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dolphin/Source/Core/DiscIO/Src/NANDContentLoader.cpp
comex 04c41c1d38 Fix loading DLC using IOCTL_ES_OPENTITLECONTENT & /dev/es state save. 
(Intertwined enough that's it's easier to do in one patch.)

(1) /dev/es did not support state save, which could cause crashes and
    incorrect behavior after loading.

(2) NANDContentLoader tried to read all of a title's contents into
    memory when it was first opened.  Two issues:

- If any contents were missing, it bailed out.  However, with DLC,
  only some of the contents may be downloaded, as determined by the
  permission bits in the ticket.  Instead, return an appropriate error
  when a content is accessed that doesn't exist on the filesystem
  (don't bother checking the permission bits though).

- Everything was loaded into memory - even if it consisted of 3 GB of
  songs, which caused Dolphin to lag out for quite a while (and would
  fail on 32-bit).  Instead, open content on demand.
2013-08-31 01:38:52 -04:00

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#include "NANDContentLoader.h"
#include <algorithm>
#include <cctype>
#include "Crypto/aes.h"
#include "MathUtil.h"
#include "FileUtil.h"
#include "Log.h"
#include "WiiWad.h"
#include "StringUtil.h"
namespace DiscIO
{
CSharedContent CSharedContent::m_Instance;
cUIDsys cUIDsys::m_Instance;
CSharedContent::CSharedContent()
{
UpdateLocation();
}
void CSharedContent::UpdateLocation()
{
m_Elements.clear();
lastID = 0;
sprintf(contentMap, "%sshared1/content.map", File::GetUserPath(D_WIIUSER_IDX).c_str());
File::IOFile pFile(contentMap, "rb");
SElement Element;
while (pFile.ReadArray(&Element, 1))
{
m_Elements.push_back(Element);
lastID++;
}
}
CSharedContent::~CSharedContent()
{}
std::string CSharedContent::GetFilenameFromSHA1(const u8* _pHash)
{
for (size_t i=0; i<m_Elements.size(); i++)
{
if (memcmp(_pHash, m_Elements[i].SHA1Hash, 20) == 0)
{
char szFilename[1024];
sprintf(szFilename, "%sshared1/%c%c%c%c%c%c%c%c.app", File::GetUserPath(D_WIIUSER_IDX).c_str(),
m_Elements[i].FileName[0], m_Elements[i].FileName[1], m_Elements[i].FileName[2], m_Elements[i].FileName[3],
m_Elements[i].FileName[4], m_Elements[i].FileName[5], m_Elements[i].FileName[6], m_Elements[i].FileName[7]);
return szFilename;
}
}
return "unk";
}
std::string CSharedContent::AddSharedContent(const u8* _pHash)
{
std::string szFilename = GetFilenameFromSHA1(_pHash);
if (strcasecmp(szFilename.c_str(), "unk") == 0)
{
char tempFilename[1024], c_ID[9];
SElement Element;
sprintf(c_ID, "%08x", lastID);
memcpy(Element.FileName, c_ID, 8);
memcpy(Element.SHA1Hash, _pHash, 20);
m_Elements.push_back(Element);
File::CreateFullPath(contentMap);
File::IOFile pFile(contentMap, "ab");
pFile.WriteArray(&Element, 1);
sprintf(tempFilename, "%sshared1/%s.app", File::GetUserPath(D_WIIUSER_IDX).c_str(), c_ID);
szFilename = tempFilename;
lastID++;
}
return szFilename;
}
// this classes must be created by the CNANDContentManager
class CNANDContentLoader : public INANDContentLoader
{
public:
CNANDContentLoader(const std::string& _rName);
virtual ~CNANDContentLoader();
bool IsValid() const { return m_Valid; }
void RemoveTitle(void) const;
u64 GetTitleID() const { return m_TitleID; }
u16 GetIosVersion() const { return m_IosVersion; }
u32 GetBootIndex() const { return m_BootIndex; }
size_t GetContentSize() const { return m_Content.size(); }
const SNANDContent* GetContentByIndex(int _Index) const;
const u8* GetTMDView() const { return m_TMDView; }
const u8* GetTMDHeader() const { return m_TMDHeader; }
u32 GetTIKSize() const { return m_TIKSize; }
const u8* GetTIK() const { return m_TIK; }
const std::vector<SNANDContent>& GetContent() const { return m_Content; }
u16 GetTitleVersion() const {return m_TitleVersion;}
