mirror of https://github.com/AxioDL/nod.git
935 lines
30 KiB
C++
935 lines
30 KiB
C++
#include <stdio.h>
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#include <string.h>
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#include "NOD/DiscWii.hpp"
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#include "NOD/aes.hpp"
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#include "NOD/sha1.h"
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namespace NOD
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{
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static const uint8_t COMMON_KEYS[2][16] =
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{
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/* Normal */
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{0xeb, 0xe4, 0x2a, 0x22,
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0x5e, 0x85, 0x93, 0xe4,
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0x48, 0xd9, 0xc5, 0x45,
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0x73, 0x81, 0xaa, 0xf7},
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/* Korean */
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{0x63, 0xb8, 0x2b, 0xb4,
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0xf4, 0x61, 0x4e, 0x2e,
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0x13, 0xf2, 0xfe, 0xfb,
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0xba, 0x4c, 0x9b, 0x7e}
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};
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class PartitionWii : public DiscBase::IPartition
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{
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enum class SigType : uint32_t
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{
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RSA_4096 = 0x00010000,
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RSA_2048 = 0x00010001,
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ELIPTICAL_CURVE = 0x00010002
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};
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enum class KeyType : uint32_t
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{
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RSA_4096 = 0x00000000,
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RSA_2048 = 0x00000001
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};
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struct Ticket
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{
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uint32_t sigType;
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char sig[256];
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char padding[60];
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char sigIssuer[64];
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char ecdh[60];
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char padding1[3];
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unsigned char encKey[16];
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char padding2;
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char ticketId[8];
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char consoleId[4];
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char titleId[8];
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char padding3[2];
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uint16_t ticketVersion;
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uint32_t permittedTitlesMask;
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uint32_t permitMask;
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char titleExportAllowed;
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char commonKeyIdx;
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char padding4[48];
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char contentAccessPermissions[64];
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char padding5[2];
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struct TimeLimit
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{
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uint32_t enableTimeLimit;
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uint32_t timeLimit;
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} timeLimits[8];
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void read(IDiscIO::IReadStream& s)
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{
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s.read(this, 676);
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sigType = SBig(sigType);
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ticketVersion = SBig(ticketVersion);
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permittedTitlesMask = SBig(permittedTitlesMask);
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permitMask = SBig(permitMask);
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for (size_t t=0 ; t<8 ; ++t)
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{
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timeLimits[t].enableTimeLimit = SBig(timeLimits[t].enableTimeLimit);
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timeLimits[t].timeLimit = SBig(timeLimits[t].timeLimit);
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}
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}
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} m_ticket;
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struct TMD
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{
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SigType sigType;
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char sig[256];
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char padding[60];
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char sigIssuer[64];
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char version;
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char caCrlVersion;
