0, 0x384000, 0x1, 0x101, 0x0)
{
const u32 inOffset = ARGS(0);
const u32 outOffset = ARGS(1);
const u32 inPitch = ARGS(2);
const u32 outPitch = ARGS(3);
const u32 lineLength = ARGS(4);
const u32 lineCount = ARGS(5);
const u32 format = ARGS(6);
const u8 outFormat = (format >> 8);
const u8 inFormat = (format >> 0);
const u32 notify = ARGS(7);
if (lineCount == 1 && !inPitch && !outPitch && !notify && format == 0x101)
{
memcpy(&Memory[GetAddress(outOffset, 0)], &Memory[GetAddress(inOffset, 0)], lineLength);
}
else
{
ConLog.Warning("NV0039_OFFSET_IN: TODO: offset(in=0x%x, out=0x%x), pitch(in=0x%x, out=0x%x), line(len=0x%x, cnt=0x%x), fmt(in=0x%x, out=0x%x), notify=0x%x",
inOffset, outOffset, inPitch, outPitch, lineLength, lineCount, inFormat, outFormat, notify);
}
}
break;
case NV0039_OFFSET_OUT: // [E : RSXThread]: TODO: unknown/illegal method [0x00002310](0x0)
{
const u32 offset = ARGS(0);
if (!offset)
{
}
else
{
ConLog.Warning("NV0039_OFFSET_OUT: TODO: offset=0x%x", offset);
}
}
break;
case NV4097_SET_SURFACE_COLOR_AOFFSET:
@ -1531,7 +1590,7 @@ void RSXThread::Task()
continue;
}
for(int i=0; i<count; i++)
for(u32 i=0; i<count; i++)
{
methodRegisters[(cmd & 0xffff) + (i*4*inc)] = ARGS(i);
}

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@ -0,0 +1,2 @@
#include "stdafx.h"
#include "Dialog.h"

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@ -0,0 +1,8 @@
#pragma once
class Dialog
{
public:
void Show();
void Close();
};

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@ -0,0 +1,7 @@
#include "stdafx.h"
#include "MessageDialog.h"
MessageDialog::MessageDialog(std::string message, std::string title, int flags, char* icon)
{
// TODO: Use RSX post-drawing instead of wxWidgets
}

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@ -0,0 +1,15 @@
#pragma once
#include "Dialog.h"
enum MessageDialogFlags
{
MessageDialog_Button_Enter = 0x1,
MessageDialog_Button_Back = 0x2,
MessageDialog_Controls_YesNo = 0x4,
};
class MessageDialog : public Dialog
{
MessageDialog(std::string message, std::string title, int flags, char* icon);
};

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@ -0,0 +1,37 @@
#include "stdafx.h"
#include "SaveDataList.h"
void SaveDataList::Load(const std::vector<SaveDataListEntry>& entries)
{
wxDialog dialog(NULL, wxID_ANY, "test", wxDefaultPosition, wxSize(450, 680));
wxPanel *panel = new wxPanel(&dialog, -1);
wxBoxSizer *vbox = new wxBoxSizer(wxVERTICAL);
wxBoxSizer *hbox = new wxBoxSizer(wxHORIZONTAL);
wxListCtrl* list = new wxListCtrl(&dialog, wxID_ANY, wxPoint(10,10), wxSize(400,600));
list->InsertColumn(0, "Icon");
list->InsertColumn(1, "Information");
wxImageList* pImageList = new wxImageList(320,176);
for (int i=0; i<entries.size(); i++)
{
list->InsertItem (i, i);
list->SetItemColumnImage (i, 0, i);
list->SetItem (i, 1, wxString::Format("%d",i+1));
wxImage img(320, 176, entries[i].iconBuffer);
pImageList->Add(img);
}
list->SetImageList(pImageList, wxIMAGE_LIST_SMALL);
panel->AddChild(list);
vbox->Add(panel, 1);
vbox->Add(hbox, 0, wxALIGN_CENTER | wxTOP | wxBOTTOM, 10);
dialog.SetSizer(vbox);
dialog.Centre();
dialog.ShowModal();
dialog.Destroy();
}

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@ -0,0 +1,9 @@
#pragma once
#include "Dialog.h"
#include "Emu/SysCalls/Modules/cellSysutil_SaveData.h"
class SaveDataList : public Dialog
{
public:
void Load(const std::vector<SaveDataListEntry>& entries);
};

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@ -0,0 +1,2 @@
#include "stdafx.h"
#include "UserList.h"

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@ -34,8 +34,11 @@ struct SFuncOp
struct SFunc
{
func_caller* func;
void* ptr;
char* name;
Array<SFuncOp> ops;
u64 group;
u32 found;
};
extern ArrayF<SFunc> g_static_funcs_list;
@ -110,7 +113,7 @@ public:
template<typename T> __forceinline void AddFunc(u32 id, T func);
template<typename T> __forceinline void AddFuncSub(const u64 ops[], char* name, T func);
template<typename T> __forceinline void AddFuncSub(const char group[8], const u64 ops[], char* name, T func);
};
template<typename T>
@ -120,13 +123,16 @@ __forceinline void Module::AddFunc(u32 id, T func)
}
template<typename T>
__forceinline void Module::AddFuncSub(const u64 ops[], char* name, T func)
__forceinline void Module::AddFuncSub(const char group[8], const u64 ops[], char* name, T func)
{
if (!ops[0]) return;
SFunc* sf = new SFunc;
sf->ptr = func;
sf->func = bind_func(func);
sf->name = name;
sf->group = *(u64*)group;
sf->found = 0;
// TODO: check for self-inclusions, use CRC
@ -134,7 +140,8 @@ __forceinline void Module::AddFuncSub(const u64 ops[], char* name, T func)
{
SFuncOp op;
op.mask = ops[i] >> 32;
op.crc = ops[i] & op.mask;
op.crc = ops[i];
if (op.mask) op.crc &= op.mask;
op.mask = re(op.mask);
op.crc = re(op.crc);
sf->ops.AddCpy(op);

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@ -63,8 +63,6 @@ next:
adec.reader.addr = adec.task.au.addr;
adec.reader.size = adec.task.au.size;
//ConLog.Write("Audio AU: size = 0x%x, pts = 0x%llx", adec.task.au.size, adec.task.au.pts);
//if (adec.last_pts > adec.task.au.pts) adec.last_pts = adec.task.au.pts;
}
break;
default:
@ -266,8 +264,11 @@ u32 adecOpen(AudioDecoder* data)
adec.reader.size = task.au.size;
//ConLog.Write("Audio AU: size = 0x%x, pts = 0x%llx", task.au.size, task.au.pts);
//if (adec.last_pts > task.au.pts || adec.just_started) adec.last_pts = task.au.pts;
if (adec.just_started) adec.last_pts = task.au.pts;
if (adec.just_started)
{
adec.first_pts = task.au.pts;
adec.last_pts = task.au.pts /*- 3816*8*/; // hack
}
struct AVPacketHolder : AVPacket
{
@ -433,8 +434,19 @@ u32 adecOpen(AudioDecoder* data)
if (got_frame)
{
frame.pts = adec.last_pts;
adec.last_pts += ((u64)frame.data->nb_samples) * 90000 / 48000; // ???
u64 ts = av_frame_get_best_effort_timestamp(frame.data);
if (ts != AV_NOPTS_VALUE)
{
frame.pts = ts/* - adec.first_pts*/;
adec.last_pts = frame.pts;
}
else
{
adec.last_pts += ((u64)frame.data->nb_samples) * 90000 / 48000;
frame.pts = adec.last_pts;
}
//frame.pts = adec.last_pts;
//adec.last_pts += ((u64)frame.data->nb_samples) * 90000 / 48000; // ???
frame.auAddr = task.au.addr;
frame.auSize = task.au.size;
frame.userdata = task.au.userdata;

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@ -1114,7 +1114,7 @@ public:
u32 memBias;
AdecTask task;
u64 last_pts;
u64 last_pts, first_pts;
CPUThread* adecCb;

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@ -7,141 +7,200 @@ Module cellAtrac(0x0013, cellAtrac_init);
#include "cellAtrac.h"
int cellAtracSetDataAndGetMemSize()
int cellAtracSetDataAndGetMemSize(mem_ptr_t<CellAtracHandle> pHandle, u32 pucBufferAddr, u32 uiReadByte, u32 uiBufferByte, mem32_t puiWorkMemByte)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracSetDataAndGetMemSize(pHandle=0x%x, pucBufferAddr=0x%x, uiReadByte=0x%x, uiBufferByte=0x%x, puiWorkMemByte_addr=0x%x)",
pHandle.GetAddr(), pucBufferAddr, uiReadByte, uiBufferByte, puiWorkMemByte.GetAddr());
puiWorkMemByte = 0x1000; // unproved
return CELL_OK;
}
int cellAtracCreateDecoder()
int cellAtracCreateDecoder(mem_ptr_t<CellAtracHandle> pHandle, u32 pucWorkMem_addr, u32 uiPpuThreadPriority, u32 uiSpuThreadPriority)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracCreateDecoder(pHandle=0x%x, pucWorkMem_addr=0x%x, uiPpuThreadPriority=%d, uiSpuThreadPriority=%d)",
pHandle.GetAddr(), pucWorkMem_addr, uiPpuThreadPriority, uiSpuThreadPriority);
pHandle->data.pucWorkMem_addr = pucWorkMem_addr;
return CELL_OK;
}
int cellAtracCreateDecoderExt()
int cellAtracCreateDecoderExt(mem_ptr_t<CellAtracHandle> pHandle, u32 pucWorkMem_addr, u32 uiPpuThreadPriority, mem_ptr_t<CellAtracExtRes> pExtRes)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracCreateDecoderExt(pHandle=0x%x, pucWorkMem_addr=0x%x, uiPpuThreadPriority=%d, pExtRes_addr=0x%x)",
pHandle.GetAddr(), pucWorkMem_addr, uiPpuThreadPriority, pExtRes.GetAddr());
pHandle->data.pucWorkMem_addr = pucWorkMem_addr;
return CELL_OK;
}
int cellAtracDeleteDecoder()
int cellAtracDeleteDecoder(mem_ptr_t<CellAtracHandle> pHandle)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracDeleteDecoder(pHandle=0x%x)", pHandle.GetAddr());
return CELL_OK;
}
int cellAtracDecode()
int cellAtracDecode(mem_ptr_t<CellAtracHandle> pHandle, u32 pfOutAddr, mem32_t puiSamples, mem32_t puiFinishflag, mem32_t piRemainFrame)
{
//UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracDecode(pHandle=0x%x, pfOutAddr=0x%x, puiSamples_addr=0x%x, puiFinishFlag_addr=0x%x, piRemainFrame_addr=0x%x)",
pHandle.GetAddr(), pfOutAddr, puiSamples.GetAddr(), puiFinishflag.GetAddr(), piRemainFrame.GetAddr());
puiSamples = 0;
puiFinishflag = 1;
piRemainFrame = CELL_ATRAC_ALLDATA_IS_ON_MEMORY;
return CELL_OK;
}
int cellAtracGetStreamDataInfo()
int cellAtracGetStreamDataInfo(mem_ptr_t<CellAtracHandle> pHandle, mem32_t ppucWritePointer, mem32_t puiWritableByte, mem32_t puiReadPosition)
{
//UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracGetStreamDataInfo(pHandle=0x%x, ppucWritePointer_addr=0x%x, puiWritableByte_addr=0x%x, puiReadPosition_addr=0x%x)",
pHandle.GetAddr(), ppucWritePointer.GetAddr(), puiWritableByte.GetAddr(), puiReadPosition.GetAddr());
ppucWritePointer = pHandle->data.pucWorkMem_addr;
puiWritableByte = 0x1000;
puiReadPosition = 0;
return CELL_OK;
}
int cellAtracAddStreamData()
int cellAtracAddStreamData(mem_ptr_t<CellAtracHandle> pHandle, u32 uiAddByte)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracAddStreamData(pHandle=0x%x, uiAddByte=0x%x)", pHandle.GetAddr(), uiAddByte);
return CELL_OK;
}
int cellAtracGetRemainFrame()
int cellAtracGetRemainFrame(mem_ptr_t<CellAtracHandle> pHandle, mem32_t piRemainFrame)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracGetRemainFrame(pHandle=0x%x, piRemainFrame_addr=0x%x)", pHandle.GetAddr(), piRemainFrame.GetAddr());
piRemainFrame = CELL_ATRAC_ALLDATA_IS_ON_MEMORY;
return CELL_OK;
}
int cellAtracGetVacantSize()
int cellAtracGetVacantSize(mem_ptr_t<CellAtracHandle> pHandle, mem32_t puiVacantSize)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracGetVacantSize(pHandle=0x%x, puiVacantSize_addr=0x%x)", pHandle.GetAddr(), puiVacantSize.GetAddr());
puiVacantSize = 0x1000;
return CELL_OK;
}
int cellAtracIsSecondBufferNeeded()
int cellAtracIsSecondBufferNeeded(mem_ptr_t<CellAtracHandle> pHandle)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracIsSecondBufferNeeded(pHandle=0x%x)", pHandle.GetAddr());
return CELL_OK;
}
int cellAtracGetSecondBufferInfo()
int cellAtracGetSecondBufferInfo(mem_ptr_t<CellAtracHandle> pHandle, mem32_t puiReadPosition, mem32_t puiDataByte)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracGetSecondBufferInfo(pHandle=0x%x, puiReadPosition_addr=0x%x, puiDataByte_addr=0x%x)",
pHandle.GetAddr(), puiReadPosition.GetAddr(), puiDataByte.GetAddr());
puiReadPosition = 0;
puiDataByte = 0; // write to null block will occur
return CELL_OK;
}
int cellAtracSetSecondBuffer()
int cellAtracSetSecondBuffer(mem_ptr_t<CellAtracHandle> pHandle, u32 pucSecondBufferAddr, u32 uiSecondBufferByte)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracSetSecondBuffer(pHandle=0x%x, pucSecondBufferAddr=0x%x, uiSecondBufferByte=0x%x)",
pHandle.GetAddr(), pucSecondBufferAddr, uiSecondBufferByte);
return CELL_OK;
}
int cellAtracGetChannel()
int cellAtracGetChannel(mem_ptr_t<CellAtracHandle> pHandle, mem32_t puiChannel)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracGetChannel(pHandle=0x%x, puiChannel_addr=0x%x)", pHandle.GetAddr(), puiChannel.GetAddr());
puiChannel = 2;
return CELL_OK;
}
int cellAtracGetMaxSample()
int cellAtracGetMaxSample(mem_ptr_t<CellAtracHandle> pHandle, mem32_t puiMaxSample)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracGetMaxSample(pHandle=0x%x, puiMaxSample_addr=0x%x)", pHandle.GetAddr(), puiMaxSample.GetAddr());
puiMaxSample = 512;
return CELL_OK;
}
int cellAtracGetNextSample()
int cellAtracGetNextSample(mem_ptr_t<CellAtracHandle> pHandle, mem32_t puiNextSample)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracGetNextSample(pHandle=0x%x, puiNextSample_addr=0x%x)", pHandle.GetAddr(), puiNextSample.GetAddr());
puiNextSample = 0;
return CELL_OK;
}
int cellAtracGetSoundInfo()
int cellAtracGetSoundInfo(mem_ptr_t<CellAtracHandle> pHandle, mem32_t piEndSample, mem32_t piLoopStartSample, mem32_t piLoopEndSample)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracGetSoundInfo(pHandle=0x%x, piEndSample_addr=0x%x, piLoopStartSample_addr=0x%x, piLoopEndSample_addr=0x%x)",
pHandle.GetAddr(), piEndSample.GetAddr(), piLoopStartSample.GetAddr(), piLoopEndSample.GetAddr());
piEndSample = 0;
piLoopStartSample = 0;
piLoopEndSample = 0;
return CELL_OK;
}
int cellAtracGetNextDecodePosition()
int cellAtracGetNextDecodePosition(mem_ptr_t<CellAtracHandle> pHandle, mem32_t puiSamplePosition)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracGetNextDecodePosition(pHandle=0x%x, puiSamplePosition_addr=0x%x)",
pHandle.GetAddr(), puiSamplePosition.GetAddr());
puiSamplePosition = 0;
return CELL_ATRAC_ERROR_ALLDATA_WAS_DECODED;
}
int cellAtracGetBitrate(mem_ptr_t<CellAtracHandle> pHandle, mem32_t puiBitrate)
{
cellAtrac.Error("cellAtracGetBitrate(pHandle=0x%x, puiBitrate_addr=0x%x)",
pHandle.GetAddr(), puiBitrate.GetAddr());
puiBitrate = 128;
return CELL_OK;
}
int cellAtracGetBitrate()
int cellAtracGetLoopInfo(mem_ptr_t<CellAtracHandle> pHandle, mem32_t piLoopNum, mem32_t puiLoopStatus)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracGetLoopInfo(pHandle=0x%x, piLoopNum_addr=0x%x, puiLoopStatus_addr=0x%x)",
pHandle.GetAddr(), piLoopNum.GetAddr(), puiLoopStatus.GetAddr());
piLoopNum = 0;
puiLoopStatus = 0;
return CELL_OK;
}
int cellAtracGetLoopInfo()
int cellAtracSetLoopNum(mem_ptr_t<CellAtracHandle> pHandle, int iLoopNum)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracSetLoopNum(pHandle=0x%x, iLoopNum=0x%x)", pHandle.GetAddr(), iLoopNum);
return CELL_OK;
}
int cellAtracSetLoopNum()
int cellAtracGetBufferInfoForResetting(mem_ptr_t<CellAtracHandle> pHandle, u32 uiSample, mem_ptr_t<CellAtracBufferInfo> pBufferInfo)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracGetBufferInfoForResetting(pHandle=0x%x, uiSample=0x%x, pBufferInfo_addr=0x%x)",
pHandle.GetAddr(), uiSample, pBufferInfo.GetAddr());
pBufferInfo->pucWriteAddr = pHandle->data.pucWorkMem_addr;
pBufferInfo->uiWritableByte = 0x1000;
pBufferInfo->uiMinWriteByte = 0;
pBufferInfo->uiReadPosition = 0;
return CELL_OK;
}
int cellAtracGetBufferInfoForResetting()
int cellAtracResetPlayPosition(mem_ptr_t<CellAtracHandle> pHandle, u32 uiSample, u32 uiWriteByte)
{
UNIMPLEMENTED_FUNC(cellAtrac);
cellAtrac.Error("cellAtracResetPlayPosition(pHandle=0x%x, uiSample=0x%x, uiWriteByte=0x%x)",
pHandle.GetAddr(), uiSample, uiWriteByte);
return CELL_OK;
}
int cellAtracResetPlayPosition()
int cellAtracGetInternalErrorInfo(mem_ptr_t<CellAtracHandle> pHandle, mem32_t piResult)
{
UNIMPLEMENTED_FUNC(cellAtrac);
return CELL_OK;
}
cellAtrac.Error("cellAtracGetInternalErrorInfo(pHandle=0x%x, piResult_addr=0x%x)",
pHandle.GetAddr(), piResult.GetAddr());
int cellAtracGetInternalErrorInfo()
{
UNIMPLEMENTED_FUNC(cellAtrac);
piResult = 0;
return CELL_OK;
}