u16 GetNumEntries() const {return m_numEntries;}
DiscIO::IVolume::ECountry GetCountry() const;
u8 GetCountryChar() const {return m_Country; }
private:
bool m_Valid;
bool m_isWAD;
std::string m_Path;
u64 m_TitleID;
u16 m_IosVersion;
u32 m_BootIndex;
u16 m_numEntries;
u16 m_TitleVersion;
u8 m_TMDView[TMD_VIEW_SIZE];
u8 m_TMDHeader[TMD_HEADER_SIZE];
u32 m_TIKSize;
u8 *m_TIK;
u8 m_Country;
std::vector<SNANDContent> m_Content;
bool Initialize(const std::string& _rName);
void AESDecode(u8* _pKey, u8* _IV, u8* _pSrc, u32 _Size, u8* _pDest);
void GetKeyFromTicket(u8* pTicket, u8* pTicketKey);
};
CNANDContentLoader::CNANDContentLoader(const std::string& _rName)
: m_Valid(false)
, m_isWAD(false)
, m_TitleID(-1)
, m_IosVersion(0x09)
, m_BootIndex(-1)
, m_TIKSize(0)
, m_TIK(NULL)
{
m_Valid = Initialize(_rName);
}
CNANDContentLoader::~CNANDContentLoader()
{
for (size_t i=0; i<m_Content.size(); i++)
{
delete [] m_Content[i].m_pData;
}
m_Content.clear();
if (m_TIK)
{
delete []m_TIK;
m_TIK = NULL;
}
}
const SNANDContent* CNANDContentLoader::GetContentByIndex(int _Index) const
{
for (size_t i=0; i<m_Content.size(); i++)
{
const SNANDContent* pContent = &m_Content[i];
if (pContent->m_Index == _Index)
{
return pContent;
}
}
return NULL;
}
bool CNANDContentLoader::Initialize(const std::string& _rName)
{
if (_rName.empty())
return false;
m_Path = _rName;
WiiWAD Wad(_rName);
u8* pDataApp = NULL;
u8* pTMD = NULL;
u8 DecryptTitleKey[16];
u8 IV[16];
if (Wad.IsValid())
{
m_isWAD = true;
m_TIKSize = Wad.GetTicketSize();
m_TIK = new u8[m_TIKSize];
memcpy(m_TIK, Wad.GetTicket(), m_TIKSize);
GetKeyFromTicket(m_TIK, DecryptTitleKey);
u32 pTMDSize = Wad.GetTMDSize();
pTMD = new u8[pTMDSize];
memcpy(pTMD, Wad.GetTMD(), pTMDSize);
pDataApp = Wad.GetDataApp();
}
else
{
std::string TMDFileName(m_Path);
if ('/' == *TMDFileName.rbegin())
TMDFileName += "title.tmd";
else
m_Path = TMDFileName.substr(0, TMDFileName.find("title.tmd"));
File::IOFile pTMDFile(TMDFileName, "rb");
if (!pTMDFile)
{
DEBUG_LOG(DISCIO, "CreateFromDirectory: error opening %s",
TMDFileName.c_str());
return false;
}
u32 pTMDSize = (u32)File::GetSize(TMDFileName);
pTMD = new u8[pTMDSize];
pTMDFile.ReadBytes(pTMD, (size_t)pTMDSize);
pTMDFile.Close();
}
if (!pTMD)
return false;
memcpy(m_TMDView, pTMD + 0x180, TMD_VIEW_SIZE);
memcpy(m_TMDHeader, pTMD, TMD_HEADER_SIZE);
m_TitleVersion = Common::swap16(pTMD + 0x01dc);
m_numEntries = Common::swap16(pTMD + 0x01de);
m_BootIndex = Common::swap16(pTMD + 0x01e0);
m_TitleID = Common::swap64(pTMD + 0x018c);
m_IosVersion = Common::swap16(pTMD + 0x018a);
m_Country = *(u8*)&m_TitleID;
if (m_Country == 2) // SYSMENU
m_Country = GetSysMenuRegion(m_TitleVersion);
m_Content.resize(m_numEntries);
for (u32 i=0; i<m_numEntries; i++)
{
SNANDContent& rContent = m_Content[i];
rContent.m_ContentID = Common::swap32(pTMD + 0x01e4 + 0x24*i);
rContent.m_Index = Common::swap16(pTMD + 0x01e8 + 0x24*i);
rContent.m_Type = Common::swap16(pTMD + 0x01ea + 0x24*i);
rContent.m_Size= (u32)Common::swap64(pTMD + 0x01ec + 0x24*i);
memcpy(rContent.m_SHA1Hash, pTMD + 0x01f4 + 0x24*i, 20);
memcpy(rContent.m_Header, pTMD + 0x01e4 + 0x24*i, 36);
if (m_isWAD)
{
u32 RoundedSize = ROUND_UP(rContent.m_Size, 0x40);
rContent.m_pData = new u8[RoundedSize];
memset(IV, 0, sizeof IV);
memcpy(IV, pTMD + 0x01e8 + 0x24*i, 2);
AESDecode(DecryptTitleKey, IV, pDataApp, RoundedSize, rContent.m_pData);
pDataApp += RoundedSize;
continue;
}
rContent.m_pData = NULL;
if (rContent.m_Type & 0x8000) // shared app
{
rContent.m_Filename = CSharedContent::AccessInstance().GetFilenameFromSHA1(rContent.m_SHA1Hash);
}
else
{
rContent.m_Filename = StringFromFormat("%s/%08x.app", m_Path.c_str(), rContent.m_ContentID);
}
// Be graceful about incorrect tmds.
