mirror of
https://github.com/Fledge68/WiiFlow_Lite.git
synced 2024-12-18 07:51:53 +01:00
70e3df6d5d
ntfs mount settings (new libntfs makes problems)
426 lines
12 KiB
C++
426 lines
12 KiB
C++
/****************************************************************************
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* Copyright (C) 2010
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* by Dimok
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* modified for Debugging, GPT, WBFS, and EXT by Miigotu
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*
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* This software is provided 'as-is', without any express or implied
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* warranty. In no event will the authors be held liable for any
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* damages arising from the use of this software.
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*
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* Permission is granted to anyone to use this software for any
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* purpose, including commercial applications, and to alter it and
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* redistribute it freely, subject to the following restrictions:
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*
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* 1. The origin of this software must not be misrepresented; you
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* must not claim that you wrote the original software. If you use
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* this software in a product, an acknowledgment in the product
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* documentation would be appreciated but is not required.
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*
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* 2. Altered source versions must be plainly marked as such, and
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* must not be misrepresented as being the original software.
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*
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* 3. This notice may not be removed or altered from any source
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* distribution.
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*
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* By Dimok for WiiXplorer 2010
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* By Miigotu for WiiFlow 2010
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***************************************************************************/
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#include <gccore.h>
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#include <stdio.h>
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#include <string.h>
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#include <malloc.h>
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#include "PartitionHandle.h"
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#include "utils.h"
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#include "ntfs.h"
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#include "fat.h"
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#include "ext2.h"
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#include "wbfs.h"
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#include <sdcard/gcsd.h>
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#define PARTITION_TYPE_DOS33_EXTENDED 0x05 /* DOS 3.3+ extended partition */
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#define PARTITION_TYPE_WIN95_EXTENDED 0x0F /* Windows 95 extended partition */
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#define PARTITION_TYPE_GPT_TABLE 0xEE /* New Standard */
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#define CACHE 8
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#define SECTORS 64
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extern const DISC_INTERFACE __io_sdhc;
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extern u32 sector_size;
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static inline const char * PartFromType(int type)
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{
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switch (type)
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{
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case 0x00: return "Unused"; //Or WBFS
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case 0x01: return "FAT12";
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case 0x04: return "FAT16";
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case 0x05: return "Extended";
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case 0x06: return "FAT16";
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case 0x07: return "NTFS";
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case 0x0b: return "FAT32";
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case 0x0c: return "FAT32";
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case 0x0e: return "FAT16";
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case 0x0f: return "Extended";
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case 0x82: return "LxSWP";
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case 0x83: return "LINUX";
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case 0x8e: return "LxLVM";
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case 0xa8: return "OSX";
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case 0xab: return "OSXBT";
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case 0xaf: return "OSXHF";
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case 0xe8: return "LUKS";
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case 0xee: return "GPT";
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default: return "Unknown";
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}
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}
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PartitionHandle::PartitionHandle(const DISC_INTERFACE *discio)
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{
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interface = discio;
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// Sanity check
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if(!interface) return;
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// Start the device and check that it is inserted
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if(!interface->startup()) return;
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if(!interface->isInserted()) return;
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FindPartitions();
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}
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PartitionHandle::~PartitionHandle()
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{
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UnMountAll();
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//shutdown device
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interface->shutdown();
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}
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bool PartitionHandle::IsMounted(int pos)
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{
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if(pos < 0 || pos >= (int) MountNameList.size())
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return false;
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if(MountNameList[pos].size() == 0)
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return false;
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return true;
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}
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bool PartitionHandle::Mount(int pos, const char * name)
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{
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if(!valid(pos)) return false;
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if(!name) return false;
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UnMount(pos);
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if(pos >= (int) MountNameList.size())
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MountNameList.resize(GetPartitionCount());
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MountNameList[pos] = name;
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SetWbfsHandle(pos, NULL);
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if(strncmp(GetFSName(pos), "FAT", 3) == 0)
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{