View File

@ -25,4 +25,35 @@ enum
CELL_ATRAC_ERROR_ILLEGAL_RESET_BYTE = 0x80610372,
CELL_ATRAC_ERROR_ILLEGAL_PPU_THREAD_PRIORITY = 0x80610381,
CELL_ATRAC_ERROR_ILLEGAL_SPU_THREAD_PRIORITY = 0x80610382,
};
// Remain Frame
enum
{
CELL_ATRAC_ALLDATA_IS_ON_MEMORY = -1,
CELL_ATRAC_NONLOOP_STREAM_DATA_IS_ON_MEMORY = -2,
CELL_ATRAC_LOOP_STREAM_DATA_IS_ON_MEMORY = -3,
};
union CellAtracHandle
{
u8 uiWorkMem[512];
struct AtracHandle
{
u32 pucWorkMem_addr;
} data;
};
struct CellAtracBufferInfo
{
be_t<u32> pucWriteAddr;
be_t<u32> uiWritableByte;
be_t<u32> uiMinWriteByte;
be_t<u32> uiReadPosition;
};
struct CellAtracExtRes
{
be_t<u32> pSpurs_addr;
u8 priority[8];
};

View File

@ -1,6 +1,7 @@
#include "stdafx.h"
#include "Emu/SysCalls/SysCalls.h"
#include "Emu/SysCalls/SC_FUNC.h"
#include "Utilities/SQueue.h"
#include "Emu/Audio/cellAudio.h"
#include "Emu/Audio/AudioManager.h"
#include "Emu/Audio/AudioDumper.h"
@ -9,7 +10,9 @@ void cellAudio_init();
void cellAudio_unload();
Module cellAudio(0x0011, cellAudio_init, nullptr, cellAudio_unload);
extern u64 get_system_time();
static SMutexGeneral audioMutex;
AudioConfig m_config;
// libaudio Functions
@ -23,6 +26,7 @@ int cellAudioInit()
}
m_config.m_is_audio_initialized = true;
m_config.start_time = 0;
m_config.counter = 0;
// alloc memory
@ -34,8 +38,10 @@ int cellAudioInit()
thread t("Audio Thread", []()
{
AudioDumper m_dump(2); // WAV file header (stereo)
bool do_dump = Ini.AudioDumpToFile.GetValue();
if (Ini.AudioDumpToFile.GetValue() && !m_dump.Init())
if (do_dump && !m_dump.Init())
{
ConLog.Error("Audio aborted: cannot create file!");
return;
@ -43,31 +49,54 @@ int cellAudioInit()
ConLog.Write("Audio started");
m_config.start_time = get_system_time();
if (Ini.AudioDumpToFile.GetValue())
m_dump.WriteHeader();
float buffer[2*256]; // buffer for 2 channels
be_t<float> buffer2[8*256]; // buffer for 8 channels (max count)
//u16 oal_buffer[2*256]; // buffer for OpenAL
float buffer[2*256]; // intermediate buffer for 2 channels
uint oal_buffer_offset = 0;
uint oal_buffer_size = 2 * 256;
std::unique_ptr<u16[]> oal_buffer(new u16[oal_buffer_size]);
memset(buffer, 0, sizeof(buffer));
memset(buffer2, 0, sizeof(buffer2));
memset(oal_buffer.get(), 0, oal_buffer_size * sizeof(u16));
uint oal_buffer_size = sizeof(buffer) / sizeof(float);
std::unique_ptr<u16[]> oal_buffer[32];
SQueue<u16*, sizeof(oal_buffer) / sizeof(oal_buffer[0])> queue;
for (u32 i = 0; i < queue.GetSize(); i++)
{
oal_buffer[i] = std::unique_ptr<u16[]>(new u16[oal_buffer_size]);
memset(oal_buffer[i].get(), 0, oal_buffer_size * sizeof(u16));
}
queue.Clear();
Array<u64> keys;
if(m_audio_out)
{
m_audio_out->Init();
m_audio_out->Open(oal_buffer.get(), oal_buffer_size*sizeof(u16));
m_audio_out->Open(oal_buffer[0].get(), oal_buffer_size * sizeof(u16));
}
m_config.start_time = get_system_time();
volatile bool internal_finished = false;
thread iat("Internal Audio Thread", [oal_buffer_size, &queue, &internal_finished]()
{
while (true)
{
u16* oal_buffer = nullptr;
queue.Pop(oal_buffer);
if (oal_buffer)
{
m_audio_out->AddData(oal_buffer, oal_buffer_size * sizeof(u16));
}
else
{
internal_finished = true;
return;
}
}
});
iat.detach();
while (m_config.m_is_audio_initialized)
{
if (Emu.IsStopped())
@ -76,10 +105,12 @@ int cellAudioInit()
goto abort;
}
const u64 stamp0 = get_system_time();
// TODO: send beforemix event (in ~2,6 ms before mixing)
// Sleep(5); // precise time of sleeping: 5,(3) ms (or 256/48000 sec)
if (m_config.counter * 256000000 / 48000 >= get_system_time() - m_config.start_time)
// precise time of sleeping: 5,(3) ms (or 256/48000 sec)
if (m_config.counter * 256000000 / 48000 >= stamp0 - m_config.start_time)
{
Sleep(1);
continue;
@ -87,6 +118,8 @@ int cellAudioInit()
m_config.counter++;
const u32 oal_pos = m_config.counter % queue.GetSize();
if (Emu.IsPaused())
{
continue;
@ -94,68 +127,134 @@ int cellAudioInit()
bool first_mix = true;
// MIX:
// mixing:
for (u32 i = 0; i < m_config.AUDIO_PORT_COUNT; i++)
{
if (!m_config.m_ports[i].m_is_audio_port_started) continue;
AudioPortConfig& port = m_config.m_ports[i];
mem64_t index(m_config.m_indexes + i * sizeof(u64));
const u32 block_size = port.channel * 256;
const u32 position = port.tag % port.block; // old value
const u32 buf_addr = m_config.m_buffer + (i * 128 * 1024) + (position * block_size * sizeof(float));
u32 position = port.tag % port.block; // old value
auto buf = (be_t<float>*)&Memory[buf_addr];
u32 buf_addr = m_config.m_buffer + (i * 128 * 1024) + (position * block_size * sizeof(float));
memcpy(buffer2, Memory + buf_addr, block_size * sizeof(float));
memset(Memory + buf_addr, 0, block_size * sizeof(float));
static const float k = 1.0f;
const float m = (port.level == 0.0f) ? 1.0f : port.level;
if (port.channel == 2)
{
SMutexGeneralLocker lock(port.m_mutex);
if (first_mix)
{
for (u32 i = 0; i < (sizeof(buffer) / sizeof(float)); i++)
{
// reverse byte order
buffer[i] = buf[i] * m;
}
first_mix = false;
}
else
{
for (u32 i = 0; i < (sizeof(buffer) / sizeof(float)); i++)
{
buffer[i] += buf[i] * m;
}
}
}
else if (port.channel == 6)
{
if (first_mix)
{
for (u32 i = 0; i < (sizeof(buffer) / sizeof(float)); i += 2)
{
const float center = (buf[i*3+2] + buf[i*3+3]) * 0.708f;
buffer[i] = (buf[i*3] + buf[i*3+4] + center) * k * m;
buffer[i+1] = (buf[i*3+1] + buf[i*3+5] + center) * k * m;
}
first_mix = false;
}
else
{
for (u32 i = 0; i < (sizeof(buffer) / sizeof(float)); i += 2)
{
const float center = (buf[i*3+2] + buf[i*3+3]) * 0.708f;
buffer[i] += (buf[i*3] + buf[i*3+4] + center) * k * m;
buffer[i+1] += (buf[i*3+1] + buf[i*3+5] + center) * k * m;
}
}
}
else if (port.channel == 8)
{
if (first_mix)
{
for (u32 i = 0; i < (sizeof(buffer) / sizeof(float)); i += 2)
{
const float center = (buf[i*4+2] + buf[i*4+3]) * 0.708f;
buffer[i] = (buf[i*4] + buf[i*4+4] + buf[i*4+6] + center) * k * m;
buffer[i+1] = (buf[i*4+1] + buf[i*4+5] + buf[i*4+7] + center) * k * m;
}
first_mix = false;
}
else
{
for (u32 i = 0; i < (sizeof(buffer) / sizeof(float)); i += 2)
{
const float center = (buf[i*4+2] + buf[i*4+3]) * 0.708f;
buffer[i] += (buf[i*4] + buf[i*4+4] + buf[i*4+6] + center) * k * m;
buffer[i+1] += (buf[i*4+1] + buf[i*4+5] + buf[i*4+7] + center) * k * m;
}
}
}
memset(buf, 0, block_size * sizeof(float));
}
// convert the data from float to u16 and clip:
if (!first_mix)
{
for (u32 i = 0; i < (sizeof(buffer) / sizeof(float)); i++)
{
oal_buffer[oal_pos][oal_buffer_offset + i] = (s16)(min<float>(max<float>(buffer[i] * 0x8000, -0x8000), 0x7fff));
}
}
const u64 stamp1 = get_system_time();
if (!first_mix)
{
oal_buffer_offset += sizeof(buffer) / sizeof(float);
if(oal_buffer_offset >= oal_buffer_size)
{
if(m_audio_out)
{
queue.Push(&oal_buffer[oal_pos][0]);
}
oal_buffer_offset = 0;
}
}
const u64 stamp2 = get_system_time();
// send aftermix event (normal audio event)
{
SMutexGeneralLocker lock(audioMutex);
// update indexes:
for (u32 i = 0; i < m_config.AUDIO_PORT_COUNT; i++)
{
if (!m_config.m_ports[i].m_is_audio_port_started) continue;
AudioPortConfig& port = m_config.m_ports[i];
mem64_t index(m_config.m_indexes + i * sizeof(u64));
u32 position = port.tag % port.block; // old value
port.counter = m_config.counter;
port.tag++; // absolute index of block that will be read
index = (position + 1) % port.block; // write new value
}
u32 k = port.channel / 2;
if (first_mix)
{
for (u32 i = 0; i < (sizeof(buffer) / sizeof(float)); i += 2)
{
// reverse byte order (TODO: use port.m_param.level)
buffer[i] = buffer2[i*k];
buffer[i+1] = buffer2[i*k+1];
// convert the data from float to u16
assert(buffer[i] >= -4.0f && buffer[i] <= 4.0f);
assert(buffer[i+1] >= -4.0f && buffer[i+1] <= 4.0f);
oal_buffer[oal_buffer_offset + i] = (u16)(buffer[i] * ((1 << 13) - 1));
oal_buffer[oal_buffer_offset + i + 1] = (u16)(buffer[i+1] * ((1 << 13) - 1));
}
first_mix = false;
}
else
{
for (u32 i = 0; i < (sizeof(buffer) / sizeof(float)); i += 2)
{
buffer[i] = (buffer[i] + buffer2[i*k]) * 0.5; // TODO: valid mixing
buffer[i+1] = (buffer[i+1] + buffer2[i*k+1]) * 0.5;
// convert the data from float to u16
assert(buffer[i] >= -4.0f && buffer[i] <= 4.0f);
assert(buffer[i+1] >= -4.0f && buffer[i+1] <= 4.0f);
oal_buffer[oal_buffer_offset + i] = (u16)(buffer[i] * ((1 << 13) - 1));
oal_buffer[oal_buffer_offset + i + 1] = (u16)(buffer[i+1] * ((1 << 13) - 1));
}
}
}
// send aftermix event (normal audio event)
{
std::lock_guard<std::mutex> lock(m_config.m_mutex);
// load keys:
keys.SetCount(m_config.m_keys.GetCount());
memcpy(keys.GetPtr(), m_config.m_keys.GetPtr(), sizeof(u64) * keys.GetCount());
}
@ -165,19 +264,9 @@ int cellAudioInit()
Emu.GetEventManager().SendEvent(keys[i], 0x10103000e010e07, 0, 0, 0);
}
oal_buffer_offset += sizeof(buffer) / sizeof(float);
const u64 stamp3 = get_system_time();
if(oal_buffer_offset >= oal_buffer_size)
{
if(m_audio_out)
{
m_audio_out->AddData(oal_buffer.get(), oal_buffer_offset * sizeof(u16));
}
oal_buffer_offset = 0;
}
if(Ini.AudioDumpToFile.GetValue())
if (do_dump && !first_mix)
{
if (m_dump.WriteData(&buffer, sizeof(buffer)) != sizeof(buffer)) // write file data
{
@ -185,16 +274,49 @@ int cellAudioInit()
goto abort;
}
}
const u64 stamp4 = get_system_time();
//ConLog.Write("Audio perf: start=%d (access=%d, AddData=%d, events=%d, dump=%d)",
//stamp0 - m_config.start_time, stamp1-stamp0, stamp2-stamp1, stamp3-stamp2, stamp4-stamp3);
}
ConLog.Write("Audio finished");
abort:
if(Ini.AudioDumpToFile.GetValue())
queue.Push(nullptr);
if(do_dump)
m_dump.Finalize();
m_config.m_is_audio_initialized = false;
m_config.m_keys.Clear();
for (u32 i = 0; i < m_config.AUDIO_PORT_COUNT; i++)
{
AudioPortConfig& port = m_config.m_ports[i];
port.m_is_audio_port_opened = false;
port.m_is_audio_port_started = false;
}
m_config.m_port_in_use = 0;
while (!internal_finished)
{
Sleep(1);
}
m_config.m_is_audio_finalized = true;
});
t.detach();
while (!m_config.start_time) // waiting for initialization
{
if (Emu.IsStopped())
{
ConLog.Warning("cellAudioInit() aborted");
return CELL_OK;
}
Sleep(1);
}
return CELL_OK;
}
@ -347,6 +469,7 @@ int cellAudioPortClose(u32 portNum)
}
m_config.m_ports[portNum].m_is_audio_port_started = false;
m_config.m_ports[portNum].m_is_audio_port_opened = false;
m_config.m_port_in_use--;
return CELL_OK;
}
@ -395,7 +518,7 @@ int cellAudioGetPortTimestamp(u32 portNum, u64 tag, mem64_t stamp)
AudioPortConfig& port = m_config.m_ports[portNum];
SMutexGeneralLocker lock(port.m_mutex);
SMutexGeneralLocker lock(audioMutex);
stamp = m_config.start_time + (port.counter + (tag - port.tag)) * 256000000 / 48000;
@ -429,7 +552,7 @@ int cellAudioGetPortBlockTag(u32 portNum, u64 blockNo, mem64_t tag)
return CELL_AUDIO_ERROR_PARAM;
}
SMutexGeneralLocker lock(port.m_mutex);
SMutexGeneralLocker lock(audioMutex);
u64 tag_base = port.tag;
if (tag_base % port.block > blockNo)
@ -457,7 +580,7 @@ int cellAudioCreateNotifyEventQueue(mem32_t id, mem64_t key)
{
cellAudio.Warning("cellAudioCreateNotifyEventQueue(id_addr=0x%x, key_addr=0x%x)", id.GetAddr(), key.GetAddr());
std::lock_guard<std::mutex> lock(m_config.m_mutex);
SMutexGeneralLocker lock(audioMutex);
u64 event_key = 0;
while (Emu.GetEventManager().CheckKey((event_key << 48) | 0x80004d494f323221))
@ -475,7 +598,6 @@ int cellAudioCreateNotifyEventQueue(mem32_t id, mem64_t key)
return CELL_AUDIO_ERROR_EVENT_QUEUE;
}
m_config.m_keys.AddCpy(event_key);
id = cellAudio.GetNewId(eq);
key = event_key;
@ -492,8 +614,15 @@ int cellAudioSetNotifyEventQueue(u64 key)
{
cellAudio.Warning("cellAudioSetNotifyEventQueue(key=0x%llx)", key);
std::lock_guard<std::mutex> lock(m_config.m_mutex);
SMutexGeneralLocker lock(audioMutex);
for (u32 i = 0; i < m_config.m_keys.GetCount(); i++) // check for duplicates
{
if (m_config.m_keys[i] == key)
{
return CELL_AUDIO_ERROR_PARAM;
}
}
m_config.m_keys.AddCpy(key);
/*EventQueue* eq;
@ -517,7 +646,7 @@ int cellAudioRemoveNotifyEventQueue(u64 key)
{
cellAudio.Warning("cellAudioRemoveNotifyEventQueue(key=0x%llx)", key);
std::lock_guard<std::mutex> lock(m_config.m_mutex);
SMutexGeneralLocker lock(audioMutex);
bool found = false;
for (u32 i = 0; i < m_config.m_keys.GetCount(); i++)