rContent.m_Size = (u32) File::GetSize(rContent.m_Filename);
}
delete [] pTMD;
return true;
}
void CNANDContentLoader::AESDecode(u8* _pKey, u8* _IV, u8* _pSrc, u32 _Size, u8* _pDest)
{
AES_KEY AESKey;
AES_set_decrypt_key(_pKey, 128, &AESKey);
AES_cbc_encrypt(_pSrc, _pDest, _Size, &AESKey, _IV, AES_DECRYPT);
}
void CNANDContentLoader::GetKeyFromTicket(u8* pTicket, u8* pTicketKey)
{
u8 CommonKey[16] = {0xeb,0xe4,0x2a,0x22,0x5e,0x85,0x93,0xe4,0x48,0xd9,0xc5,0x45,0x73,0x81,0xaa,0xf7};
u8 IV[16];
memset(IV, 0, sizeof IV);
memcpy(IV, pTicket + 0x01dc, 8);
AESDecode(CommonKey, IV, pTicket + 0x01bf, 16, pTicketKey);
}
DiscIO::IVolume::ECountry CNANDContentLoader::GetCountry() const
{
if (!IsValid())
return DiscIO::IVolume::COUNTRY_UNKNOWN;
return CountrySwitch(m_Country);
}
CNANDContentManager CNANDContentManager::m_Instance;
CNANDContentManager::~CNANDContentManager()
{
CNANDContentMap::iterator itr = m_Map.begin();
while (itr != m_Map.end())
{
delete itr->second;
++itr;
}
m_Map.clear();
}
const INANDContentLoader& CNANDContentManager::GetNANDLoader(const std::string& _rName, bool forceReload)
{
CNANDContentMap::iterator lb = m_Map.lower_bound(_rName);
if(lb == m_Map.end() || (m_Map.key_comp()(_rName, lb->first)))
{
m_Map.insert(lb, CNANDContentMap::value_type(_rName, new CNANDContentLoader(_rName)));
}
else
{
if (!lb->second->IsValid() || forceReload)
{
delete lb->second;
lb->second = new CNANDContentLoader(_rName);
}
}
return *m_Map[_rName];
}
const INANDContentLoader& CNANDContentManager::GetNANDLoader(u64 _titleId, bool forceReload)
{
std::string _rName = Common::GetTitleContentPath(_titleId);
return GetNANDLoader(_rName, forceReload);
}
bool CNANDContentManager::RemoveTitle(u64 _titleID)
{
if (!GetNANDLoader(_titleID).IsValid())
return false;
GetNANDLoader(_titleID).RemoveTitle();
return GetNANDLoader(_titleID, true).IsValid();
}
void CNANDContentLoader::RemoveTitle() const
{
INFO_LOG(DISCIO, "RemoveTitle %08x/%08x", (u32)(m_TitleID >> 32), (u32)m_TitleID);
if(IsValid())
{
// remove tmd?