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char signerCrlVersion;
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char padding1;
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uint32_t iosIdMajor;
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uint32_t iosIdMinor;
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uint32_t titleIdMajor;
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char titleIdMinor[4];
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uint32_t titleType;
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uint16_t groupId;
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char padding2[62];
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uint32_t accessFlags;
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uint16_t titleVersion;
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uint16_t numContents;
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uint16_t bootIdx;
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uint16_t padding3;
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struct Content
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{
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uint32_t id;
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uint16_t index;
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uint16_t type;
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uint64_t size;
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char hash[20];
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void read(IDiscIO::IReadStream& s)
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{
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s.read(this, 36);
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id = SBig(id);
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index = SBig(index);
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type = SBig(type);
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size = SBig(size);
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}
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};
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std::vector<Content> contents;
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void read(IDiscIO::IReadStream& s)
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{
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s.read(this, 484);
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sigType = SigType(SBig(uint32_t(sigType)));
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iosIdMajor = SBig(iosIdMajor);
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iosIdMinor = SBig(iosIdMinor);
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titleIdMajor = SBig(titleIdMajor);
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titleType = SBig(titleType);
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groupId = SBig(groupId);
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accessFlags = SBig(accessFlags);
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titleVersion = SBig(titleVersion);
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numContents = SBig(numContents);
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bootIdx = SBig(bootIdx);
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contents.clear();
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contents.reserve(numContents);
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for (uint16_t c=0 ; c<numContents ; ++c)
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{
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contents.emplace_back();
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contents.back().read(s);
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}
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}
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} m_tmd;
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struct Certificate
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{
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SigType sigType;
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char sig[512];
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char issuer[64];
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KeyType keyType;
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char subject[64];
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char key[512];
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uint32_t modulus;
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uint32_t pubExp;
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void read(IDiscIO::IReadStream& s)
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{
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s.read(&sigType, 4);
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sigType = SigType(SBig(uint32_t(sigType)));
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if (sigType == SigType::RSA_4096)
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s.read(sig, 512);
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else if (sigType == SigType::RSA_2048)
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s.read(sig, 256);
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else if (sigType == SigType::ELIPTICAL_CURVE)
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s.read(sig, 64);
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s.seek(60, SEEK_CUR);
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s.read(issuer, 64);
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s.read(&keyType, 4);
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s.read(subject, 64);
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keyType = KeyType(SBig(uint32_t(keyType)));
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if (keyType == KeyType::RSA_4096)
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s.read(key, 512);
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else if (keyType == KeyType::RSA_2048)
