508 lines
16 KiB
C++
508 lines
16 KiB
C++
// Copyright 2008 Dolphin Emulator Project
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// Licensed under GPLv2+
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// Refer to the license.txt file included.
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#include "DiscIO/VolumeWii.h"
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#include <algorithm>
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#include <array>
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#include <cstddef>
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#include <cstring>
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#include <map>
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#include <mbedtls/aes.h>
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#include <mbedtls/sha1.h>
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#include <memory>
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#include <optional>
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#include <string>
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#include <utility>
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#include <vector>
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#include "Common/Assert.h"
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#include "Common/CommonTypes.h"
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#include "Common/Logging/Log.h"
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#include "Common/MsgHandler.h"
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#include "Common/Swap.h"
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#include "DiscIO/Blob.h"
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#include "DiscIO/DiscExtractor.h"
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#include "DiscIO/Enums.h"
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#include "DiscIO/FileSystemGCWii.h"
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#include "DiscIO/Filesystem.h"
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#include "DiscIO/Volume.h"
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#include "DiscIO/WiiSaveBanner.h"
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namespace DiscIO
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{
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VolumeWii::VolumeWii(std::unique_ptr<BlobReader> reader)
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: m_reader(std::move(reader)), m_game_partition(PARTITION_NONE),
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m_last_decrypted_block(UINT64_MAX)
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{
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ASSERT(m_reader);
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m_encrypted = m_reader->ReadSwapped<u32>(0x60) == u32(0);
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for (u32 partition_group = 0; partition_group < 4; ++partition_group)
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{
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const std::optional<u32> number_of_partitions =
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m_reader->ReadSwapped<u32>(0x40000 + (partition_group * 8));
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if (!number_of_partitions)
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continue;
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const std::optional<u64> partition_table_offset =
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ReadSwappedAndShifted(0x40000 + (partition_group * 8) + 4, PARTITION_NONE);
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if (!partition_table_offset)
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continue;
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for (u32 i = 0; i < number_of_partitions; i++)
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{
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const std::optional<u64> partition_offset =
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ReadSwappedAndShifted(*partition_table_offset + (i * 8), PARTITION_NONE);
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if (!partition_offset)
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continue;
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const Partition partition(*partition_offset);
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const std::optional<u32> partition_type =
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m_reader->ReadSwapped<u32>(*partition_table_offset + (i * 8) + 4);
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if (!partition_type)
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continue;
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// If this is the game partition, set m_game_partition
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if (m_game_partition == PARTITION_NONE && *partition_type == 0)
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m_game_partition = partition;
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auto get_ticket = [this, partition]() -> IOS::ES::TicketReader {
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std::vector<u8> ticket_buffer(sizeof(IOS::ES::Ticket));
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if (!m_reader->Read(partition.offset, ticket_buffer.size(), ticket_buffer.data()))
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return INVALID_TICKET;
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return IOS::ES::TicketReader{std::move(ticket_buffer)};
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};
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auto get_tmd = [this, partition]() -> IOS::ES::TMDReader {
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const std::optional<u32> tmd_size = m_reader->ReadSwapped<u32>(partition.offset + 0x2a4);
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const std::optional<u64> tmd_address =
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ReadSwappedAndShifted(partition.offset + 0x2a8, PARTITION_NONE);
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if (!tmd_size || !tmd_address)
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return INVALID_TMD;
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if (!IOS::ES::IsValidTMDSize(*tmd_size))
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{
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// This check is normally done by ES in ES_DiVerify, but that would happen too late
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// (after allocating the buffer), so we do the check here.