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if(fatMount(MountNameList[pos].c_str(), interface, GetLBAStart(pos), CACHE, SECTORS))
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return true;
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}
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else if(strncmp(GetFSName(pos), "NTFS", 4) == 0)
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{
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if(ntfsMount(MountNameList[pos].c_str(), interface, GetLBAStart(pos), CACHE, SECTORS, NTFS_SU | NTFS_RECOVER | NTFS_IGNORE_CASE))
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return true;
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}
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else if(strncmp(GetFSName(pos), "LINUX", 5) == 0)
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{
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if(ext2Mount(MountNameList[pos].c_str(), interface, GetLBAStart(pos), CACHE, SECTORS, EXT2_FLAG_DEFAULT))
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return true;
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}
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else if(strncmp(GetFSName(pos), "WBFS", 4) == 0)
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{
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if (interface == &__io_usbstorage)
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SetWbfsHandle(pos, wbfs_open_partition(__WBFS_ReadUSB, __WBFS_WriteUSB, NULL, sector_size, GetSecCount(pos), GetLBAStart(pos), 0));
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else if (interface == &__io_sdhc)
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SetWbfsHandle(pos, wbfs_open_partition(__WBFS_ReadSDHC, __WBFS_WriteSDHC, NULL, sector_size, GetSecCount(pos), GetLBAStart(pos), 0));
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if(GetWbfsHandle(pos)) return true;
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}
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MountNameList[pos].clear();
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return false;
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}
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void PartitionHandle::UnMount(int pos)
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{
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if(!interface) return;
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if(pos >= (int) MountNameList.size()) return;
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if(MountNameList[pos].size() == 0) return;
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char DeviceName[20];
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snprintf(DeviceName, sizeof(DeviceName), "%s:", MountNameList[pos].c_str());
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wbfs_t* wbfshandle = GetWbfsHandle(pos);
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if(wbfshandle) wbfs_close(wbfshandle);
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SetWbfsHandle(pos, NULL);
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WBFS_Close();
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fatUnmount(DeviceName);
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ntfsUnmount(DeviceName, true);
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ext2Unmount(DeviceName);
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//Remove mount name from the list
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MountNameList[pos].clear();
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}
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int PartitionHandle::FindPartitions()
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{
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MASTER_BOOT_RECORD *mbr = (MASTER_BOOT_RECORD *)MEM2_alloc(MAX_BYTES_PER_SECTOR);
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if(!mbr) return -1;
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// Read the first sector on the device
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if(!interface->readSectors(0, 1, mbr))
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{
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MEM2_free(mbr);
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return 0;
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}
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// Check if it's a RAW disc, without a partition table
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if(CheckRAW((VOLUME_BOOT_RECORD *)mbr))
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{
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MEM2_free(mbr);
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return 1;
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}
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// Verify this is the device's master boot record
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if(mbr->signature != MBR_SIGNATURE)
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{
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MEM2_free(mbr);
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return 0;
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}
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for (int i = 0; i < 4; i++)
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{
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PARTITION_RECORD * partition = (PARTITION_RECORD *)&mbr->partitions[i];
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VOLUME_BOOT_RECORD *vbr = (VOLUME_BOOT_RECORD *)MEM2_alloc(MAX_BYTES_PER_SECTOR);
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if(!vbr)
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{
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MEM2_free(mbr);
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return -1;
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}
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if (le32(partition->lba_start) == 0) continue; // Invalid partition
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if(!interface->readSectors(le32(partition->lba_start), 1, vbr)) continue;
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// Check if the partition is WBFS
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bool isWBFS = memcmp((u8 *)vbr, WBFS_SIGNATURE, sizeof(WBFS_SIGNATURE)) == 0;
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if(!isWBFS && i == 0 && partition->type == PARTITION_TYPE_GPT_TABLE)
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return CheckGPT() ? PartitionList.size() : 0;
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if(!isWBFS && vbr->Signature != VBR_SIGNATURE && partition->type != 0x83) continue;
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if(!isWBFS && (partition->type == PARTITION_TYPE_DOS33_EXTENDED || partition->type == PARTITION_TYPE_WIN95_EXTENDED))
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{
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CheckEBR(i, le32(partition->lba_start));
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continue;
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}
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if(isWBFS || le32(partition->block_count) > 0)
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{
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PartitionFS PartitionEntry = {"0",0,0,0,0,0,0,0};
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PartitionEntry.FSName = isWBFS ? "WBFS" : PartFromType(partition->type);
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PartitionEntry.LBA_Start = le32(partition->lba_start);
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PartitionEntry.SecCount = isWBFS ? ((wbfs_head_t *)vbr)->n_hd_sec : le32(partition->block_count);
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PartitionEntry.Bootable = (partition->status == PARTITION_BOOTABLE);
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PartitionEntry.PartitionType = partition->type;
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PartitionEntry.PartitionNum = i;
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PartitionEntry.EBR_Sector = 0;
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PartitionList.push_back(PartitionEntry);
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}
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MEM2_free(vbr);
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}
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MEM2_free(mbr);
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return PartitionList.size();
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}