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s.read(key, 256);
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s.read(&modulus, 8);
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modulus = SBig(modulus);
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pubExp = SBig(pubExp);
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s.seek(52, SEEK_CUR);
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}
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};
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Certificate m_caCert;
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Certificate m_tmdCert;
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Certificate m_ticketCert;
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uint64_t m_dataOff;
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uint8_t m_decKey[16];
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public:
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PartitionWii(const DiscWii& parent, Kind kind, uint64_t offset)
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: IPartition(parent, kind, offset)
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{
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std::unique_ptr<IDiscIO::IReadStream> s = parent.getDiscIO().beginReadStream(offset);
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m_ticket.read(*s);
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uint32_t tmdSize;
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s->read(&tmdSize, 4);
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tmdSize = SBig(tmdSize);
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uint32_t tmdOff;
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s->read(&tmdOff, 4);
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tmdOff = SBig(tmdOff) << 2;
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uint32_t certChainSize;
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s->read(&certChainSize, 4);
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certChainSize = SBig(certChainSize);
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uint32_t certChainOff;
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s->read(&certChainOff, 4);
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certChainOff = SBig(certChainOff) << 2;
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uint32_t globalHashTableOff;
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s->read(&globalHashTableOff, 4);
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globalHashTableOff = SBig(globalHashTableOff) << 2;
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uint32_t dataOff;
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s->read(&dataOff, 4);
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dataOff = SBig(dataOff) << 2;
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m_dataOff = offset + dataOff;
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uint32_t dataSize;
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s->read(&dataSize, 4);
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dataSize = SBig(dataSize) << 2;
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s->seek(offset + tmdOff);
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m_tmd.read(*s);
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s->seek(offset + certChainOff);
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m_caCert.read(*s);
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m_tmdCert.read(*s);
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m_ticketCert.read(*s);
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/* Decrypt title key */
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std::unique_ptr<IAES> aes = NewAES();
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uint8_t iv[16] = {};
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memcpy(iv, m_ticket.titleId, 8);
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aes->setKey(COMMON_KEYS[(int)m_ticket.commonKeyIdx]);
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aes->decrypt(iv, m_ticket.encKey, m_decKey, 16);
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/* Wii-specific header reads (now using title key to decrypt) */
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std::unique_ptr<IPartReadStream> ds = beginReadStream(0x420);
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uint32_t vals[3];
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ds->read(vals, 12);
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m_dolOff = SBig(vals[0]) << 2;
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m_fstOff = SBig(vals[1]) << 2;
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m_fstSz = SBig(vals[2]) << 2;
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ds->seek(0x2440 + 0x14);
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ds->read(vals, 8);
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m_apploaderSz = 32 + SBig(vals[0]) + SBig(vals[1]);
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/* Yay files!! */
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parseFST(*ds);
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/* Also make DOL header and size handy */
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ds->seek(m_dolOff);
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parseDOL(*ds);
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}
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class PartReadStream : public IPartReadStream
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{
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std::unique_ptr<IAES> m_aes;
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const PartitionWii& m_parent;
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uint64_t m_baseOffset;
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uint64_t m_offset;
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std::unique_ptr<IDiscIO::IReadStream> m_dio;