View File

@ -338,7 +338,17 @@ int cellGcmSetPrepareFlip(mem_ptr_t<CellGcmContextData> ctxt, u32 id)
if(current + 8 >= end)
{
ConLog.Warning("bad flip!");
cellGcmCallback(ctxt.GetAddr(), current + 8 - end);
//cellGcmCallback(ctxt.GetAddr(), current + 8 - end);
//copied:
CellGcmControl& ctrl = (CellGcmControl&)Memory[gcm_info.control_addr];
const s32 res = ctxt->current - ctxt->begin - ctrl.put;
if(res > 0) Memory.Copy(ctxt->begin, ctxt->current - res, res);
ctxt->current = ctxt->begin + res;
ctrl.put = res;
ctrl.get = 0;
}
current = ctxt->current;

View File

@ -60,7 +60,12 @@ int UTF16stoUTF8s(mem16_ptr_t utf16, mem64_t utf16_len, mem8_ptr_t utf8, mem64_t
int jstrchk(mem8_ptr_t jstr)
{
cellL10n.Log("jstrchk(jstr_addr=0x%x [%s])", jstr.GetAddr(), "omitted" /*Memory.ReadString(jstr.GetAddr()).wx_str()*/);
if (!jstr.IsGood())
cellL10n.Error("jstrchk(jstr_addr=0x%x): invalid address", jstr.GetAddr());
else if (jstr[0])
cellL10n.Log("jstrchk(jstr_addr=0x%x): utf-8: [%s]", jstr.GetAddr(), Memory.ReadString(jstr.GetAddr()).wx_str());
else
cellL10n.Log("jstrchk(jstr_addr=0x%x): empty string", jstr.GetAddr());
return L10N_STR_UTF8;
}