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PanicAlert("Invalid TMD size");
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return INVALID_TMD;
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}
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std::vector<u8> tmd_buffer(*tmd_size);
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if (!m_reader->Read(partition.offset + *tmd_address, *tmd_size, tmd_buffer.data()))
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return INVALID_TMD;
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return IOS::ES::TMDReader{std::move(tmd_buffer)};
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};
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auto get_cert_chain = [this, partition]() -> std::vector<u8> {
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const std::optional<u32> size = m_reader->ReadSwapped<u32>(partition.offset + 0x2ac);
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const std::optional<u64> address =
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ReadSwappedAndShifted(partition.offset + 0x2b0, PARTITION_NONE);
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if (!size || !address)
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return {};
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std::vector<u8> cert_chain(*size);
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if (!m_reader->Read(partition.offset + *address, *size, cert_chain.data()))
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return {};
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return cert_chain;
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};
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auto get_h3_table = [this, partition]() -> std::vector<u8> {
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if (!m_encrypted)
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return {};
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const std::optional<u64> h3_table_offset =
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ReadSwappedAndShifted(partition.offset + 0x2b4, PARTITION_NONE);
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if (!h3_table_offset)
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return {};
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std::vector<u8> h3_table(H3_TABLE_SIZE);
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if (!m_reader->Read(partition.offset + *h3_table_offset, H3_TABLE_SIZE, h3_table.data()))
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return {};
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return h3_table;
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};
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auto get_key = [this, partition]() -> std::unique_ptr<mbedtls_aes_context> {
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const IOS::ES::TicketReader& ticket = *m_partitions[partition].ticket;
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if (!ticket.IsValid())
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return nullptr;
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const std::array<u8, 16> key = ticket.GetTitleKey();
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std::unique_ptr<mbedtls_aes_context> aes_context = std::make_unique<mbedtls_aes_context>();
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mbedtls_aes_setkey_dec(aes_context.get(), key.data(), 128);
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return aes_context;
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};
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auto get_file_system = [this, partition]() -> std::unique_ptr<FileSystem> {
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auto file_system = std::make_unique<FileSystemGCWii>(this, partition);
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return file_system->IsValid() ? std::move(file_system) : nullptr;
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};
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auto get_data_offset = [this, partition]() -> u64 {
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return ReadSwappedAndShifted(partition.offset + 0x2b8, PARTITION_NONE).value_or(0);
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};
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m_partitions.emplace(
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partition, PartitionDetails{Common::Lazy<std::unique_ptr<mbedtls_aes_context>>(get_key),
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Common::Lazy<IOS::ES::TicketReader>(get_ticket),
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Common::Lazy<IOS::ES::TMDReader>(get_tmd),
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Common::Lazy<std::vector<u8>>(get_cert_chain),
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Common::Lazy<std::vector<u8>>(get_h3_table),
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Common::Lazy<std::unique_ptr<FileSystem>>(get_file_system),
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Common::Lazy<u64>(get_data_offset), *partition_type});
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}
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}
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}
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VolumeWii::~VolumeWii()
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{
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}
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bool VolumeWii::Read(u64 offset, u64 length, u8* buffer, const Partition& partition) const
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{
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if (partition == PARTITION_NONE)
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return m_reader->Read(offset, length, buffer);
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auto it = m_partitions.find(partition);
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if (it == m_partitions.end())
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return false;
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const PartitionDetails& partition_details = it->second;
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if (!m_encrypted)
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{
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return m_reader->Read(partition.offset + *partition_details.data_offset + offset, length,
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buffer);
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}
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if (m_reader->SupportsReadWiiDecrypted())
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return m_reader->ReadWiiDecrypted(offset, length, buffer, partition.offset);
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mbedtls_aes_context* aes_context = partition_details.key->get();
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if (!aes_context)
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return false;
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std::vector<u8> read_buffer(BLOCK_TOTAL_SIZE);
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while (length > 0)
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{
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// Calculate offsets
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u64 block_offset_on_disc = partition.offset + *partition_details.data_offset +
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offset / BLOCK_DATA_SIZE * BLOCK_TOTAL_SIZE;
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u64 data_offset_in_block = offset % BLOCK_DATA_SIZE;
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if (m_last_decrypted_block != block_offset_on_disc)
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{
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// Read the current block
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if (!m_reader->Read(block_offset_on_disc, BLOCK_TOTAL_SIZE, read_buffer.data()))
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return false;
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// Decrypt the block's data.