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size_t m_curBlock = SIZE_MAX;
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uint8_t m_encBuf[0x8000];
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uint8_t m_decBuf[0x7c00];
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void decryptBlock()
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{
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m_dio->read(m_encBuf, 0x8000);
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m_aes->decrypt(&m_encBuf[0x3d0], &m_encBuf[0x400], m_decBuf, 0x7c00);
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}
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public:
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PartReadStream(const PartitionWii& parent, uint64_t baseOffset, uint64_t offset)
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: m_aes(NewAES()), m_parent(parent), m_baseOffset(baseOffset), m_offset(offset)
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{
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m_aes->setKey(parent.m_decKey);
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size_t block = m_offset / 0x7c00;
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m_dio = m_parent.m_parent.getDiscIO().beginReadStream(m_baseOffset + block * 0x8000);
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decryptBlock();
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m_curBlock = block;
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}
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void seek(int64_t offset, int whence)
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{
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if (whence == SEEK_SET)
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m_offset = offset;
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else if (whence == SEEK_CUR)
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m_offset += offset;
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else
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return;
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size_t block = m_offset / 0x7c00;
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if (block != m_curBlock)
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{
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m_dio->seek(m_baseOffset + block * 0x8000);
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decryptBlock();
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m_curBlock = block;
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}
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}
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uint64_t position() const {return m_offset;}
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uint64_t read(void* buf, uint64_t length)
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{
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size_t block = m_offset / 0x7c00;
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size_t cacheOffset = m_offset % 0x7c00;
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uint64_t cacheSize;
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uint64_t rem = length;
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uint8_t* dst = (uint8_t*)buf;
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while (rem)
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{
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if (block != m_curBlock)
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{
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decryptBlock();
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m_curBlock = block;
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}
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cacheSize = rem;
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if (cacheSize + cacheOffset > 0x7c00)
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cacheSize = 0x7c00 - cacheOffset;
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memcpy(dst, m_decBuf + cacheOffset, cacheSize);
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dst += cacheSize;
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rem -= cacheSize;
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cacheOffset = 0;
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++block;
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}
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m_offset += length;
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return dst - (uint8_t*)buf;
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}
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};
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std::unique_ptr<IPartReadStream> beginReadStream(uint64_t offset) const
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{
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return std::unique_ptr<IPartReadStream>(new PartReadStream(*this, m_dataOff, offset));
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}
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uint64_t normalizeOffset(uint64_t anOffset) const {return anOffset << 2;}
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void writeOutPartitionHeader(const SystemChar* pathOut) const
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{
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std::unique_ptr<IFileIO::IWriteStream> ws = NewFileIO(pathOut)->beginWriteStream();
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uint64_t h3Off;
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{
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std::unique_ptr<IDiscIO::IReadStream> rs = m_parent.getDiscIO().beginReadStream(m_offset + 0x2B4);
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uint32_t h3;
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if (rs->read(&h3, 4) != 4)
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LogModule.report(LogVisor::FatalError, _S("unable to read H3 offset from %s"), pathOut);