View File

@ -1,244 +1,244 @@
#pragma once
#include "Emu/Cell/SPURSManager.h"
// Core return codes.
enum
{
CELL_SPURS_CORE_ERROR_AGAIN = 0x80410701,
CELL_SPURS_CORE_ERROR_INVAL = 0x80410702,
CELL_SPURS_CORE_ERROR_NOMEM = 0x80410704,
CELL_SPURS_CORE_ERROR_SRCH = 0x80410705,
CELL_SPURS_CORE_ERROR_PERM = 0x80410709,
CELL_SPURS_CORE_ERROR_BUSY = 0x8041070A,
CELL_SPURS_CORE_ERROR_STAT = 0x8041070F,
CELL_SPURS_CORE_ERROR_ALIGN = 0x80410710,
CELL_SPURS_CORE_ERROR_NULL_POINTER = 0x80410711,
};
// Task return codes.
enum
{
CELL_SPURS_TASK_ERROR_AGAIN = 0x80410901,
CELL_SPURS_TASK_ERROR_INVAL = 0x80410902,
CELL_SPURS_TASK_ERROR_NOMEM = 0x80410904,
CELL_SPURS_TASK_ERROR_SRCH = 0x80410905,
CELL_SPURS_TASK_ERROR_NOEXEC = 0x80410907,
CELL_SPURS_TASK_ERROR_PERM = 0x80410909,
CELL_SPURS_TASK_ERROR_BUSY = 0x8041090A,
CELL_SPURS_TASK_ERROR_FAULT = 0x8041090D,
CELL_SPURS_TASK_ERROR_STAT = 0x8041090F,
CELL_SPURS_TASK_ERROR_ALIGN = 0x80410910,
CELL_SPURS_TASK_ERROR_NULL_POINTER = 0x80410911,
CELL_SPURS_TASK_ERROR_FATAL = 0x80410914,
CELL_SPURS_TASK_ERROR_SHUTDOWN = 0x80410920,
};
// Core CellSpurs structures.
struct CellSpurs
{
SPURSManager *spurs;
};
struct CellSpurs2
{
SPURSManager *spurs;
};
struct CellSpursAttribute
{
SPURSManagerAttribute *attr;
};
struct CellSpursInfo
{
be_t<int> nSpus;
be_t<int> spuThreadGroupPriority;
be_t<int> ppuThreadPriority;
bool exitIfNoWork;
bool spurs2;
be_t<u32> traceBuffer_addr; //void *traceBuffer;
be_t<u64> traceBufferSize;
be_t<u32> traceMode;
be_t<u32> spuThreadGroup; //typedef u32 sys_spu_thread_group_t;
be_t<u32> spuThreads[8]; //typedef u32 sys_spu_thread_t;
be_t<u32> spursHandlerThread0;
be_t<u32> spursHandlerThread1;
char namePrefix[CELL_SPURS_NAME_MAX_LENGTH+1];
be_t<u64> namePrefixLength;
be_t<u32> deadlineMissCounter;
be_t<u32> deadlineMeetCounter;
//u8 padding[];
};
struct CellSpursExceptionInfo
{
be_t<u32> spu_thread;
be_t<u32> spu_npc;
be_t<u32> cause;
be_t<u64> option;
};
struct CellSpursTraceInfo
{
be_t<u32> spu_thread[8];
be_t<u32> count[8];
be_t<u32> spu_thread_grp;
be_t<u32> nspu;
//u8 padding[];
};
struct CellTraceHeader
{
u8 tag;
u8 length;
u8 cpu;
u8 thread;
be_t<u32> time;
};
struct CellSpursTracePacket
{
struct header_struct
{
u8 tag;
u8 length;
u8 spu;
u8 workload;
be_t<u32> time;
} header;
struct data_struct
{
struct load_struct
{
be_t<u32> ea;
be_t<u16> ls;
be_t<u16> size;
} load;
struct map_struct
{
be_t<u32> offset;
be_t<u16> ls;
be_t<u16> size;
} map;
struct start_struct
{
char module[4];
be_t<u16> level;
be_t<u16> ls;
} start;
be_t<u64> user;
be_t<u64> guid;
} data;
};
// cellSpurs taskset structures.
struct CellSpursTaskset
{
u8 skip[6400];
};
// Exception handlers.
typedef void (*CellSpursGlobalExceptionEventHandler)(mem_ptr_t<CellSpurs> spurs, const mem_ptr_t<CellSpursExceptionInfo> info,
uint id, mem_ptr_t<void> arg);
typedef void (*CellSpursTasksetExceptionEventHandler)(mem_ptr_t<CellSpurs> spurs, mem_ptr_t<CellSpursTaskset> taskset,
uint idTask, const mem_ptr_t<CellSpursExceptionInfo> info, mem_ptr_t<void> arg);
struct CellSpursTasksetInfo
{
//CellSpursTaskInfo taskInfo[CELL_SPURS_MAX_TASK];
be_t<u64> argument;
be_t<uint> idWorkload;
be_t<uint> idLastScheduledTask; //typedef unsigned CellSpursTaskId
be_t<u32> name_addr;
CellSpursTasksetExceptionEventHandler exceptionEventHandler;
be_t<u32> exceptionEventHandlerArgument_addr; //void *exceptionEventHandlerArgument
be_t<u64> sizeTaskset;
//be_t<u8> reserved[];
};
struct CellSpursTaskset2
{
be_t<u8> skip[10496];
};
struct CellSpursTasksetAttribute2
{
be_t<u32> revision;
be_t<u32> name_addr;
be_t<u64> argTaskset;
u8 priority[8];
be_t<u32> maxContention;
be_t<s32> enableClearLs;
be_t<s32> CellSpursTaskNameBuffer_addr; //??? *taskNameBuffer
//be_t<u32> __reserved__[];
};
// cellSpurs task structures.
struct CellSpursTaskNameBuffer
{
char taskName[CELL_SPURS_MAX_TASK][CELL_SPURS_MAX_TASK_NAME_LENGTH];
};
struct CellSpursTraceTaskData
{
be_t<u32> incident;
be_t<u32> task;
};
struct CellSpursTaskArgument
{
be_t<u32> u32[4];
be_t<u64> u64[2];
};
struct CellSpursTaskLsPattern
{
be_t<u32> u32[4];
be_t<u64> u64[2];
};
struct CellSpursTaskAttribute2
{
be_t<u32> revision;
be_t<u32> sizeContext;
be_t<u64> eaContext;
CellSpursTaskLsPattern lsPattern; //???
be_t<u32> name_addr;
//be_t<u32> __reserved__[];
};
struct CellSpursTaskExitCode
{
unsigned char skip[128];
};
struct CellSpursTaskInfo
{
CellSpursTaskLsPattern lsPattern;
CellSpursTaskArgument argument;
const be_t<u32> eaElf_addr; //void *eaElf
const be_t<u32> eaContext_addr; //void *eaContext
be_t<u32> sizeContext;
be_t<u8> state;
be_t<u8> hasSignal;
const be_t<u32> CellSpursTaskExitCode_addr;
u8 guid[8];
//be_t<u8> reserved[];
};
struct CellSpursTaskBinInfo
{
be_t<u64> eaElf;
be_t<u32> sizeContext;
be_t<u32> __reserved__;
CellSpursTaskLsPattern lsPattern;
};
#pragma once
#include "Emu/Cell/SPURSManager.h"
// Core return codes.
enum
{
CELL_SPURS_CORE_ERROR_AGAIN = 0x80410701,
CELL_SPURS_CORE_ERROR_INVAL = 0x80410702,
CELL_SPURS_CORE_ERROR_NOMEM = 0x80410704,
CELL_SPURS_CORE_ERROR_SRCH = 0x80410705,
CELL_SPURS_CORE_ERROR_PERM = 0x80410709,
CELL_SPURS_CORE_ERROR_BUSY = 0x8041070A,
CELL_SPURS_CORE_ERROR_STAT = 0x8041070F,
CELL_SPURS_CORE_ERROR_ALIGN = 0x80410710,
CELL_SPURS_CORE_ERROR_NULL_POINTER = 0x80410711,
};
// Task return codes.
enum
{
CELL_SPURS_TASK_ERROR_AGAIN = 0x80410901,
CELL_SPURS_TASK_ERROR_INVAL = 0x80410902,
CELL_SPURS_TASK_ERROR_NOMEM = 0x80410904,
CELL_SPURS_TASK_ERROR_SRCH = 0x80410905,
CELL_SPURS_TASK_ERROR_NOEXEC = 0x80410907,
CELL_SPURS_TASK_ERROR_PERM = 0x80410909,
CELL_SPURS_TASK_ERROR_BUSY = 0x8041090A,
CELL_SPURS_TASK_ERROR_FAULT = 0x8041090D,
CELL_SPURS_TASK_ERROR_STAT = 0x8041090F,
CELL_SPURS_TASK_ERROR_ALIGN = 0x80410910,
CELL_SPURS_TASK_ERROR_NULL_POINTER = 0x80410911,
CELL_SPURS_TASK_ERROR_FATAL = 0x80410914,
CELL_SPURS_TASK_ERROR_SHUTDOWN = 0x80410920,
};
// Core CellSpurs structures.
struct CellSpurs
{
SPURSManager *spurs;
};
struct CellSpurs2
{
SPURSManager *spurs;
};
struct CellSpursAttribute
{
SPURSManagerAttribute *attr;
};
struct CellSpursInfo
{
be_t<int> nSpus;
be_t<int> spuThreadGroupPriority;
be_t<int> ppuThreadPriority;
bool exitIfNoWork;
bool spurs2;
be_t<u32> traceBuffer_addr; //void *traceBuffer;
be_t<u64> traceBufferSize;
be_t<u32> traceMode;
be_t<u32> spuThreadGroup; //typedef u32 sys_spu_thread_group_t;
be_t<u32> spuThreads[8]; //typedef u32 sys_spu_thread_t;
be_t<u32> spursHandlerThread0;
be_t<u32> spursHandlerThread1;
char namePrefix[CELL_SPURS_NAME_MAX_LENGTH+1];
be_t<u64> namePrefixLength;
be_t<u32> deadlineMissCounter;
be_t<u32> deadlineMeetCounter;
//u8 padding[];
};
struct CellSpursExceptionInfo
{
be_t<u32> spu_thread;
be_t<u32> spu_npc;
be_t<u32> cause;
be_t<u64> option;
};
struct CellSpursTraceInfo
{
be_t<u32> spu_thread[8];
be_t<u32> count[8];
be_t<u32> spu_thread_grp;
be_t<u32> nspu;
//u8 padding[];
};
struct CellTraceHeader
{
u8 tag;
u8 length;
u8 cpu;
u8 thread;
be_t<u32> time;
};
struct CellSpursTracePacket
{
struct header_struct
{
u8 tag;
u8 length;
u8 spu;
u8 workload;
be_t<u32> time;
} header;
struct data_struct
{
struct load_struct
{
be_t<u32> ea;
be_t<u16> ls;
be_t<u16> size;
} load;
struct map_struct
{
be_t<u32> offset;
be_t<u16> ls;
be_t<u16> size;
} map;
struct start_struct
{
char module[4];
be_t<u16> level;
be_t<u16> ls;
} start;
be_t<u64> user;
be_t<u64> guid;
} data;
};
// cellSpurs taskset structures.
struct CellSpursTaskset
{
u8 skip[6400];
};
// Exception handlers.
typedef void (*CellSpursGlobalExceptionEventHandler)(mem_ptr_t<CellSpurs> spurs, const mem_ptr_t<CellSpursExceptionInfo> info,
uint id, mem_ptr_t<void> arg);
typedef void (*CellSpursTasksetExceptionEventHandler)(mem_ptr_t<CellSpurs> spurs, mem_ptr_t<CellSpursTaskset> taskset,
uint idTask, const mem_ptr_t<CellSpursExceptionInfo> info, mem_ptr_t<void> arg);
struct CellSpursTasksetInfo
{
//CellSpursTaskInfo taskInfo[CELL_SPURS_MAX_TASK];
be_t<u64> argument;
be_t<uint> idWorkload;
be_t<uint> idLastScheduledTask; //typedef unsigned CellSpursTaskId
be_t<u32> name_addr;
CellSpursTasksetExceptionEventHandler exceptionEventHandler;
be_t<u32> exceptionEventHandlerArgument_addr; //void *exceptionEventHandlerArgument
be_t<u64> sizeTaskset;
//be_t<u8> reserved[];
};
struct CellSpursTaskset2
{
be_t<u8> skip[10496];
};
struct CellSpursTasksetAttribute2
{
be_t<u32> revision;
be_t<u32> name_addr;
be_t<u64> argTaskset;
u8 priority[8];
be_t<u32> maxContention;
be_t<s32> enableClearLs;
be_t<s32> CellSpursTaskNameBuffer_addr; //??? *taskNameBuffer
//be_t<u32> __reserved__[];
};
// cellSpurs task structures.
struct CellSpursTaskNameBuffer
{
char taskName[CELL_SPURS_MAX_TASK][CELL_SPURS_MAX_TASK_NAME_LENGTH];
};
struct CellSpursTraceTaskData
{
be_t<u32> incident;
be_t<u32> task;
};
struct CellSpursTaskArgument
{
be_t<u32> u32[4];
be_t<u64> u64[2];
};
struct CellSpursTaskLsPattern
{
be_t<u32> u32[4];
be_t<u64> u64[2];
};
struct CellSpursTaskAttribute2
{
be_t<u32> revision;
be_t<u32> sizeContext;
be_t<u64> eaContext;
CellSpursTaskLsPattern lsPattern; //???
be_t<u32> name_addr;
//be_t<u32> __reserved__[];
};
struct CellSpursTaskExitCode
{
unsigned char skip[128];
};
struct CellSpursTaskInfo
{
CellSpursTaskLsPattern lsPattern;
CellSpursTaskArgument argument;
const be_t<u32> eaElf_addr; //void *eaElf
const be_t<u32> eaContext_addr; //void *eaContext
be_t<u32> sizeContext;
be_t<u8> state;
be_t<u8> hasSignal;
const be_t<u32> CellSpursTaskExitCode_addr;
u8 guid[8];
//be_t<u8> reserved[];
};
struct CellSpursTaskBinInfo
{
be_t<u64> eaElf;
be_t<u32> sizeContext;
be_t<u32> __reserved__;
CellSpursTaskLsPattern lsPattern;
};
// cellSpurs event flag.
struct CellSpursEventFlag {
u8 skip[128];

View File

@ -158,6 +158,10 @@ int cellSysmoduleSetMemcontainer(u32 ct_id)
int cellSysmoduleLoadModule(u16 id)
{
if (id == 0xf054)
{
cellSysmodule.Error("cellSysmoduleLoadModule: TODO: CELL_SYSMODULE_LIBATRAC3MULTI");
}
cellSysmodule.Warning("cellSysmoduleLoadModule(%s)", wxString(getModuleName(id)).wx_str());
Module* m = GetModuleById(id);