for (u32 i = 0; i < m_numEntries; i++)
{
char szFilename[1024];
if (!(m_Content[i].m_Type & 0x8000)) // skip shared apps
{
sprintf(szFilename, "%s%08x.app", Common::GetTitleContentPath(m_TitleID).c_str(), m_Content[i].m_ContentID);
INFO_LOG(DISCIO, "Delete %s", szFilename);
File::Delete(szFilename);
}
}
}
}
cUIDsys::cUIDsys()
{
UpdateLocation();
}
void cUIDsys::UpdateLocation()
{
m_Elements.clear();
lastUID = 0x00001000;
sprintf(uidSys, "%ssys/uid.sys", File::GetUserPath(D_WIIUSER_IDX).c_str());
File::IOFile pFile(uidSys, "rb");
SElement Element;
while (pFile.ReadArray(&Element, 1))
{
*(u32*)&(Element.UID) = Common::swap32(lastUID++);
m_Elements.push_back(Element);
}
pFile.Close();
if (m_Elements.empty())
{
*(u64*)&(Element.titleID) = Common::swap64(TITLEID_SYSMENU);
*(u32*)&(Element.UID) = Common::swap32(lastUID++);
File::CreateFullPath(uidSys);
pFile.Open(uidSys, "wb");
if (!pFile.WriteArray(&Element, 1))
ERROR_LOG(DISCIO, "Failed to write to %s", uidSys);
}
}
cUIDsys::~cUIDsys()
{}
u32 cUIDsys::GetUIDFromTitle(u64 _Title)
{
for (size_t i=0; i<m_Elements.size(); i++)
{
if (Common::swap64(_Title) == *(u64*)&(m_Elements[i].titleID))
{
return Common::swap32(m_Elements[i].UID);
}
}
return 0;
}
void cUIDsys::AddTitle(u64 _TitleID)
{
if (GetUIDFromTitle(_TitleID))
{
INFO_LOG(DISCIO, "Title %08x%08x, already exists in uid.sys", (u32)(_TitleID >> 32), (u32)_TitleID);
return;
}
SElement Element;
*(u64*)&(Element.titleID) = Common::swap64(_TitleID);
*(u32*)&(Element.UID) = Common::swap32(lastUID++);
m_Elements.push_back(Element);
File::CreateFullPath(uidSys);
File::IOFile pFile(uidSys, "ab");
if (!pFile.WriteArray(&Element, 1))
ERROR_LOG(DISCIO, "fwrite failed");
}
void cUIDsys::GetTitleIDs(std::vector<u64>& _TitleIDs, bool _owned)
{
for (size_t i = 0; i < m_Elements.size(); i++)
{
if ((_owned && Common::CheckTitleTIK(Common::swap64(m_Elements[i].titleID))) ||
(!_owned && Common::CheckTitleTMD(Common::swap64(m_Elements[i].titleID))))
_TitleIDs.push_back(Common::swap64(m_Elements[i].titleID));
}
}
u64 CNANDContentManager::Install_WiiWAD(std::string &fileName)
{
if (fileName.find(".wad") == std::string::npos)
return 0;
const INANDContentLoader& ContentLoader = GetNANDLoader(fileName);
if (ContentLoader.IsValid() == false)
return 0;
u64 TitleID = ContentLoader.GetTitleID();
//copy WAD's tmd header and contents to content directory
std::string ContentPath(Common::GetTitleContentPath(TitleID));
std::string TMDFileName(Common::GetTMDFileName(TitleID));
File::CreateFullPath(TMDFileName);
File::IOFile pTMDFile(TMDFileName, "wb");
if (!pTMDFile)
{
PanicAlertT("WAD installation failed: error creating %s", TMDFileName.c_str());
return 0;
}
pTMDFile.WriteBytes(ContentLoader.GetTMDHeader(), INANDContentLoader::TMD_HEADER_SIZE);
for (u32 i = 0; i < ContentLoader.GetContentSize(); i++)
{
const SNANDContent& Content = ContentLoader.GetContent()[i];
pTMDFile.WriteBytes(Content.m_Header, INANDContentLoader::CONTENT_HEADER_SIZE);
char APPFileName[1024];
if (Content.m_Type & 0x8000) //shared
{
sprintf(APPFileName, "%s",
CSharedContent::AccessInstance().AddSharedContent(Content.m_SHA1Hash).c_str());
}
else
{
sprintf(APPFileName, "%s%08x.app", ContentPath.c_str(), Content.m_ContentID);
}
if (!File::Exists(APPFileName))
{
File::CreateFullPath(APPFileName);
File::IOFile pAPPFile(APPFileName, "wb");
if (!pAPPFile)
{
PanicAlertT("WAD installation failed: error creating %s", APPFileName);
return 0;
}
pAPPFile.WriteBytes(Content.m_pData, Content.m_Size);
}
else
{
INFO_LOG(DISCIO, "Content %s already exists.", APPFileName);
}
}
pTMDFile.Close();
//Extract and copy WAD's ticket to ticket directory
if (!Add_Ticket(TitleID, ContentLoader.GetTIK(), ContentLoader.GetTIKSize()))
{
PanicAlertT("WAD installation failed: error creating ticket");
return 0;
}
cUIDsys::AccessInstance().AddTitle(TitleID);
return TitleID;
}
bool Add_Ticket(u64 TitleID, const u8 *p_tik, u32 tikSize)
{
std::string TicketFileName = Common::GetTicketFileName(TitleID);
File::CreateFullPath(TicketFileName);
File::IOFile pTicketFile(TicketFileName, "wb");
if (!pTicketFile || !p_tik)
{
//PanicAlertT("WAD installation failed: error creating %s", TicketFileName.c_str());
return false;
}
return pTicketFile.WriteBytes(p_tik, tikSize);
}
} // namespace end
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