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h3 = SBig(h3);
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h3Off = uint64_t(h3) << 2;
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}
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char buf[8192];
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size_t rem = h3Off;
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std::unique_ptr<IDiscIO::IReadStream> rs = m_parent.getDiscIO().beginReadStream(m_offset);
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while (rem)
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{
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size_t rdSz = NOD::min(rem, size_t(8192ul));
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rs->read(buf, rdSz);
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ws->write(buf, rdSz);
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rem -= rdSz;
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}
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}
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};
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DiscWii::DiscWii(std::unique_ptr<IDiscIO>&& dio)
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: DiscBase(std::move(dio))
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{
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/* Read partition info */
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struct PartInfo
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{
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uint32_t partCount;
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uint32_t partInfoOff;
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struct Part
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{
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uint32_t partDataOff;
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IPartition::Kind partType;
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} parts[4];
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PartInfo(IDiscIO& dio)
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{
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std::unique_ptr<IDiscIO::IReadStream> s = dio.beginReadStream(0x40000);
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s->read(this, 32);
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partCount = SBig(partCount);
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partInfoOff = SBig(partInfoOff);
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s->seek(partInfoOff << 2);
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for (uint32_t p=0 ; p<partCount && p<4 ; ++p)
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{
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s->read(&parts[p], 8);
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parts[p].partDataOff = SBig(parts[p].partDataOff);
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parts[p].partType = IPartition::Kind(SBig(uint32_t(parts[p].partType)));
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}
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}
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} partInfo(*m_discIO);
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/* Iterate for data partition */
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m_partitions.reserve(partInfo.partCount);
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for (uint32_t p=0 ; p<partInfo.partCount && p<4 ; ++p)
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{
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PartInfo::Part& part = partInfo.parts[p];
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IPartition::Kind kind;
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switch (part.partType)
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{
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case IPartition::Kind::Data:
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case IPartition::Kind::Update:
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case IPartition::Kind::Channel:
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kind = part.partType;
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break;
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default:
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LogModule.report(LogVisor::FatalError, "invalid partition type %d", part.partType);
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}
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m_partitions.emplace_back(new PartitionWii(*this, kind, part.partDataOff << 2));
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}
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}
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void DiscWii::writeOutDataPartitionHeader(const SystemChar* pathOut) const
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{
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for (const std::unique_ptr<IPartition>& part : m_partitions)
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{
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if (part->getKind() == IPartition::Kind::Data)
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{
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static_cast<PartitionWii&>(*part).writeOutPartitionHeader(pathOut);
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break;
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}
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}
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}
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static const uint8_t ZEROIV[16] = {0};
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class PartitionBuilderWii : public DiscBuilderBase::PartitionBuilderBase
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{
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friend class DiscBuilderWii;