View File

@ -23,17 +23,18 @@ public:
if (sortOrder == CELL_SAVEDATA_SORTORDER_DESCENT)
{
if (sortType == CELL_SAVEDATA_SORTTYPE_MODIFIEDTIME)
return entry1.timestamp >= entry2.timestamp;
else //if (sortType == CELL_SAVEDATA_SORTTYPE_SUBTITLE)
return entry1.st_mtime_ >= entry2.st_mtime_;
if (sortType == CELL_SAVEDATA_SORTTYPE_SUBTITLE)
return entry1.subtitle >= entry2.subtitle;
}
else //if (sortOrder == CELL_SAVEDATA_SORTORDER_ASCENT)
if (sortOrder == CELL_SAVEDATA_SORTORDER_ASCENT)
{
if (sortType == CELL_SAVEDATA_SORTTYPE_MODIFIEDTIME)
return entry1.timestamp < entry2.timestamp;
else //if (sortType == CELL_SAVEDATA_SORTTYPE_SUBTITLE)
return entry1.st_mtime_ < entry2.st_mtime_;
if (sortType == CELL_SAVEDATA_SORTTYPE_SUBTITLE)
return entry1.subtitle < entry2.subtitle;
}
return true;
}
};
@ -55,7 +56,7 @@ u64 getSaveDataSize(const std::string& dirName)
return totalSize;
}
void getSaveDataEntry(std::vector<SaveDataListEntry>& saveEntries, const std::string& saveDir)
void addSaveDataEntry(std::vector<SaveDataListEntry>& saveEntries, const std::string& saveDir)
{
// PSF parameters
vfsFile f(saveDir + "/PARAM.SFO");
@ -75,12 +76,56 @@ void getSaveDataEntry(std::vector<SaveDataListEntry>& saveEntries, const std::st
saveEntry.subtitle = psf.GetString("SUB_TITLE");
saveEntry.details = psf.GetString("DETAIL");
saveEntry.sizeKb = getSaveDataSize(saveDir)/1024;
saveEntry.timestamp = 0; // TODO
saveEntry.iconBuffer = stbi_load(localPath.mb_str(), &width, &height, &actual_components, 3);
saveEntry.st_atime_ = 0; // TODO
saveEntry.st_mtime_ = 0; // TODO
saveEntry.st_ctime_ = 0; // TODO
saveEntry.iconBuf = stbi_load(localPath.mb_str(), &width, &height, &actual_components, 3);
saveEntry.iconBufSize = width * height * 3;
saveEntry.isNew = false;
saveEntries.push_back(saveEntry);
}
void addNewSaveDataEntry(std::vector<SaveDataListEntry>& saveEntries, mem_ptr_t<CellSaveDataListNewData> newData)
{
SaveDataListEntry saveEntry;
saveEntry.dirName = (char*)Memory.VirtualToRealAddr(newData->dirName_addr);
saveEntry.title = (char*)Memory.VirtualToRealAddr(newData->icon->title_addr);
saveEntry.subtitle = (char*)Memory.VirtualToRealAddr(newData->icon->title_addr);
saveEntry.iconBuf = Memory.VirtualToRealAddr(newData->icon->iconBuf_addr);
saveEntry.iconBufSize = newData->icon->iconBufSize;
saveEntry.isNew = true;
// TODO: Add information stored in newData->iconPosition. (It's not very relevant)
saveEntries.push_back(saveEntry);
}
u32 focusSaveDataEntry(const std::vector<SaveDataListEntry>& saveEntries, u32 focusPosition)
{
return 0;
}
void setSaveDataEntries(std::vector<SaveDataListEntry>& saveEntries, mem_ptr_t<CellSaveDataDirList> fixedList, u32 fixedListNum)
{
std::vector<SaveDataListEntry>::iterator entry = saveEntries.begin();
while (entry != saveEntries.end())
{
bool found = false;
for (u32 j=0; j<fixedListNum; j++)
{
if (entry->dirName == (char*)fixedList[j].dirName)
{
found = true;
break;
}
}
if (!found)
entry = saveEntries.erase(entry);
else
entry++;
}
}
// Functions
int cellSaveDataListSave2(u32 version, mem_ptr_t<CellSaveDataSetList> setList, mem_ptr_t<CellSaveDataSetBuf> setBuf,
@ -95,7 +140,7 @@ int cellSaveDataListSave2(u32 version, mem_ptr_t<CellSaveDataSetList> setList, m
MemoryAllocator<CellSaveDataCBResult> result;
MemoryAllocator<CellSaveDataListGet> listGet;
MemoryAllocator<CellSaveDataListGet> listSet;
MemoryAllocator<CellSaveDataListSet> listSet;
std::string saveBaseDir = "/dev_hdd0/home/00000001/savedata/"; // TODO: Get the path of the current user
vfsDir dir(saveBaseDir);
@ -115,14 +160,14 @@ int cellSaveDataListSave2(u32 version, mem_ptr_t<CellSaveDataSetList> setList, m
listGet->dirNum++;
std::string saveDir = saveBaseDir + (const char*)(entry->name.mb_str());
getSaveDataEntry(saveEntries, saveDir);
addSaveDataEntry(saveEntries, saveDir);
}
}
// Sort the entries and fill the listGet->dirList array
std::sort(saveEntries.begin(), saveEntries.end(), sortSaveDataEntry(setList->sortType, setList->sortOrder));
listGet->dirList_addr = setBuf->buf_addr;
CellSaveDataDirList* dirList = (CellSaveDataDirList*)Memory.VirtualToRealAddr(listGet->dirList_addr);
listGet->dirList.SetAddr(setBuf->buf_addr);
CellSaveDataDirList* dirList = (CellSaveDataDirList*)Memory.VirtualToRealAddr(listGet->dirList.GetAddr());
for (u32 i=0; i<saveEntries.size(); i++) {
memcpy(dirList[i].dirName, saveEntries[i].dirName.c_str(), CELL_SAVEDATA_DIRNAME_SIZE);
memcpy(dirList[i].listParam, saveEntries[i].listParam.c_str(), CELL_SAVEDATA_SYSP_LPARAM_SIZE);
@ -139,8 +184,8 @@ int cellSaveDataListSave2(u32 version, mem_ptr_t<CellSaveDataSetList> setList, m
funcFile(result.GetAddr(), fileGet.GetAddr(), fileSet.GetAddr());
for (auto& entry : saveEntries) {
delete[] entry.iconBuffer;
entry.iconBuffer = nullptr;
delete[] entry.iconBuf;
entry.iconBuf = nullptr;
}
return CELL_SAVEDATA_RET_OK;
@ -158,7 +203,7 @@ int cellSaveDataListLoad2(u32 version, mem_ptr_t<CellSaveDataSetList> setList, m
MemoryAllocator<CellSaveDataCBResult> result;
MemoryAllocator<CellSaveDataListGet> listGet;
MemoryAllocator<CellSaveDataListGet> listSet;
MemoryAllocator<CellSaveDataListSet> listSet;
std::string saveBaseDir = "/dev_hdd0/home/00000001/savedata/"; // TODO: Get the path of the current user
vfsDir dir(saveBaseDir);
@ -178,23 +223,42 @@ int cellSaveDataListLoad2(u32 version, mem_ptr_t<CellSaveDataSetList> setList, m
listGet->dirNum++;
std::string saveDir = saveBaseDir + (const char*)(entry->name.mb_str());
getSaveDataEntry(saveEntries, saveDir);
addSaveDataEntry(saveEntries, saveDir);
}
}
// Sort the entries and fill the listGet->dirList array
std::sort(saveEntries.begin(), saveEntries.end(), sortSaveDataEntry(setList->sortType, setList->sortOrder));
listGet->dirList_addr = setBuf->buf_addr;
CellSaveDataDirList* dirList = (CellSaveDataDirList*)Memory.VirtualToRealAddr(listGet->dirList_addr);
listGet->dirList.SetAddr(setBuf->buf_addr);
CellSaveDataDirList* dirList = (CellSaveDataDirList*)Memory.VirtualToRealAddr(listGet->dirList.GetAddr());
for (u32 i=0; i<saveEntries.size(); i++) {
memcpy(dirList[i].dirName, saveEntries[i].dirName.c_str(), CELL_SAVEDATA_DIRNAME_SIZE);
memcpy(dirList[i].listParam, saveEntries[i].listParam.c_str(), CELL_SAVEDATA_SYSP_LPARAM_SIZE);
}
funcList(result.GetAddr(), listGet.GetAddr(), listSet.GetAddr());
if (result->result < 0) {
ConLog.Error("cellSaveDataListLoad2: CellSaveDataListCallback failed."); // TODO: Once we verify that the entire SysCall is working, delete this debug error message.
return CELL_SAVEDATA_ERROR_CBRESULT;
}
if (!listSet->fixedList.IsGood()) {
return CELL_SAVEDATA_ERROR_PARAM;
}
setSaveDataEntries(saveEntries, (u32)listSet->fixedList.GetAddr(), listSet->fixedListNum);
u32 focusIndex = focusSaveDataEntry(saveEntries, listSet->focusPosition);
MemoryAllocator<CellSaveDataStatGet> statGet;
MemoryAllocator<CellSaveDataStatSet> statSet;
// TODO: Display the dialog here
ConLog.Warning("cellSaveDataListLoad2:");
statGet->isNewData = CELL_SAVEDATA_ISNEWDATA_NO; // You can *never* load new data
//statGet->dir =
funcStat(result.GetAddr(), statGet.GetAddr(), statSet.GetAddr());
MemoryAllocator<CellSaveDataFileGet> fileGet;
@ -202,8 +266,8 @@ int cellSaveDataListLoad2(u32 version, mem_ptr_t<CellSaveDataSetList> setList, m
funcFile(result.GetAddr(), fileGet.GetAddr(), fileSet.GetAddr());
for (auto& entry : saveEntries) {
delete[] entry.iconBuffer;
entry.iconBuffer = nullptr;
delete[] entry.iconBuf;
entry.iconBuf = nullptr;
}
return CELL_SAVEDATA_RET_OK;

View File

@ -19,6 +19,19 @@ enum
CELL_SAVEDATA_ERROR_NOTSUPPORTED = 0x8002b40c,
};
// Callback return codes
enum
{
CELL_SAVEDATA_CBRESULT_OK_LAST_NOCONFIRM = 2,
CELL_SAVEDATA_CBRESULT_OK_LAST = 1,
CELL_SAVEDATA_CBRESULT_OK_NEXT = 0,
CELL_SAVEDATA_CBRESULT_ERR_NOSPACE = -1,
CELL_SAVEDATA_CBRESULT_ERR_FAILURE = -2,
CELL_SAVEDATA_CBRESULT_ERR_BROKEN = -3,
CELL_SAVEDATA_CBRESULT_ERR_NODATA = -4,
CELL_SAVEDATA_CBRESULT_ERR_INVALID = -5,
};
// Constants
enum
{
@ -46,6 +59,18 @@ enum
// CellSaveDataSortOrder
CELL_SAVEDATA_SORTORDER_DESCENT = 0,
CELL_SAVEDATA_SORTORDER_ASCENT = 1,
// CellSaveDataIsNewData
CELL_SAVEDATA_ISNEWDATA_NO = 0,
CELL_SAVEDATA_ISNEWDATA_YES = 1,
// CellSaveDataFocusPosition
CELL_SAVEDATA_FOCUSPOS_DIRNAME = 0,
CELL_SAVEDATA_FOCUSPOS_LISTHEAD = 1,
CELL_SAVEDATA_FOCUSPOS_LISTTAIL = 2,
CELL_SAVEDATA_FOCUSPOS_LATEST = 3,
CELL_SAVEDATA_FOCUSPOS_OLDEST = 4,
CELL_SAVEDATA_FOCUSPOS_NEWDATA = 5,
};
@ -77,7 +102,7 @@ struct CellSaveDataListNewData
{
be_t<u32> iconPosition;
be_t<u32> dirName_addr; // char*
be_t<u32> icon_addr; // CellSaveDataNewDataIcon*
mem_beptr_t<CellSaveDataNewDataIcon> icon;
};
struct CellSaveDataDirList
@ -90,7 +115,7 @@ struct CellSaveDataListGet
{
be_t<u32> dirNum;
be_t<u32> dirListNum;
be_t<u32> dirList_addr; // CellSaveDataDirList*
mem_beptr_t<CellSaveDataDirList> dirList;
};
struct CellSaveDataListSet
@ -98,14 +123,15 @@ struct CellSaveDataListSet
be_t<u32> focusPosition;
be_t<u32> focusDirName_addr; // char*
be_t<u32> fixedListNum;
be_t<u32> fixedList_addr; // CellSaveDataDirList*
be_t<u32> newData_addr; // CellSaveDataListNewData*
mem_beptr_t<CellSaveDataDirList> fixedList;
mem_beptr_t<CellSaveDataListNewData> newData;
be_t<u32> reserved_addr; // void*
};
struct CellSaveDataFixedSet
{
be_t<u32> dirName_addr; // char*
be_t<u32> newIcon_addr; // CellSaveDataNewDataIcon*
mem_beptr_t<CellSaveDataNewDataIcon> newIcon;
be_t<u32> option;
};
@ -151,7 +177,7 @@ struct CellSaveDataStatGet
be_t<s32> sysSizeKB;
be_t<u32> fileNum;
be_t<u32> fileListNum;
be_t<u32> fileList_addr; // CellSaveDataFileStat*
mem_beptr_t<CellSaveDataFileStat> fileList;
};
struct CellSaveDataAutoIndicator
@ -165,9 +191,9 @@ struct CellSaveDataAutoIndicator
struct CellSaveDataStatSet
{
be_t<u32> setParam_addr; // CellSaveDataSystemFileParam*
mem_beptr_t<CellSaveDataSystemFileParam> setParam;
be_t<u32> reCreateMode;
be_t<u32> indicator_addr; // CellSaveDataAutoIndicator*
mem_beptr_t<CellSaveDataAutoIndicator> indicator;
};
struct CellSaveDataFileGet
@ -223,8 +249,12 @@ struct SaveDataListEntry
std::string subtitle;
std::string details;
u32 sizeKb;
u64 timestamp;
void* iconBuffer;
s64 st_atime_;
s64 st_mtime_;
s64 st_ctime_;
void* iconBuf;
u32 iconBufSize;
bool isNew;
};

View File

@ -67,9 +67,6 @@ next:
vdec.reader.addr = vdec.task.addr;
vdec.reader.size = vdec.task.size;
//ConLog.Write("Video AU: size = 0x%x, pts = 0x%llx, dts = 0x%llx", vdec.task.size, vdec.task.pts, vdec.task.dts);
//if (vdec.last_pts > vdec.task.pts) vdec.last_pts = vdec.task.pts;
//if (vdec.last_dts > vdec.task.dts) vdec.last_dts = vdec.task.dts;
}
break;
default:
@ -208,12 +205,11 @@ u32 vdecOpen(VideoDecoder* data)
vdec.reader.size = task.size;
//ConLog.Write("Video AU: size = 0x%x, pts = 0x%llx, dts = 0x%llx", task.size, task.pts, task.dts);
//if (vdec.last_pts > task.pts || vdec.just_started) vdec.last_pts = task.pts;
//if (vdec.last_dts > task.dts || vdec.just_started) vdec.last_dts = task.dts;
if (vdec.just_started)
{
vdec.first_pts = task.pts;
vdec.last_pts = task.pts;
vdec.last_dts = task.dts;
vdec.first_dts = task.dts;
}
struct AVPacketHolder : AVPacket
@ -357,8 +353,20 @@ u32 vdecOpen(VideoDecoder* data)
if (got_picture)
{
frame.dts = vdec.last_dts; vdec.last_dts += 3003; // + duration???
frame.pts = vdec.last_pts; vdec.last_pts += 3003;
u64 ts = av_frame_get_best_effort_timestamp(frame.data);
if (ts != AV_NOPTS_VALUE)
{
frame.pts = ts/* - vdec.first_pts*/; // ???
vdec.last_pts = frame.pts;
}
else
{
vdec.last_pts += vdec.ctx->time_base.num * 90000 / (vdec.ctx->time_base.den / vdec.ctx->ticks_per_frame);
frame.pts = vdec.last_pts;
}
//frame.pts = vdec.last_pts;
//vdec.last_pts += 3754;
frame.dts = (frame.pts - vdec.first_pts) + vdec.first_dts;
frame.userdata = task.userData;
//ConLog.Write("got picture (pts=0x%llx, dts=0x%llx)", frame.pts, frame.dts);
@ -726,7 +734,27 @@ int cellVdecGetPicItem(u32 handle, mem32_t picItem_ptr)
avc->transfer_characteristics = CELL_VDEC_AVC_TC_ITU_R_BT_709_5;
avc->matrix_coefficients = CELL_VDEC_AVC_MXC_ITU_R_BT_709_5; // important
avc->timing_info_present_flag = true;
avc->frameRateCode = CELL_VDEC_AVC_FRC_30000DIV1001; // important (!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!)
if (vdec->ctx->time_base.num == 1001)
{
if (vdec->ctx->time_base.den == 48000 && vdec->ctx->ticks_per_frame == 2)
{
avc->frameRateCode = CELL_VDEC_AVC_FRC_24000DIV1001;
}
else if (vdec->ctx->time_base.den == 60000 && vdec->ctx->ticks_per_frame == 2)
{
avc->frameRateCode = CELL_VDEC_AVC_FRC_30000DIV1001;
}
else
{
ConLog.Error("cellVdecGetPicItem: unsupported time_base.den (%d)", vdec->ctx->time_base.den);
Emu.Pause();
}
}
else
{
ConLog.Error("cellVdecGetPicItem: unsupported time_base.num (%d)", vdec->ctx->time_base.num);
Emu.Pause();
}
avc->fixed_frame_rate_flag = true;
avc->low_delay_hrd_flag = true; // ???
avc->entropy_coding_mode_flag = true; // ???