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// 0x3D0 - 0x3DF in read_buffer will be overwritten,
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// but that won't affect anything, because we won't
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// use the content of read_buffer anymore after this
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mbedtls_aes_crypt_cbc(aes_context, MBEDTLS_AES_DECRYPT, BLOCK_DATA_SIZE, &read_buffer[0x3D0],
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&read_buffer[BLOCK_HEADER_SIZE], m_last_decrypted_block_data);
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m_last_decrypted_block = block_offset_on_disc;
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// The only thing we currently use from the 0x000 - 0x3FF part
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// of the block is the IV (at 0x3D0), but it also contains SHA-1
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// hashes that IOS uses to check that discs aren't tampered with.
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// http://wiibrew.org/wiki/Wii_Disc#Encrypted
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}
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// Copy the decrypted data
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u64 copy_size = std::min(length, BLOCK_DATA_SIZE - data_offset_in_block);
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memcpy(buffer, &m_last_decrypted_block_data[data_offset_in_block],
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static_cast<size_t>(copy_size));
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// Update offsets
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length -= copy_size;
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buffer += copy_size;
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offset += copy_size;
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}
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return true;
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}
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bool VolumeWii::IsEncryptedAndHashed() const
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{
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return m_encrypted;
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}
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std::vector<Partition> VolumeWii::GetPartitions() const
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{
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std::vector<Partition> partitions;
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for (const auto& pair : m_partitions)
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partitions.push_back(pair.first);
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return partitions;
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}
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Partition VolumeWii::GetGamePartition() const
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{
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return m_game_partition;
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}
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std::optional<u32> VolumeWii::GetPartitionType(const Partition& partition) const
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{
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auto it = m_partitions.find(partition);
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return it != m_partitions.end() ? it->second.type : std::optional<u32>();
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}
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std::optional<u64> VolumeWii::GetTitleID(const Partition& partition) const
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{
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const IOS::ES::TicketReader& ticket = GetTicket(partition);
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if (!ticket.IsValid())
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return {};
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return ticket.GetTitleId();
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}
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const IOS::ES::TicketReader& VolumeWii::GetTicket(const Partition& partition) const
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{
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auto it = m_partitions.find(partition);
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return it != m_partitions.end() ? *it->second.ticket : INVALID_TICKET;
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}
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const IOS::ES::TMDReader& VolumeWii::GetTMD(const Partition& partition) const
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{
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auto it = m_partitions.find(partition);
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return it != m_partitions.end() ? *it->second.tmd : INVALID_TMD;
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}
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const std::vector<u8>& VolumeWii::GetCertificateChain(const Partition& partition) const
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{
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auto it = m_partitions.find(partition);
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return it != m_partitions.end() ? *it->second.cert_chain : INVALID_CERT_CHAIN;
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}
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const FileSystem* VolumeWii::GetFileSystem(const Partition& partition) const
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{
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auto it = m_partitions.find(partition);
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return it != m_partitions.end() ? it->second.file_system->get() : nullptr;
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}
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u64 VolumeWii::EncryptedPartitionOffsetToRawOffset(u64 offset, const Partition& partition,
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u64 partition_data_offset)
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{
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if (partition == PARTITION_NONE)
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return offset;
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return partition.offset + partition_data_offset + (offset / BLOCK_DATA_SIZE * BLOCK_TOTAL_SIZE) +
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(offset % BLOCK_DATA_SIZE);
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}
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u64 VolumeWii::PartitionOffsetToRawOffset(u64 offset, const Partition& partition) const
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{