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uint64_t m_baseOffset;
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uint64_t m_userOffset = 0;
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uint64_t m_curUser = 0x1F0000;
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std::unique_ptr<IAES> m_aes;
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uint8_t m_h3[4916][20] = {};
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public:
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class PartWriteStream : public IPartWriteStream
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{
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friend class PartitionBuilderWii;
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PartitionBuilderWii& m_parent;
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uint64_t m_baseOffset;
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uint64_t m_offset;
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std::unique_ptr<IFileIO::IWriteStream> m_fio;
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bool m_closed = false;
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size_t m_curGroup = SIZE_MAX;
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char m_buf[0x200000];
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void encryptGroup(uint8_t h3Out[20])
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{
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sha1nfo sha;
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uint8_t h2[8][20];
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for (int s=0 ; s<8 ; ++s)
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{
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char* ptr1 = m_buf + s*0x40000;
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uint8_t h1[8][20];
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for (int c=0 ; c<8 ; ++c)
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{
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char* ptr0 = ptr1 + c*0x8000;
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uint8_t h0[31][20];
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for (int j=0 ; j<31 ; ++j)
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{
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sha1_init(&sha);
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sha1_write(&sha, ptr0 + (j+1)*0x400, 0x400);
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memcpy(h0[j], sha1_result(&sha), 20);
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}
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sha1_init(&sha);
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sha1_write(&sha, (char*)h0, 0x26C);
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memcpy(h1[c], sha1_result(&sha), 20);
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memcpy(ptr0, h0, 0x26C);
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memset(ptr0+0x26C, 0, 0x014);
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}
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sha1_init(&sha);
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sha1_write(&sha, (char*)h1, 0x0A0);
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memcpy(h2[s], sha1_result(&sha), 20);
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for (int c=0 ; c<8 ; ++c)
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{
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char* ptr0 = ptr1 + c*0x8000;
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memcpy(ptr0+0x280, h1, 0x0A0);
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memset(ptr0+0x320, 0, 0x020);
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}
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}
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sha1_init(&sha);
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sha1_write(&sha, (char*)h2, 0x0A0);
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memcpy(h3Out, sha1_result(&sha), 20);
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for (int s=0 ; s<8 ; ++s)
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{
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char* ptr1 = m_buf + s*0x40000;
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for (int c=0 ; c<8 ; ++c)
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{
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char* ptr0 = ptr1 + c*0x8000;
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memcpy(ptr0+0x340, h2, 0x0A0);
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memset(ptr0+0x3E0, 0, 0x020);
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m_parent.m_aes->encrypt(ZEROIV, (uint8_t*)ptr0, (uint8_t*)ptr0, 0x400);
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m_parent.m_aes->encrypt((uint8_t*)(ptr0+0x3D0), (uint8_t*)(ptr0+0x400), (uint8_t*)(ptr0+0x400), 0x7c00);
|
|
}
|
|
}
|
|
|
|
if (m_fio->write(m_buf, 0x200000) != 0x200000)
|
|
LogModule.report(LogVisor::FatalError, "unable to write full disc group");
|
|
}
|
|
|
|
public:
|
|
PartWriteStream(PartitionBuilderWii& parent, uint64_t baseOffset, uint64_t offset)
|
|
: m_parent(parent), m_baseOffset(baseOffset), m_offset(offset)
|
|
{
|
|
if (offset % 0x1F0000)
|
|
LogModule.report(LogVisor::FatalError, "partition write stream MUST begin on 0x1F0000-aligned boundary");
|
|
size_t group = m_offset / 0x1F0000;
|
|
m_fio = m_parent.m_parent.getFileIO().beginWriteStream(m_baseOffset + group * 0x200000);
|
|
m_curGroup = group;
|
|
}
|
|
~PartWriteStream() {close();}
|
|
void close()
|
|
{
|
|
if (m_closed)
|
|
return;
|
|
m_closed = true;
|
|
size_t rem = m_offset % 0x1F0000;
|
|
if (rem)
|
|
{
|
|
rem = 0x1F0000 - rem;
|
|
write(nullptr, rem);
|
|
}
|
|
encryptGroup(m_parent.m_h3[m_curGroup]);
|
|
m_fio.reset();
|
|
}
|
|
uint64_t position() const {return m_offset;}
|
|
uint64_t write(const void* buf, uint64_t length)
|
|
{
|
|
size_t group = m_offset / 0x1F0000;