View File

@ -719,7 +719,8 @@ public:
u32 memBias;
VdecTask task; // current task variable
u64 last_pts, last_dts;
u64 last_pts, first_pts, first_dts;
AVRational rfr, afr;
CPUThread* vdecCb;

View File

@ -1,15 +1,103 @@
#include "stdafx.h"
#include "Emu/SysCalls/SysCalls.h"
#include "Emu/SysCalls/SC_FUNC.h"
#include "Emu/Audio/cellAudio.h"
#include "libmixer.h"
void libmixer_init();
Module libmixer("libmixer", libmixer_init);
int cellAANAddData(u32 handle, u32 port, u32 offset, u32 addr, u32 samples)
CellSurMixerConfig surMixer;
#define SUR_PORT (7)
u32 surMixerCb = 0;
u32 surMixerCbArg = 0;
SMutex mixer_mutex;
float mixdata[8*256];
u64 mixcount = 0;
int cellAANAddData(u32 aan_handle, u32 aan_port, u32 offset, u32 addr, u32 samples)
{
libmixer.Error("cellAANAddData(handle=0x%x, port=0x%x, offset=0x%x, addr=0x%x, samples=0x%x)",
handle, port, offset, addr, samples);
u32 ch = aan_port >> 16;
u32 port = aan_port & 0xffff;
switch (ch)
{
case 1:
if (port >= surMixer.chStrips1) ch = 0; break;
case 2:
if (port >= surMixer.chStrips2) ch = 0; break;
case 6:
/*if (port >= surMixer.chStrips6)*/ ch = 0; break;
case 8:
if (port >= surMixer.chStrips8) ch = 0; break;
default:
ch = 0; break;
}
if (aan_handle == 0x11111111 && samples == 256 && ch && offset == 0)
{
libmixer.Log("cellAANAddData(handle=0x%x, port=0x%x, offset=0x%x, addr=0x%x, samples=0x%x)",
aan_handle, aan_port, offset, addr, samples);
}
else
{
libmixer.Error("cellAANAddData(handle=0x%x, port=0x%x, offset=0x%x, addr=0x%x, samples=0x%x)",
aan_handle, aan_port, offset, addr, samples);
Emu.Pause();
return CELL_OK;
}
SMutexLocker lock(mixer_mutex);
if (ch == 1)
{
// mono upmixing
for (u32 i = 0; i < samples; i++)
{
const float center = *(be_t<float>*)&Memory[addr + i * sizeof(float)];
mixdata[i*8+0] += center;
mixdata[i*8+1] += center;
}
}
else if (ch == 2)
{
// stereo upmixing
for (u32 i = 0; i < samples; i++)
{
const float left = *(be_t<float>*)&Memory[addr + i * 2 * sizeof(float)];
const float right = *(be_t<float>*)&Memory[addr + (i * 2 + 1) * sizeof(float)];
mixdata[i*8+0] += left;
mixdata[i*8+1] += right;
}
}
else if (ch == 6)
{
// 5.1 upmixing
for (u32 i = 0; i < samples; i++)
{
const float left = *(be_t<float>*)&Memory[addr + i * 6 * sizeof(float)];
const float right = *(be_t<float>*)&Memory[addr + (i * 6 + 1) * sizeof(float)];
const float center = *(be_t<float>*)&Memory[addr + (i * 6 + 2) * sizeof(float)];
const float low_freq = *(be_t<float>*)&Memory[addr + (i * 6 + 3) * sizeof(float)];
const float rear_left = *(be_t<float>*)&Memory[addr + (i * 6 + 4) * sizeof(float)];
const float rear_right = *(be_t<float>*)&Memory[addr + (i * 6 + 5) * sizeof(float)];
mixdata[i*8+0] += left;
mixdata[i*8+1] += right;
mixdata[i*8+2] += center;
mixdata[i*8+3] += low_freq;
mixdata[i*8+4] += rear_left;
mixdata[i*8+5] += rear_right;
}
}
else if (ch == 8)
{
// 7.1
for (u32 i = 0; i < samples * 8; i++)
{
mixdata[i] += *(be_t<float>*)&Memory[addr + i * sizeof(float)];
}
}
return CELL_OK;
}
@ -71,37 +159,117 @@ s32 cellSSPlayerGetState() //CellAANHandle handle
int cellSurMixerCreate(const mem_ptr_t<CellSurMixerConfig> config)
{
libmixer.Error("cellSurMixerCreate(config_addr=0x%x)", config.GetAddr());
libmixer.Warning("cellSurMixerCreate(config_addr=0x%x)", config.GetAddr());
surMixer = *config;
libmixer.Warning("*** surMixer created (ch1=%d, ch2=%d, ch6=%d, ch8=%d)",
(u32)surMixer.chStrips1, (u32)surMixer.chStrips2, (u32)surMixer.chStrips6, (u32)surMixer.chStrips8);
return CELL_OK;
}
int cellSurMixerGetAANHandle(mem32_t handle)
{
libmixer.Error("cellSurMixerGetAANHandle(handle_addr=0x%x)", handle.GetAddr());
libmixer.Warning("cellSurMixerGetAANHandle(handle_addr=0x%x) -> 0x11111111", handle.GetAddr());
handle = 0x11111111;
return CELL_OK;
}
int cellSurMixerChStripGetAANPortNo(mem32_t port, u32 type, u32 index)
{
libmixer.Error("cellSurMixerChStripGetAANPortNo(port_addr=0x%x, type=0x%x, index=0x%x)", port.GetAddr(), type, index);
libmixer.Warning("cellSurMixerChStripGetAANPortNo(port_addr=0x%x, type=0x%x, index=0x%x) -> 0x%x", port.GetAddr(), type, index, (type << 16) | index);
port = (type << 16) | index;
return CELL_OK;
}
int cellSurMixerSetNotifyCallback(u32 func, u32 arg)
{
libmixer.Error("cellSurMixerSetNotifyCallback(func_addr=0x%x, arg=0x%x)", func, arg);
libmixer.Warning("cellSurMixerSetNotifyCallback(func_addr=0x%x, arg=0x%x) (surMixerCb=0x%x)", func, arg, surMixerCb);
surMixerCb = func;
surMixerCbArg = arg;
return CELL_OK;
}
int cellSurMixerRemoveNotifyCallback(u32 func)
{
libmixer.Error("cellSurMixerSetNotifyCallback(func_addr=0x%x)", func);
libmixer.Warning("cellSurMixerSetNotifyCallback(func_addr=0x%x) (surMixerCb=0x%x)", func, surMixerCb);
surMixerCb = 0;
surMixerCbArg = 0;
return CELL_OK;
}
int cellSurMixerStart()
{
libmixer.Error("cellSurMixerStart()");
libmixer.Warning("cellSurMixerStart()");
AudioPortConfig& port = m_config.m_ports[SUR_PORT];
if (port.m_is_audio_port_opened)
{
return CELL_LIBMIXER_ERROR_FULL;
}
port.channel = 8;
port.block = 16;
port.attr = 0;
port.level = 1.0f;
libmixer.Warning("*** audio port opened(default)");
port.m_is_audio_port_opened = true;
port.tag = 0;
m_config.m_port_in_use++;
port.m_is_audio_port_started = true;
thread t("Surmixer Thread", []()
{
AudioPortConfig& port = m_config.m_ports[SUR_PORT];
CPUThread* mixerCb = &Emu.GetCPU().AddThread(CPU_THREAD_PPU);
mixerCb->SetName("Surmixer Callback");
mixcount = 0;
while (port.m_is_audio_port_started)
{
if (Emu.IsStopped())
{
ConLog.Warning("Surmixer aborted");
return;
}
if (mixcount > (port.tag + 15)) // preemptive buffer filling (probably hack)
{
Sleep(1);
continue;
}
u64 stamp0 = get_system_time();
memset(mixdata, 0, sizeof(mixdata));
mixerCb->ExecAsCallback(surMixerCb, true, surMixerCbArg, mixcount, 256);
u64 stamp1 = get_system_time();
auto buf = (be_t<float>*)&Memory[m_config.m_buffer + (128 * 1024 * SUR_PORT) + (mixcount % port.block) * port.channel * 256 * sizeof(float)];
for (u32 i = 0; i < (sizeof(mixdata) / sizeof(float)); i++)
{
// reverse byte order
buf[i] = mixdata[i];
}
u64 stamp2 = get_system_time();
//ConLog.Write("Libmixer perf: start=%d (cb=%d, finalize=%d)",
//stamp0 - m_config.start_time, stamp1-stamp0, stamp2-stamp1);
mixcount++;
}
Emu.GetCPU().RemoveThread(mixerCb->GetId());
});
t.detach();
return CELL_OK;
}
@ -113,67 +281,102 @@ int cellSurMixerSetParameter(u32 param, float value)
int cellSurMixerFinalize()
{
libmixer.Error("cellSurMixerFinalize()");
libmixer.Warning("cellSurMixerFinalize()");
AudioPortConfig& port = m_config.m_ports[SUR_PORT];
if (port.m_is_audio_port_opened)
{
port.m_is_audio_port_started = false;
port.m_is_audio_port_opened = false;
m_config.m_port_in_use--;
}
return CELL_OK;
}
/*int cellSurMixerSurBusAddData() //u32 busNo, u32 offset, float *addr, u32 samples
int cellSurMixerSurBusAddData(u32 busNo, u32 offset, u32 addr, u32 samples)
{
UNIMPLEMENTED_FUNC(libmixer);
return 0;
if (busNo < 8 && samples == 256 && offset == 0)
{
libmixer.Log("cellSurMixerSurBusAddData(busNo=%d, offset=0x%x, addr=0x%x, samples=%d)", busNo, offset, addr, samples);
}
else
{
libmixer.Error("cellSurMixerSurBusAddData(busNo=%d, offset=0x%x, addr=0x%x, samples=%d)", busNo, offset, addr, samples);
Emu.Pause();
return CELL_OK;
}
SMutexLocker lock(mixer_mutex);
for (u32 i = 0; i < samples; i++)
{
// reverse byte order and mix
u32 v = Memory.Read32(addr + i * sizeof(float));
mixdata[i*8+busNo] += (float&)v;
}
return CELL_OK;
}
int cellSurMixerChStripSetParameter() //u32 type, u32 index, CellSurMixerChStripParam *param
int cellSurMixerChStripSetParameter(u32 type, u32 index, mem_ptr_t<CellSurMixerChStripParam> param)
{
UNIMPLEMENTED_FUNC(libmixer);
return 0;
libmixer.Error("cellSurMixerChStripSetParameter(type=%d, index=%d, param_addr=0x%x)", type, index, param.GetAddr());
return CELL_OK;
}
int cellSurMixerPause() //u32 switch
int cellSurMixerPause(u32 type)
{
UNIMPLEMENTED_FUNC(libmixer);
return 0;
libmixer.Error("cellSurMixerPause(type=%d)", type);
return CELL_OK;
}
int cellSurMixerGetCurrentBlockTag() //u64 *tag
int cellSurMixerGetCurrentBlockTag(mem64_t tag)
{
UNIMPLEMENTED_FUNC(libmixer);
return 0;
libmixer.Error("cellSurMixerGetCurrentBlockTag(tag_addr=0x%x)", tag.GetAddr());
return CELL_OK;
}
int cellSurMixerGetTimestamp() //u64 tag, u64 *stamp
int cellSurMixerGetTimestamp(u64 tag, mem64_t stamp)
{
UNIMPLEMENTED_FUNC(libmixer);
return 0;
libmixer.Error("cellSurMixerGetTimestamp(tag=0x%llx, stamp_addr=0x%x)", tag, stamp.GetAddr());
return CELL_OK;
}
void cellSurMixerBeep(); //void *arg
float cellSurMixerUtilGetLevelFromDB() //float dB
void cellSurMixerBeep(u32 arg)
{
UNIMPLEMENTED_FUNC(libmixer);
return CELL_OK; //it's NOT real value
//TODO;
libmixer.Error("cellSurMixerBeep(arg=%d)", arg);
return;
}
float cellSurMixerUtilGetLevelFromDBIndex() //int index
void cellSurMixerUtilGetLevelFromDB(float dB)
{
UNIMPLEMENTED_FUNC(libmixer);
return CELL_OK; //it's NOT real value
//TODO;
// not hooked, probably unnecessary
libmixer.Error("cellSurMixerUtilGetLevelFromDB(dB=%f)", dB);
declCPU();
(float&)CPU.FPR[0] = 0.0f;
}
float cellSurMixerUtilNoteToRatio() //unsigned char refNote, unsigned char note
void cellSurMixerUtilGetLevelFromDBIndex(int index)
{
UNIMPLEMENTED_FUNC(libmixer);
return CELL_OK; //it's NOT real value
//TODO
}*/
// not hooked, probably unnecessary
libmixer.Error("cellSurMixerUtilGetLevelFromDBIndex(index=%d)", index);
declCPU();
(float&)CPU.FPR[0] = 0.0f;
}
void cellSurMixerUtilNoteToRatio(u8 refNote, u8 note)
{
// not hooked, probably unnecessary