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auto it = m_partitions.find(partition);
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if (it == m_partitions.end())
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return offset;
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const u64 data_offset = *it->second.data_offset;
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if (!m_encrypted)
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return partition.offset + data_offset + offset;
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return EncryptedPartitionOffsetToRawOffset(offset, partition, data_offset);
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}
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std::string VolumeWii::GetGameID(const Partition& partition) const
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{
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char id[6];
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if (!Read(0, sizeof(id), reinterpret_cast<u8*>(id), partition))
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return std::string();
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return DecodeString(id);
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}
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std::string VolumeWii::GetGameTDBID(const Partition& partition) const
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{
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return GetGameID(partition);
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}
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Region VolumeWii::GetRegion() const
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{
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const std::optional<u32> region_code = m_reader->ReadSwapped<u32>(0x4E000);
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if (!region_code)
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return Region::Unknown;
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const Region region = static_cast<Region>(*region_code);
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return region <= Region::NTSC_K ? region : Region::Unknown;
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}
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Country VolumeWii::GetCountry(const Partition& partition) const
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{
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// The 0 that we use as a default value is mapped to Country::Unknown and Region::Unknown
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const u8 country_byte = ReadSwapped<u8>(3, partition).value_or(0);
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const Region region = GetRegion();
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const std::optional<u16> revision = GetRevision();
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if (CountryCodeToRegion(country_byte, Platform::WiiDisc, region, revision) != region)
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return TypicalCountryForRegion(region);
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return CountryCodeToCountry(country_byte, Platform::WiiDisc, region, revision);
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}
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std::string VolumeWii::GetMakerID(const Partition& partition) const
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{
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char maker_id[2];
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if (!Read(0x4, sizeof(maker_id), reinterpret_cast<u8*>(&maker_id), partition))
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return std::string();
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return DecodeString(maker_id);
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}
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std::optional<u16> VolumeWii::GetRevision(const Partition& partition) const
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{
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std::optional<u8> revision = ReadSwapped<u8>(7, partition);
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return revision ? *revision : std::optional<u16>();
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}
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std::string VolumeWii::GetInternalName(const Partition& partition) const
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{
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char name_buffer[0x60];
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if (Read(0x20, sizeof(name_buffer), reinterpret_cast<u8*>(&name_buffer), partition))
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return DecodeString(name_buffer);
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return "";
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}
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std::map<Language, std::string> VolumeWii::GetLongNames() const
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{
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std::vector<char16_t> names(NAMES_TOTAL_CHARS);
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names.resize(ReadFile(*this, GetGamePartition(), "opening.bnr",
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reinterpret_cast<u8*>(names.data()), NAMES_TOTAL_BYTES, 0x5C));
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return ReadWiiNames(names);
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}
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std::vector<u32> VolumeWii::GetBanner(u32* width, u32* height) const
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{
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*width = 0;
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*height = 0;
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const std::optional<u64> title_id = GetTitleID(GetGamePartition());
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if (!title_id)
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return std::vector<u32>();
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return WiiSaveBanner(*title_id).GetBanner(width, height);
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}
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std::string VolumeWii::GetApploaderDate(const Partition& partition) const
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{
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char date[16];
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if (!Read(0x2440, sizeof(date), reinterpret_cast<u8*>(&date), partition))
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return std::string();
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return DecodeString(date);
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}