|
|
size_t block = (m_offset - group * 0x1F0000) / 0x7c00;
|
|
size_t cacheOffset = m_offset % 0x7c00;
|
|
uint64_t cacheSize;
|
|
uint64_t rem = length;
|
|
const uint8_t* src = (uint8_t*)buf;
|
|
|
|
while (rem)
|
|
{
|
|
if (group != m_curGroup)
|
|
{
|
|
encryptGroup(m_parent.m_h3[m_curGroup]);
|
|
m_curGroup = group;
|
|
}
|
|
|
|
cacheSize = rem;
|
|
if (cacheSize + cacheOffset > 0x7c00)
|
|
cacheSize = 0x7c00 - cacheOffset;
|
|
|
|
if (src)
|
|
{
|
|
memcpy(m_buf + block * 0x8000 + 0x400 + cacheOffset, src, cacheSize);
|
|
src += cacheSize;
|
|
}
|
|
else
|
|
memset(m_buf + block * 0x8000 + 0x400 + cacheOffset, 0, cacheSize);
|
|
|
|
rem -= cacheSize;
|
|
cacheOffset = 0;
|
|
++block;
|
|
if (block == 64)
|
|
{
|
|
block = 0;
|
|
++group;
|
|
}
|
|
}
|
|
|
|
m_offset += length;
|
|
return length;
|
|
}
|
|
};
|
|
|
|
PartitionBuilderWii(DiscBuilderBase& parent, Kind kind,
|
|
const char gameID[6], const char* gameTitle, uint64_t baseOffset)
|
|
: DiscBuilderBase::PartitionBuilderBase(parent, kind, gameID, gameTitle),
|
|
m_baseOffset(baseOffset), m_aes(NewAES()) {}
|
|
|
|
uint64_t getCurUserEnd() const {return m_curUser;}
|
|
|
|
uint64_t userAllocate(uint64_t reqSz, IPartWriteStream& ws)
|
|
{
|
|
reqSz = ROUND_UP_32(reqSz);
|
|
if (m_curUser + reqSz >= 0x1FB450000)
|
|
{
|
|
LogModule.report(LogVisor::FatalError, "partition exceeds maximum single-partition capacity");
|
|
return -1;
|
|
}
|
|
uint64_t ret = m_curUser;
|
|
PartWriteStream& cws = static_cast<PartWriteStream&>(ws);
|
|
if (cws.m_offset > ret)
|
|
{
|
|
LogModule.report(LogVisor::FatalError, "partition overwrite error");
|
|
return -1;
|
|
}
|
|
while (cws.m_offset < ret)
|
|
cws.write("\xff", 1);
|
|
m_curUser += reqSz;
|
|
return ret;
|
|
}
|
|
|
|
uint32_t packOffset(uint64_t offset) const
|
|
{
|
|
return uint32_t(offset >> uint64_t(2));
|
|
}
|
|
|
|
std::unique_ptr<IPartWriteStream> beginWriteStream(uint64_t offset)
|
|
{
|
|
return std::make_unique<PartWriteStream>(*this, m_baseOffset + m_userOffset, offset);
|
|
}
|
|
|
|
uint64_t buildFromDirectory(const SystemChar* dirIn,
|
|
const SystemChar* dolIn,
|
|
const SystemChar* apploaderIn,
|
|
const SystemChar* partHeadIn)
|
|
{
|
|
/* Read head and validate key members */
|
|
std::unique_ptr<IFileIO> ph = NewFileIO(partHeadIn);
|
|
|
|
uint8_t tkey[16];
|
|
{
|
|
if (ph->beginReadStream(0x1BF)->read(tkey, 16) != 16)
|
|
LogModule.report(LogVisor::FatalError, _S("unable to read title key from %s"), partHeadIn);
|
|
}
|
|
|
|
uint8_t tkeyiv[16] = {};
|
|
{
|
|
if (ph->beginReadStream(0x1DC)->read(tkeyiv, 8) != 8)
|
|
LogModule.report(LogVisor::FatalError, _S("unable to read title key IV from %s"), partHeadIn);
|
|
}
|
|
|
|
uint8_t ccIdx;
|
|
{
|
|
if (ph->beginReadStream(0x1F1)->read(&ccIdx, 1) != 1)
|
|
LogModule.report(LogVisor::FatalError, _S("unable to read common key index from %s"), partHeadIn);
|
|
if (ccIdx > 1)
|
|
LogModule.report(LogVisor::FatalError, _S("common key index may only be 0 or 1"));
|
|
}
|
|
|
|
uint32_t tmdSz;
|
|
{
|
|
if (ph->beginReadStream(0x2A4)->read(&tmdSz, 4) != 4)
|
|
LogModule.report(LogVisor::FatalError, _S("unable to read TMD size from %s"), partHeadIn);
|
|
tmdSz = SBig(tmdSz);
|
|
}
|
|
|
|
uint64_t h3Off;
|
|
{
|
|
uint32_t h3Ptr;
|
|
if (ph->beginReadStream(0x2B4)->read(&h3Ptr, 4) != 4)
|
|
LogModule.report(LogVisor::FatalError, _S("unable to read H3 pointer from %s"), partHeadIn);
|
|
h3Off = uint64_t(SBig(h3Ptr)) << 2;
|
|
}
|
|
|
|
uint64_t dataOff;
|
|
{
|
|
uint32_t dataPtr;
|
|
if (ph->beginReadStream(0x2B8)->read(&dataPtr, 4) != 4)
|
|
LogModule.report(LogVisor::FatalError, _S("unable to read data pointer from %s"), partHeadIn);
|
|
dataOff = uint64_t(SBig(dataPtr)) << 2;
|
|
}
|
|
m_userOffset = dataOff;
|
|
|
|
std::unique_ptr<uint8_t[]> tmdData(new uint8_t[tmdSz]);
|
|
if (ph->beginReadStream(0x2C0)->read(tmdData.get(), tmdSz) != tmdSz)
|
|
LogModule.report(LogVisor::FatalError, _S("unable to read TMD from %s"), partHeadIn);
|
|
|
|
/* Copy partition head up to H3 table */
|
|
std::unique_ptr<IFileIO::IWriteStream> ws = m_parent.getFileIO().beginWriteStream(m_baseOffset);
|
|
{
|
|
uint64_t remCopy = h3Off;
|
|
|
|
uint8_t copyBuf[8192];
|
|
std::unique_ptr<IFileIO::IReadStream> rs = ph->beginReadStream();
|
|
while (remCopy)
|
|
{
|
|
size_t rdBytes = rs->read(copyBuf, std::min(size_t(8192), size_t(remCopy)));
|
|
if (rdBytes)
|
|
{
|
|
ws->write(copyBuf, rdBytes);
|
|
remCopy -= rdBytes;
|
|
continue;
|
|
}
|
|
for (size_t i=0 ; i<remCopy ; ++i)
|
|
ws->write("", 1);
|
|
break;
|
|
}
|
|
}
|
|
|
|
/* Prepare crypto pass */
|
|
m_aes->setKey(COMMON_KEYS[ccIdx]);
|
|
m_aes->decrypt(tkeyiv, tkey, tkey, 16);
|
|
m_aes->setKey(tkey);
|
|
|
|
{
|
|
/* Assemble partition data */
|
|
std::unique_ptr<IPartWriteStream> cws = beginWriteStream(0x1F0000);
|
|
bool result = DiscBuilderBase::PartitionBuilderBase::buildFromDirectory(*cws, dirIn, dolIn, apploaderIn);
|
|
if (!result)
|
|
return 0;
|
|
|
|
/* Pad out user area to nearest cleartext sector */
|
|
m_curUser = cws->position();
|
|
uint64_t curUserRem = m_curUser % 0x1F0000;
|
|
if (curUserRem)
|
|
{
|
|
curUserRem = 0x1F0000 - curUserRem;
|
|
for (size_t i=0 ; i<curUserRem ; ++i)
|
|
cws->write("\xff", 1);
|
|
m_curUser += curUserRem;
|
|
}
|
|
|
|
/* Begin crypto write and add content header */
|
|
cws = beginWriteStream(0);
|
|
Header header(m_gameID, m_gameTitle.c_str(), true, 0, 0, 0);
|
|
header.write(*cws);
|
|
|
|
/* Get Apploader Size */
|
|
Sstat theStat;
|
|
if (Stat(apploaderIn, &theStat))
|
|
LogModule.report(LogVisor::FatalError, _S("unable to stat %s"), apploaderIn);
|
|
|
|
/* Compute boot table members and write */
|
|
size_t fstOff = 0x2440 + ROUND_UP_32(theStat.st_size);
|
|
size_t fstSz = sizeof(FSTNode) * m_buildNodes.size();
|
|
fstSz += m_buildNameOff;
|
|
fstSz = ROUND_UP_32(fstSz);
|
|
|
|
if (fstOff + fstSz >= 0x1F0000)
|
|
LogModule.report(LogVisor::FatalError,
|
|
"FST flows into user area (one or the other is too big)");
|
|
|
|