libmixer.Error("cellSurMixerUtilNoteToRatio(refNote=%d, note=%d)", refNote, note);
declCPU();
(float&)CPU.FPR[0] = 0.0f;
}
void libmixer_init()
{
static const u64 cellAANAddData_table[] = {
// TODO
0xffffffff7c691b78,
0xffffffff7c0802a6,
0xfffffffff821ff91,
@ -183,6 +386,7 @@ void libmixer_init()
0xffffffff81690000,
0xffffffff7c050378,
0xffffffff7cc43378,
0x78630020, // clrldi r3,r3,32
0xffffffff7d465378,
0xffffffff812b0030,
0xffffffff80090000,
@ -198,9 +402,9 @@ void libmixer_init()
0xffffffff4e800020,
0
};
libmixer.AddFuncSub(cellAANAddData_table, "cellAANAddData", cellAANAddData);
libmixer.AddFuncSub("surmxAAN", cellAANAddData_table, "cellAANAddData", cellAANAddData);
u64 cellAANConnect_table[39] = {
static const u64 cellAANConnect_table[] = {
0xfffffffff821ff71,
0xffffffff7c0802a6,
0xffffffff2f830000,
@ -225,7 +429,7 @@ void libmixer_init()
0xffffffff90a10070,
0xffffffff90c10078,
0xffffffff9141007c,
0xffffffff812b0018, // [24]
0xffffffff812b0018, // difference
0xffffffff90010080,
0xffffffff80090000,
0xfffffffff8410028,
@ -239,40 +443,52 @@ void libmixer_init()
0xffffffff38210090,
0xffffffff7c0803a6,
0xffffffff4e800020,
0, // [38]
0,
};
libmixer.AddFuncSub(cellAANConnect_table, "cellAANConnect", cellAANConnect);
cellAANConnect_table[24] = 0xffffffff812b001c;
libmixer.AddFuncSub(cellAANConnect_table, "cellAANDisconnect", cellAANDisconnect);
libmixer.AddFuncSub("surmxAAN", cellAANConnect_table, "cellAANConnect", cellAANConnect);
static const u64 cellAANAddData_table1[] = {
// TODO
0xffffffff7c691b78,
static const u64 cellAANDisconnect_table[] = {
0xfffffffff821ff71,
0xffffffff7c0802a6,
0xfffffffff821ff91,
0xfffffffff8010080,
0xffffffff7c802378,
0xffffffff7caa2b78,
0xffffffff2f830000,
0xfffffffff80100a0,
0xffffffff3c008031,
0xffffffff7c691b78,
0xffffffff7c8a2378,
0xffffffff60000003,
0xffffff00409e0018, // bne
0xffffffff7c0307b4,
0xffffffffe80100a0,
0xffffffff38210090,
0xffffffff7c0803a6,
0xffffffff4e800020,
0xffffffff2f850000,
0xffffffff78630020,
0xffffffff38810070,
0xffffff00419effe0, // beq
0xffffffff81690000,
0xffffffff7c050378,
0xffffffff7cc43378,
0xffffffff78630020, // clrldi r3,r3,32
0xffffffff7d465378,
0xffffffff812b0030,
0xffffffff38000001,
0xffffffff91210074,
0xffffffff90a10070,
0xffffffff90c10078,
0xffffffff9141007c,
0xffffffff812b001c, // difference
0xffffffff90010080,
0xffffffff80090000,
0xfffffffff8410028,
0xffffffff7c0903a6,
0xffffffff80490004,
0xffffffff4e800421,
0xffffffffe8410028,
0xffffffffe8010080,
0xffffffff7c6307b4,
0xffffffff7c601b78,
0xffffffff7c0307b4,
0xffffffffe80100a0,
0xffffffff38210090,
0xffffffff7c0803a6,
0xffffffff38210070,
0xffffffff4e800020,
0
0,
};
libmixer.AddFuncSub(cellAANAddData_table1, "cellAANAddData(1)", cellAANAddData);
libmixer.AddFuncSub("surmxAAN", cellAANDisconnect_table, "cellAANDisconnect", cellAANDisconnect);
static const u64 cellSurMixerCreate_table[] = {
0xffffffff2f830000,
@ -303,7 +519,7 @@ void libmixer_init()
0xffffffff382100b0,
0
};
libmixer.AddFuncSub(cellSurMixerCreate_table, "cellSurMixerCreate", cellSurMixerCreate);
libmixer.AddFuncSub("surmx___", cellSurMixerCreate_table, "cellSurMixerCreate", cellSurMixerCreate);
static const u64 cellSurMixerGetAANHandle_table[] = {
// first instruction ignored
@ -322,7 +538,7 @@ void libmixer_init()
0xffffffff4e800020,
0
};
libmixer.AddFuncSub(cellSurMixerGetAANHandle_table, "cellSurMixerGetAANHandle", cellSurMixerGetAANHandle);
libmixer.AddFuncSub("surmx___", cellSurMixerGetAANHandle_table, "cellSurMixerGetAANHandle", cellSurMixerGetAANHandle);
static const u64 cellSurMixerChStripGetAANPortNo_table[] = {
// first instruction ignored
@ -339,7 +555,7 @@ void libmixer_init()
0xf000000040000000, // b
0
};
libmixer.AddFuncSub(cellSurMixerChStripGetAANPortNo_table, "cellSurMixerChStripGetAANPortNo", cellSurMixerChStripGetAANPortNo);
libmixer.AddFuncSub("surmx___", cellSurMixerChStripGetAANPortNo_table, "cellSurMixerChStripGetAANPortNo", cellSurMixerChStripGetAANPortNo);
static const u64 cellSurMixerSetNotifyCallback_table[] = {
// first instruction ignored
@ -369,7 +585,7 @@ void libmixer_init()
0xffffffff7d234b78,
0
};
libmixer.AddFuncSub(cellSurMixerSetNotifyCallback_table, "cellSurMixerSetNotifyCallback", cellSurMixerSetNotifyCallback);
libmixer.AddFuncSub("surmx___", cellSurMixerSetNotifyCallback_table, "cellSurMixerSetNotifyCallback", cellSurMixerSetNotifyCallback);
static const u64 cellSurMixerRemoveNotifyCallback_table[] = {
// first instruction ignored
@ -379,9 +595,9 @@ void libmixer_init()
0xffffffff7c6a1b78,
0xffffffff3d208031,
0xffffffff806b0018,
0xffffffff61290002,
0xffffffff61290002, // ori
0xffffffff2f830000,
0xf0000000409e0018, // bne
0xffff0000409e0018, // bne
0xffffffffe8010090,
0xffffffff7d2307b4,
0xffffffff38210080,
@ -389,7 +605,7 @@ void libmixer_init()
0xffffffff4e800020,
0
};
libmixer.AddFuncSub(cellSurMixerRemoveNotifyCallback_table, "cellSurMixerRemoveNotifyCallback", cellSurMixerRemoveNotifyCallback);
libmixer.AddFuncSub("surmx___", cellSurMixerRemoveNotifyCallback_table, "cellSurMixerRemoveNotifyCallback", cellSurMixerRemoveNotifyCallback);
static const u64 cellSurMixerStart_table[] = {
0xfffffffff821ff71,
@ -414,7 +630,7 @@ void libmixer_init()
0xffffffff4e800020,
0
};
libmixer.AddFuncSub(cellSurMixerStart_table, "cellSurMixerStart", cellSurMixerStart);
libmixer.AddFuncSub("surmx___", cellSurMixerStart_table, "cellSurMixerStart", cellSurMixerStart);
static const u64 cellSurMixerSetParameter_table[] = {
0xfffffffff821ff81,
@ -446,7 +662,7 @@ void libmixer_init()
0xffff0000409d0054, // ble
0
};
libmixer.AddFuncSub(cellSurMixerSetParameter_table, "cellSurMixerSetParameter", cellSurMixerSetParameter);
libmixer.AddFuncSub("surmx___", cellSurMixerSetParameter_table, "cellSurMixerSetParameter", cellSurMixerSetParameter);
static const u64 cellSurMixerFinalize_table[] = {
0xfffffffff821ff91,
@ -474,5 +690,147 @@ void libmixer_init()
0xffffffff4e800421,
0
};
libmixer.AddFuncSub(cellSurMixerFinalize_table, "cellSurMixerFinalize", cellSurMixerFinalize);
libmixer.AddFuncSub("surmx___", cellSurMixerFinalize_table, "cellSurMixerFinalize", cellSurMixerFinalize);
static const u64 cellSurMixerSurBusAddData_table[] = {
0xff00000081428250,
0xffffffff7c0802a6,
0xfffffffff821ff91,
0xfffffffff8010080,
0xffffffff7c601b78,
0xffffffff3d208031,
0xffffffff806a0018,
0xffffffff7c8b2378,
0xffffffff7cc73378,
0xffffffff2f830000,
0xffffffff61290002,
0xffff0000409e0018, // bne
0xffffffffe8010080,
0xffffffff7d2307b4,
0xffffffff38210070,
0xffffffff7c0803a6,
0xffffffff4e800020,
0xffffffff78a40020,
0xffffffff78050020,
0xffffffff800a001c,
0xffffffff78680020,
0xffffffff2f800000,
0xffffffff7d034378,
0xffffffff79660020,
0xffffffff78e70020,
0xffff0000419cffcc, // blt
0
};
libmixer.AddFuncSub("surmx___", cellSurMixerSurBusAddData_table, "cellSurMixerSurBusAddData", cellSurMixerSurBusAddData);
static const u64 cellSurMixerChStripSetParameter_table[] = {
0xff00000081028250,
0xffffffff7c6b1b78,
0xffffffff3c608031,
0xffffffff7c8a2378,
0xffffffff7ca62b78,
0xffffffff60630002,
0xffffffff81280018,
0xffffffff2f890000,
0xffff00004d9e0020, // beqlr
0xffffffff8008001c,
0xffffffff79640020,
0xffffffff79450020,
0xffffffff2f800000,
0xffffffff78c60020,
0xffffffff4d9c0020,
0xffffffff79230020,
0xf000000048000000, // b
0
};
libmixer.AddFuncSub("surmx___", cellSurMixerChStripSetParameter_table, "cellSurMixerChStripSetParameter", cellSurMixerChStripSetParameter);
static const u64 cellSurMixerPause_table[] = {
// first instruction ignored
0xffffffff7c0802a6,
0xfffffffff821ff81,
0xfffffffff8010090,
0xffffffff3d208031,
0xfffffffffbe10078,
0xffffffff800a0018,
0xffffffff7c7f1b78,
0xfffffffffbc10070,
0xffffffff2f800000,
0xffffffff61290002,
0xffff0000409e0020, // bne
0xffffffffe8010090,
0xffffffff7d2307b4,
0xffffffffebc10070,
0xffffffffebe10078,
0xffffffff7c0803a6,
0xffffffff38210080,
0xffffffff4e800020,
0xffffffff800a001c,
0xffffffff2b030002,
0xffffffff2f800000,
0
};
libmixer.AddFuncSub("surmx___", cellSurMixerPause_table, "cellSurMixerPause", cellSurMixerPause);
static const u64 cellSurMixerGetCurrentBlockTag_table[] = {
// first instruction ignored
0xffffffff3d208031,
0xffffffff61290002,
0xffffffff880b0020,
0xffffffff2f800000,
0xffff0000419e0010, // beq
0xffffffffe80b0028,
0xffffffff39200000,
0xfffffffff8030000,
0xffffffff7d2307b4,
0xffffffff4e800020,
0
};
libmixer.AddFuncSub("surmx___", cellSurMixerGetCurrentBlockTag_table, "cellSurMixerGetCurrentBlockTag", cellSurMixerGetCurrentBlockTag);
static const u64 cellSurMixerGetTimestamp_table[] = {
// first instruction ignored
0xffffffff7c0802a6,
0xfffffffff821ff91,
0xfffffffff8010080,
0xffffffff7c852378,
0xffffffff3d208031,
0xffffffff880b0020,
0xffffffff7c641b78,
0xffffffff78a50020,
0xffffffff2f800000,
0xffffffff61290002,
0xffff000040de0018, // bne-
0xffffffffe8010080,
0xffffffff7d2307b4,
0xffffffff38210070,
0xffffffff7c0803a6,
0xffffffff4e800020,
0xffffffff806b04d8,
0xf000000048000001, // bl
0
};
libmixer.AddFuncSub("surmx___", cellSurMixerGetTimestamp_table, "cellSurMixerGetTimestamp", cellSurMixerGetTimestamp);
static const u64 cellSurMixerBeep_table[] = {
// first instruction ignored
0xffffffff7c641b78,
0xffffffff80690018,
0xffffffff2f830000,
0xffff00004d9e0020, // beqlr
0xffffffff8009001c,
0xffffffff78630020,
0xffffffff78840020,
0xffffffff2f800000,
0xffffffff4d9c0020,
0xf000000048000000, // b
0
};
libmixer.AddFuncSub("surmx___", cellSurMixerBeep_table, "cellSurMixerBeep", cellSurMixerBeep);
// TODO: SSPlayer functions
/*static const u64 cell_table[] = {
0
};
libmixer.AddFuncSub("surmxSSP", cell_table, "cell", nullptr);*/
}