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Platform VolumeWii::GetVolumeType() const
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{
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return Platform::WiiDisc;
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}
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std::optional<u8> VolumeWii::GetDiscNumber(const Partition& partition) const
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{
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return ReadSwapped<u8>(6, partition);
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}
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BlobType VolumeWii::GetBlobType() const
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{
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return m_reader->GetBlobType();
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}
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u64 VolumeWii::GetSize() const
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{
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return m_reader->GetDataSize();
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}
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bool VolumeWii::IsSizeAccurate() const
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{
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return m_reader->IsDataSizeAccurate();
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}
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u64 VolumeWii::GetRawSize() const
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{
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return m_reader->GetRawSize();
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}
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bool VolumeWii::CheckH3TableIntegrity(const Partition& partition) const
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{
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auto it = m_partitions.find(partition);
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if (it == m_partitions.end())
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return false;
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const PartitionDetails& partition_details = it->second;
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const std::vector<u8>& h3_table = *partition_details.h3_table;
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if (h3_table.size() != H3_TABLE_SIZE)
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return false;
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const IOS::ES::TMDReader& tmd = *partition_details.tmd;
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if (!tmd.IsValid())
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return false;
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const std::vector<IOS::ES::Content> contents = tmd.GetContents();
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if (contents.size() != 1)
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return false;
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std::array<u8, 20> h3_table_sha1;
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mbedtls_sha1_ret(h3_table.data(), h3_table.size(), h3_table_sha1.data());
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return h3_table_sha1 == contents[0].sha1;
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}
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bool VolumeWii::CheckBlockIntegrity(u64 block_index, const Partition& partition) const
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{
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auto it = m_partitions.find(partition);
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if (it == m_partitions.end())
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return false;
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const PartitionDetails& partition_details = it->second;
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constexpr size_t SHA1_SIZE = 20;
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if (block_index / 64 * SHA1_SIZE >= partition_details.h3_table->size())
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return false;
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mbedtls_aes_context* aes_context = partition_details.key->get();
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if (!aes_context)
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return false;
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const u64 cluster_offset =
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partition.offset + *partition_details.data_offset + block_index * BLOCK_TOTAL_SIZE;
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// Read and decrypt the cluster metadata
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u8 cluster_metadata_crypted[BLOCK_HEADER_SIZE];
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u8 cluster_metadata[BLOCK_HEADER_SIZE];
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u8 iv[16] = {0};
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if (!m_reader->Read(cluster_offset, BLOCK_HEADER_SIZE, cluster_metadata_crypted))
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return false;
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mbedtls_aes_crypt_cbc(aes_context, MBEDTLS_AES_DECRYPT, BLOCK_HEADER_SIZE, iv,
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cluster_metadata_crypted, cluster_metadata);
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u8 cluster_data[BLOCK_DATA_SIZE];
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if (!Read(block_index * BLOCK_DATA_SIZE, BLOCK_DATA_SIZE, cluster_data, partition))
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return false;
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for (u32 hash_index = 0; hash_index < 31; ++hash_index)
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{
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u8 h0_hash[SHA1_SIZE];
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mbedtls_sha1_ret(cluster_data + hash_index * 0x400, 0x400, h0_hash);
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|
if (memcmp(h0_hash, cluster_metadata + hash_index * SHA1_SIZE, SHA1_SIZE))
|
|
return false;
|
|
}
|
|
|
|
u8 h1_hash[SHA1_SIZE];
|
|
mbedtls_sha1_ret(cluster_metadata, SHA1_SIZE * 31, h1_hash);
|
|
if (memcmp(h1_hash, cluster_metadata + 0x280 + (block_index % 8) * SHA1_SIZE, SHA1_SIZE))
|
|
return false;
|
|
|
|
u8 h2_hash[SHA1_SIZE];
|
|
mbedtls_sha1_ret(cluster_metadata + 0x280, SHA1_SIZE * 8, h2_hash);
|
|
if (memcmp(h2_hash, cluster_metadata + 0x340 + (block_index / 8 % 8) * SHA1_SIZE, SHA1_SIZE))
|
|
return false;
|
|
|
|
u8 h3_hash[SHA1_SIZE];
|
|
mbedtls_sha1_ret(cluster_metadata + 0x340, SHA1_SIZE * 8, h3_hash);
|
|
if (memcmp(h3_hash, partition_details.h3_table->data() + block_index / 64 * SHA1_SIZE, SHA1_SIZE))
|
|
return false;
|
|
|
|
return true;
|
|
}
|
|
|
|
} // namespace DiscIO
|