cws->write(nullptr, 0x420 - sizeof(Header));
|
|
uint32_t vals[4];
|
|
vals[0] = SBig(uint32_t(m_dolOffset >> uint64_t(2)));
|
|
vals[1] = SBig(uint32_t(fstOff >> uint64_t(2)));
|
|
vals[2] = SBig(uint32_t(fstSz));
|
|
vals[3] = SBig(uint32_t(fstSz));
|
|
cws->write(vals, 16);
|
|
|
|
/* Write Apploader */
|
|
cws->write(nullptr, 0x2440 - 0x430);
|
|
std::unique_ptr<IFileIO::IReadStream> rs = NewFileIO(apploaderIn)->beginReadStream();
|
|
char buf[8192];
|
|
size_t xferSz = 0;
|
|
SystemString apploaderName(apploaderIn);
|
|
++m_parent.m_progressIdx;
|
|
while (true)
|
|
{
|
|
size_t rdSz = rs->read(buf, 8192);
|
|
if (!rdSz)
|
|
break;
|
|
cws->write(buf, rdSz);
|
|
xferSz += rdSz;
|
|
if (0x2440 + xferSz >= 0x1F0000)
|
|
LogModule.report(LogVisor::FatalError,
|
|
"apploader flows into user area (one or the other is too big)");
|
|
m_parent.m_progressCB(m_parent.m_progressIdx, apploaderName, xferSz);
|
|
}
|
|
|
|
size_t fstOffRel = fstOff - 0x2440;
|
|
if (xferSz > fstOffRel)
|
|
LogModule.report(LogVisor::FatalError, "apploader unexpectedly flows into FST");
|
|
for (size_t i=0 ; i<fstOffRel-xferSz ; ++i)
|
|
cws->write("\xff", 1);
|
|
|
|
/* Write FST */
|
|
cws->write(m_buildNodes.data(), m_buildNodes.size() * sizeof(FSTNode));
|
|
for (const std::string& str : m_buildNames)
|
|
cws->write(str.data(), str.size()+1);
|
|
}
|
|
|
|
/* Write new crypto content size */
|
|
uint64_t groupCount = m_curUser / 0x1F0000;
|
|
uint64_t cryptContentSize = (groupCount * 0x200000) >> uint64_t(2);
|
|
uint32_t cryptContentSizeBig = SBig(uint32_t(cryptContentSize));
|
|
ws = m_parent.getFileIO().beginWriteStream(m_baseOffset + 0x2BC);
|
|
ws->write(&cryptContentSizeBig, 0x4);
|
|
|
|
/* Write new H3 */
|
|
ws = m_parent.getFileIO().beginWriteStream(m_baseOffset + h3Off);
|
|
ws->write(m_h3, 0x18000);
|
|
|
|
/* Compute content hash and replace in TMD */
|
|
sha1nfo sha;
|
|
sha1_init(&sha);
|
|
sha1_write(&sha, (char*)m_h3, 0x18000);
|
|
memcpy(tmdData.get() + 0x1F4, sha1_result(&sha), 20);
|
|
|
|
/* Same for content size */
|
|
uint64_t contentSize = groupCount * 0x1F0000;
|
|
uint64_t contentSizeBig = SBig(contentSize);
|
|
memcpy(tmdData.get() + 0x1EC, &contentSizeBig, 8);
|
|
|
|
/* Zero-out TMD signature to simplify brute-force */
|
|
memset(tmdData.get() + 0x4, 0, 0x100);
|
|
|
|
/* Brute-force zero-starting hash */
|
|
size_t tmdCheckSz = tmdSz - 0x140;
|
|
struct BFWindow
|
|
{
|
|
uint64_t word[7];
|
|
}* bfWindow = (BFWindow*)(tmdData.get() + 0x19A);
|
|
bool good = false;
|
|
uint64_t attempts = 0;
|
|
SystemString bfName(_S("Brute force attempts"));
|
|
++m_parent.m_progressIdx;
|
|
for (int w=0 ; w<7 ; ++w)
|
|
{
|
|
for (uint64_t i=0 ; i<UINT64_MAX ; ++i)
|
|
{
|
|
bfWindow->word[w] = i;
|
|
sha1_init(&sha);
|
|
sha1_write(&sha, (char*)(tmdData.get() + 0x140), tmdCheckSz);
|
|
uint8_t* hash = sha1_result(&sha);
|
|
++attempts;
|
|
if (hash[0] == 0)
|
|
{
|
|
good = true;
|
|
break;
|
|
}
|
|
m_parent.m_progressCB(m_parent.m_progressIdx, bfName, attempts);
|
|
}
|
|
if (good)
|
|
break;
|
|
}
|
|
m_parent.m_progressCB(m_parent.m_progressIdx, bfName, attempts);
|
|
|
|
ws = m_parent.getFileIO().beginWriteStream(m_baseOffset + 0x2C0);
|
|
ws->write(tmdData.get(), tmdSz);
|
|
|
|
return m_baseOffset + dataOff + groupCount * 0x200000;
|
|
}
|
|
};
|
|
|
|
bool DiscBuilderWii::buildFromDirectory(const SystemChar* dirIn, const SystemChar* dolIn,
|
|
const SystemChar* apploaderIn, const SystemChar* partHeadIn)
|
|
{
|
|
size_t DISC_CAPACITY = m_dualLayer ? 0x1FB4E0000 : 0x118240000;
|
|
|
|
PartitionBuilderWii& pb = static_cast<PartitionBuilderWii&>(*m_partitions[0]);
|
|
uint64_t filledSz = pb.m_baseOffset;
|
|
m_fileIO->beginWriteStream();
|
|
|
|
if (!CheckFreeSpace(m_outPath, DISC_CAPACITY))
|
|
{
|
|
LogModule.report(LogVisor::Error, _S("not enough free disk space for %s"), m_outPath);
|
|
return false;
|
|
}
|
|
|
|
/* Assemble image */
|
|
filledSz = pb.buildFromDirectory(dirIn, dolIn, apploaderIn, partHeadIn);
|
|
if (filledSz >= DISC_CAPACITY)
|
|
{
|
|
LogModule.report(LogVisor::FatalError, "data partition exceeds disc capacity");
|
|
return false;
|
|
}
|
|
|
|
++m_progressIdx;
|
|
m_progressCB(m_progressIdx, _S("Finishing Disc"), -1);
|
|
|
|
/* Populate disc header */
|
|
std::unique_ptr<IFileIO::IWriteStream> ws = m_fileIO->beginWriteStream(0);
|
|
Header header(pb.getGameID(), pb.getGameTitle().c_str(), true, 0, 0, 0);
|
|
header.write(*ws);
|
|
|
|
/* Populate partition info */
|
|
ws = m_fileIO->beginWriteStream(0x40000);
|
|
uint32_t vals[2] = {SBig(uint32_t(1)), SBig(uint32_t(0x40020 >> uint64_t(2)))};
|
|
ws->write(vals, 8);
|
|
|
|
ws = m_fileIO->beginWriteStream(0x40020);
|
|
vals[0] = SBig(uint32_t(pb.m_baseOffset >> uint64_t(2)));
|
|
ws->write(vals, 4);
|
|
|
|
/* Populate region info */
|
|
ws = m_fileIO->beginWriteStream(0x4E000);
|
|
const char* gameID = pb.getGameID();
|
|
if (gameID[3] == 'P')
|
|
vals[0] = SBig(uint32_t(2));
|
|
else if (gameID[3] == 'J')
|
|
vals[0] = SBig(uint32_t(0));
|
|
else
|
|
vals[0] = SBig(uint32_t(1));
|
|
ws->write(vals, 4);
|
|
|
|
/* Make disc unrated */
|
|
ws = m_fileIO->beginWriteStream(0x4E010);
|
|
for (int i=0 ; i<16 ; ++i)
|
|
ws->write("\x80", 1);
|
|
|
|
/* Fill image to end */
|
|
ws = m_fileIO->beginWriteStream(filledSz);
|
|
uint8_t fillBuf[512];
|
|
memset(fillBuf, 0xff, 512);
|
|
for (size_t i=DISC_CAPACITY-filledSz ; i>0 ;)
|
|
{
|
|
if (i >= 512)
|
|
{
|
|
ws->write(fillBuf, 512);
|
|
i -= 512;
|
|
continue;
|
|
}
|
|
ws->write(fillBuf, i);
|
|
break;
|
|
}
|
|
|
|
return true;
|
|
}
|
|
|
|
DiscBuilderWii::DiscBuilderWii(const SystemChar* outPath, const char gameID[6], const char* gameTitle, bool dualLayer,
|
|
std::function<void(size_t, const SystemString&, size_t)> progressCB)
|
|
: DiscBuilderBase(outPath, progressCB), m_dualLayer(dualLayer)
|
|
{
|
|
PartitionBuilderWii* partBuilder = new PartitionBuilderWii(*this, PartitionBuilderBase::Kind::Data,
|
|
gameID, gameTitle, 0x200000);
|
|
m_partitions.emplace_back(partBuilder);
|
|
}
|
|
|
|
}
|