View File

@ -1,11 +1,19 @@
#pragma once
enum
{
//libmixer Error Codes
CELL_LIBMIXER_ERROR_NOT_INITIALIZED = 0x80310002,
CELL_LIBMIXER_ERROR_INVALID_PARAMATER = 0x80310003,
CELL_LIBMIXER_ERROR_NO_MEMORY = 0x80310005,
CELL_LIBMIXER_ERROR_ALREADY_EXIST = 0x80310006,
CELL_LIBMIXER_ERROR_FULL = 0x80310007,
CELL_LIBMIXER_ERROR_NOT_EXIST = 0x80310008,
CELL_LIBMIXER_ERROR_TYPE_MISMATCH = 0x80310009,
CELL_LIBMIXER_ERROR_NOT_FOUND = 0x8031000a,
};
//Callback Functions
typedef int (*CellSurMixerNotifyCallbackFunction)(void *arg, u32 counter, u32 samples); //Currently unused.
//libmixer datatypes
typedef void * CellAANHandle;
typedef int (*CellSurMixerNotifyCallbackFunction)(void *arg, u32 counter, u32 samples);
struct CellSSPlayerConfig
{

View File

@ -5,7 +5,7 @@
extern ArrayF<SFunc> g_static_funcs_list;
void StaticAnalyse(void* ptr, u32 size)
void StaticAnalyse(void* ptr, u32 size, u32 base)
{
u32* data = (u32*)ptr; size /= 4;
@ -17,35 +17,167 @@ void StaticAnalyse(void* ptr, u32 size)
{
for (u32 j = 0; j < g_static_funcs_list.GetCount(); j++)
{
if ((data[i] & g_static_funcs_list[j].ops[0].mask) == g_static_funcs_list[j].ops[0].crc && (i + g_static_funcs_list[j].ops.GetCount()) < size)
if ((data[i] & g_static_funcs_list[j].ops[0].mask) == g_static_funcs_list[j].ops[0].crc)
{
bool found = true;
for (u32 k = i + 1, x = 1; x < g_static_funcs_list[j].ops.GetCount(); k++, x++)
u32 can_skip = 0;
for (u32 k = i, x = 0; x + 1 <= g_static_funcs_list[j].ops.GetCount(); k++, x++)
{
// skip NOP
if (data[k] == se32(0x60000000))
{
k++;
continue;
}
if ((data[k] & g_static_funcs_list[j].ops[x].mask) != g_static_funcs_list[j].ops[x].crc)
if (k >= size)
{
found = false;
break;
}
// skip NOP
if (data[k] == se32(0x60000000))
{
x--;
continue;
}
const u32 mask = g_static_funcs_list[j].ops[x].mask;
const u32 crc = g_static_funcs_list[j].ops[x].crc;
if (!mask)
{
// TODO: define syntax
if (crc < 4) // skip various number of instructions that don't match next pattern entry
{
can_skip += crc;
k--; // process this position again
}
else if (data[k] != crc) // skippable pattern ("optional" instruction), no mask allowed
{
k--;
if (can_skip) // cannot define this behaviour properly
{
ConLog.Warning("StaticAnalyse(): can_skip = %d (unchanged)", can_skip);
}
}
else
{
if (can_skip) // cannot define this behaviour properly
{
ConLog.Warning("StaticAnalyse(): can_skip = %d (set to 0)", can_skip);
can_skip = 0;
}
}
}
else if ((data[k] & mask) != crc) // masked pattern
{
if (can_skip)
{
can_skip--;
}
else
{
found = false;
break;
}
}
else
{
can_skip = 0;
}
}
if (found)
{
ConLog.Success("Function '%s' hooked", wxString(g_static_funcs_list[j].name).wx_str());
data[i] = re(0x39600000 | j); // li r11, j
ConLog.Write("Function '%s' hooked (addr=0x%x)", wxString(g_static_funcs_list[j].name).wx_str(), i * 4 + base);
g_static_funcs_list[j].found++;
data[i+0] = re32(0x39600000 | j); // li r11, j
data[i+1] = se32(0x44000003); // sc 3
data[i+2] = se32(0x4e800020); // blr
i += 2; // ???
i += 2; // skip modified code
}
}
}
}
// check function groups
for (u32 i = 0; i < g_static_funcs_list.GetCount(); i++)
{
if (g_static_funcs_list[i].found) // start from some group
{
const u64 group = g_static_funcs_list[i].group;
enum GroupSearchResult : u32
{
GSR_SUCCESS = 0, // every function from this group has been found once
GSR_MISSING = 1, // (error) some function not found
GSR_EXCESS = 2, // (error) some function found twice or more
};
u32 res = GSR_SUCCESS;
// analyse
for (u32 j = i; j < g_static_funcs_list.GetCount(); j++) if (g_static_funcs_list[j].group == group)
{
u32 count = g_static_funcs_list[j].found;
if (count == 0) // not found
{
// check if this function has been found with different pattern
for (u32 k = i; k < g_static_funcs_list.GetCount(); k++) if (g_static_funcs_list[k].group == group)
{
if (k != j && g_static_funcs_list[k].ptr == g_static_funcs_list[j].ptr)
{
count += g_static_funcs_list[k].found;
}
}
if (count == 0)
{
res |= GSR_MISSING;
ConLog.Error("Function '%s' not found", wxString(g_static_funcs_list[j].name).wx_str());
}
else if (count > 1)
{
res |= GSR_EXCESS;
}
}
else if (count == 1) // found
{
// ensure that this function has NOT been found with different pattern
for (u32 k = i; k < g_static_funcs_list.GetCount(); k++) if (g_static_funcs_list[k].group == group)
{
if (k != j && g_static_funcs_list[k].ptr == g_static_funcs_list[j].ptr)
{
if (g_static_funcs_list[k].found)
{
res |= GSR_EXCESS;
ConLog.Error("Function '%s' hooked twice", wxString(g_static_funcs_list[j].name).wx_str());
}
}
}
}
else
{
res |= GSR_EXCESS;
ConLog.Error("Function '%s' hooked twice", wxString(g_static_funcs_list[j].name).wx_str());
}
}
// clear data
for (u32 j = i; j < g_static_funcs_list.GetCount(); j++)
{
if (g_static_funcs_list[j].group == group) g_static_funcs_list[j].found = 0;
}
char name[9] = "????????";
*(u64*)name = group;
if (res == GSR_SUCCESS)
{
ConLog.Success("Function group [%s] successfully hooked", wxString(name, 9).wx_str());
}
else
{
ConLog.Error("Function group [%s] failed:%s%s", wxString(name, 9).wx_str(),
wxString(res & GSR_MISSING ? " missing;" : "").wx_str(),
wxString(res & GSR_EXCESS ? " excess;" : "").wx_str());
}
}
}
}
void StaticExecute(u32 code)

View File

@ -464,6 +464,6 @@ public:
//extern SysCalls SysCallsManager;
void StaticAnalyse(void* ptr, u32 size);
void StaticAnalyse(void* ptr, u32 size, u32 base);
void StaticExecute(u32 code);
void StaticFinalize();

View File

@ -28,7 +28,7 @@ int sys_lwmutex_create(mem_ptr_t<sys_lwmutex_t> lwmutex, mem_ptr_t<sys_lwmutex_a
}
lwmutex->attribute = attr->attr_protocol | attr->attr_recursive;
lwmutex->all_info() = ~0;
lwmutex->waiter = 0;
lwmutex->mutex.initialize();
//lwmutex->waiter = lwmutex->owner.GetOwner();
lwmutex->pad = 0;
@ -211,7 +211,7 @@ int sys_lwmutex_t::trylock(be_t<u32> tid)
if (mutex.unlock(owner_tid, owner_tid) != SMR_OK) // check free value
{
owner_tid = mutex.GetOwner();
if (CPUThread* tt = Emu.GetCPU().GetThread(owner_tid))
/*if (CPUThread* tt = Emu.GetCPU().GetThread(owner_tid))
{
if (!tt->IsAlive())
{
@ -227,7 +227,7 @@ int sys_lwmutex_t::trylock(be_t<u32> tid)
mutex.unlock(owner_tid, tid);
recursive_count = 1;
return CELL_OK;
}
}*/
}
/*while ((attribute.ToBE() & se32(SYS_SYNC_ATTR_RECURSIVE_MASK)) == 0)
@ -272,7 +272,7 @@ int sys_lwmutex_t::unlock(be_t<u32> tid)
{
if (!recursive_count || (recursive_count.ToBE() != se32(1) && (attribute.ToBE() & se32(SYS_SYNC_NOT_RECURSIVE))))
{
sc_lwmutex.Error("sys_lwmutex_t::unlock(%d): wrong recursive value (%d)", (u32)sleep_queue, (u32)recursive_count);
sc_lwmutex.Error("sys_lwmutex_t::unlock(%d): wrong recursive value fixed (%d)", (u32)sleep_queue, (u32)recursive_count);
recursive_count = 1;
}
recursive_count -= 1;

View File

@ -358,7 +358,7 @@ void Emulator::Resume()
m_status = Running;
CheckStatus();
if(IsRunning() && Ini.CPUDecoderMode.GetValue() != 1) GetCPU().Exec();
//if(IsRunning() && Ini.CPUDecoderMode.GetValue() != 1) GetCPU().Exec();
#ifndef QT_UI
wxGetApp().SendDbgCommand(DID_RESUMED_EMU);
#endif

View File

@ -12,7 +12,7 @@ LogFrame* ConLogFrame;
std::mutex g_cs_conlog;
static const uint max_item_count = 500;
static const uint buffer_size = 1024 * 64;
static const uint buffer_size = 1024 * 64 * sizeof(wxChar);
static const wxString g_log_colors[] =
{
@ -32,10 +32,6 @@ struct LogPacket
{
}
LogPacket()
{
}
};
struct _LogBuffer : public MTPacketBuffer<LogPacket>
@ -78,29 +74,27 @@ struct _LogBuffer : public MTPacketBuffer<LogPacket>
LogPacket _pop()
{
LogPacket ret;
u32 c_get = m_get;
const u32& sprefix = *(u32*)&m_buffer[c_get];
c_get += sizeof(u32);
ret.m_prefix = wxString((wxChar*)&m_buffer[c_get], sprefix / sizeof(wxChar));
const wxString& prefix = wxString((wxChar*)&m_buffer[c_get], sprefix / sizeof(wxChar));
c_get += sprefix;
const u32& stext = *(u32*)&m_buffer[c_get];
c_get += sizeof(u32);
ret.m_text = wxString((wxChar*)&m_buffer[c_get], stext / sizeof(wxChar));
const wxString& text = wxString((wxChar*)&m_buffer[c_get], stext / sizeof(wxChar));
c_get += stext;
const u32& scolour = *(u32*)&m_buffer[c_get];
c_get += sizeof(u32);
ret.m_colour = wxString((wxChar*)&m_buffer[c_get], scolour / sizeof(wxChar));
const wxString& colour = wxString((wxChar*)&m_buffer[c_get], scolour / sizeof(wxChar));
c_get += scolour;
m_get = c_get;
if(!HasNewPacket()) Flush();
return ret;
return LogPacket(prefix, text, colour);
}
} LogBuffer;
@ -114,18 +108,19 @@ LogWriter::LogWriter()
}
}
void LogWriter::WriteToLog(wxString prefix, wxString value, u8 lvl/*, wxColour bgcolour*/)
void LogWriter::WriteToLog(const wxString& prefix, const wxString& value, u8 lvl/*, wxColour bgcolour*/)
{
wxString new_prefix = prefix;
if(!prefix.empty())
{
if(NamedThreadBase* thr = GetCurrentNamedThread())
{
prefix += " : " + thr->GetThreadName();
new_prefix += " : " + thr->GetThreadName();
}
}
if(m_logfile.IsOpened() && !prefix.empty())
m_logfile.Write(wxString("[") + prefix + "]: " + value + "\n");
if(m_logfile.IsOpened() && !new_prefix.empty())
m_logfile.Write(wxString("[") + new_prefix + "]: " + value + "\n");
if(!ConLogFrame || Ini.HLELogLvl.GetValue() == 4 || (lvl != 0 && lvl <= Ini.HLELogLvl.GetValue()))
return;
@ -159,10 +154,10 @@ void LogWriter::WriteToLog(wxString prefix, wxString value, u8 lvl/*, wxColour b
//if(LogBuffer.put == LogBuffer.get) LogBuffer.Flush();
LogBuffer.Push(LogPacket(prefix, value, g_log_colors[lvl]));
LogBuffer.Push(LogPacket(new_prefix, value, g_log_colors[lvl]));
}
void LogWriter::Write(const wxString fmt, ...)
void LogWriter::Write(const wxString& fmt, ...)
{
va_list list;
va_start(list, fmt);
@ -175,7 +170,7 @@ void LogWriter::Write(const wxString fmt, ...)
WriteToLog("!", frmt, 2);
}
void LogWriter::Error(const wxString fmt, ...)
void LogWriter::Error(const wxString& fmt, ...)
{
va_list list;
va_start(list, fmt);
@ -188,7 +183,7 @@ void LogWriter::Error(const wxString fmt, ...)
WriteToLog("E", frmt, 4);
}
void LogWriter::Warning(const wxString fmt, ...)
void LogWriter::Warning(const wxString& fmt, ...)
{
va_list list;
va_start(list, fmt);
@ -201,7 +196,7 @@ void LogWriter::Warning(const wxString fmt, ...)
WriteToLog("W", frmt, 3);
}
void LogWriter::Success(const wxString fmt, ...)
void LogWriter::Success(const wxString& fmt, ...)
{
va_list list;
va_start(list, fmt);

View File

@ -11,15 +11,15 @@ class LogWriter
//wxString m_prefix;
//wxString m_value;
virtual void WriteToLog(wxString prefix, wxString value, u8 lvl);
virtual void WriteToLog(const wxString& prefix, const wxString& value, u8 lvl);
public:
LogWriter();
virtual void Write(const wxString fmt, ...);
virtual void Error(const wxString fmt, ...);
virtual void Warning(const wxString fmt, ...);
virtual void Success(const wxString fmt, ...);
virtual void Write(const wxString& fmt, ...);
virtual void Error(const wxString& fmt, ...);
virtual void Warning(const wxString& fmt, ...);
virtual void Success(const wxString& fmt, ...);
virtual void SkipLn();
};

View File

@ -175,15 +175,16 @@ bool ELF32Loader::LoadShdrInfo()
for(u32 i=0; i<shdr_arr.GetCount(); ++i)
{
elf32_f.Seek(shdr_arr[ehdr.e_shstrndx].sh_offset + shdr_arr[i].sh_name);
wxString name = wxEmptyString;
Array<char> name;
while(!elf32_f.Eof())
{
char c;
elf32_f.Read(&c, 1);
if(c == 0) break;
name += c;
name.AddCpy(c);
}
shdr_name_arr.Add(name);
name.AddCpy('\0');
shdr_name_arr.Add(wxString(name.GetPtr(), wxConvUTF8));
}
return true;

View File

@ -176,16 +176,16 @@ bool ELF64Loader::LoadShdrInfo(s64 offset)
for(u32 i=0; i<shdr_arr.GetCount(); ++i)
{
elf64_f.Seek((offset < 0 ? shdr_arr[ehdr.e_shstrndx].sh_offset : shdr_arr[ehdr.e_shstrndx].sh_offset - ehdr.e_shoff + offset) + shdr_arr[i].sh_name);
wxString name = wxEmptyString;
Array<char> name;
while(!elf64_f.Eof())
{
char c;
elf64_f.Read(&c, 1);
if(c == 0) break;
name += c;
name.AddCpy(c);
}
shdr_name_arr.Add(name);
name.AddCpy('\0');
shdr_name_arr.Add(wxString(name.GetPtr(), wxConvUTF8));
}
return true;
@ -246,7 +246,7 @@ bool ELF64Loader::LoadPhdrData(u64 offset)
{
elf64_f.Seek(phdr_arr[i].p_offset);
elf64_f.Read(&Memory[offset + phdr_arr[i].p_vaddr], phdr_arr[i].p_filesz);
StaticAnalyse(&Memory[offset + phdr_arr[i].p_vaddr], phdr_arr[i].p_filesz);
StaticAnalyse(&Memory[offset + phdr_arr[i].p_vaddr], phdr_arr[i].p_filesz, phdr_arr[i].p_vaddr);
}
}
break;