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void PartitionHandle::CheckEBR(u8 PartNum, sec_t ebr_lba)
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{
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EXTENDED_BOOT_RECORD *ebr = (EXTENDED_BOOT_RECORD *)MEM2_alloc(MAX_BYTES_PER_SECTOR);
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sec_t next_erb_lba = 0;
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do
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{
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// Read and validate the extended boot record
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if(!interface->readSectors(ebr_lba + next_erb_lba, 1, ebr))
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{
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MEM2_free(ebr);
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return;
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}
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// Check if the partition is WBFS
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bool isWBFS = memcmp((u8 *)ebr, WBFS_SIGNATURE, sizeof(WBFS_SIGNATURE)) == 0;
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if(!isWBFS && ebr->signature != EBR_SIGNATURE)
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{
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MEM2_free(ebr);
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return;
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}
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if(isWBFS || le32(ebr->partition.block_count) > 0)
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{
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PartitionFS PartitionEntry = {"0",0,0,0,0,0,0,0};
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PartitionEntry.FSName = isWBFS ? "WBFS" : PartFromType(ebr->partition.type);
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PartitionEntry.LBA_Start = ebr_lba + next_erb_lba + le32(ebr->partition.lba_start);
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PartitionEntry.SecCount = isWBFS ? ((wbfs_head_t *)&ebr)->n_hd_sec : le32(ebr->partition.block_count);
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PartitionEntry.Bootable = (ebr->partition.status == PARTITION_BOOTABLE);
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PartitionEntry.PartitionType = ebr->partition.type;
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PartitionEntry.PartitionNum = PartNum;
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PartitionEntry.EBR_Sector = ebr_lba + next_erb_lba;
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PartitionList.push_back(PartitionEntry);
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}
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// Get the start sector of the current partition
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// and the next extended boot record in the chain
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next_erb_lba = le32(ebr->next_ebr.lba_start);
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}
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while(next_erb_lba > 0);
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MEM2_free(ebr);
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}
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bool PartitionHandle::CheckGPT(void)
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{
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GPT_PARTITION_TABLE *gpt = (GPT_PARTITION_TABLE *)MEM2_alloc(MAX_BYTES_PER_SECTOR);
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if(!gpt) return false;
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bool success = false; // To return false unless at least 1 partition is verified
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if(!interface->readSectors(1, 33, gpt))
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{
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free(gpt);
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return false; // To read all 128 possible partitions
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}
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// Verify this is the Primary GPT entry
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if((strncmp(gpt->magic, GPT_SIGNATURE, 8) != 0)
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|| (le32(gpt->Entry_Size) != 128)
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|| (le64(gpt->Table_LBA) != 2)
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|| (le64(gpt->Header_LBA) != 1)
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|| (le64(gpt->First_Usable_LBA) != 34)
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|| (gpt->Reserved != 0))
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{
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free(gpt);
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return false;
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}
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for(u8 i = 0; i < le32(gpt->Num_Entries) && PartitionList.size() <= 8; i++)
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{
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GUID_PARTITION_ENTRY * entry = (GUID_PARTITION_ENTRY *) &gpt->partitions[i];
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VOLUME_BOOT_RECORD *vbr = (VOLUME_BOOT_RECORD*)MEM2_alloc(MAX_BYTES_PER_SECTOR);
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int Start = le64(entry->First_LBA);
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int End = le64(entry->Last_LBA);
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int Size = End - Start;
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if(!interface->readSectors(Start, 1, vbr)) continue;
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PartitionFS PartitionEntry = {"0",0,0,0,0,0,0,0};
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if(memcmp((u8 *)vbr + BPB_NTFS_ADDR, NTFS_SIGNATURE, sizeof(NTFS_SIGNATURE)) == 0)
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{
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PartitionEntry.FSName = "NTFS";
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PartitionEntry.PartitionType = 0x07;
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PartitionEntry.SecCount = le64(vbr->Number_of_Sectors);
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}
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else if(memcmp((u8 *)vbr + BPB_FAT32_ADDR, FAT_SIGNATURE, sizeof(FAT_SIGNATURE)) == 0)
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{
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PartitionEntry.FSName = "FAT32";
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PartitionEntry.PartitionType = 0x0c;
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PartitionEntry.SecCount = le16(vbr->bpb.FatSectors);
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if (PartitionEntry.SecCount == 0)
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PartitionEntry.SecCount = le32(vbr->bpb.Large_Sectors);
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}
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else if(memcmp((u8 *)vbr + BPB_FAT16_ADDR, FAT_SIGNATURE, sizeof(FAT_SIGNATURE)) == 0)
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{
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PartitionEntry.FSName = "FAT16";
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PartitionEntry.PartitionType = 0x0e;
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PartitionEntry.SecCount = le16(vbr->bpb.FatSectors);
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if (PartitionEntry.SecCount == 0)
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PartitionEntry.SecCount = le32(vbr->bpb.Large_Sectors);
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}
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else if(memcmp((u8 *)vbr, WBFS_SIGNATURE, sizeof(WBFS_SIGNATURE)) == 0)
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{
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PartitionEntry.FSName = "WBFS";
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PartitionEntry.SecCount = ((wbfs_head_t *)vbr)->n_hd_sec;
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}
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else
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{
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bzero(&PartitionEntry, sizeof(PartitionFS));
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if(interface->readSectors(Start + 1, 1, vbr))
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{
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if(memcmp((u8 *)vbr + BPB_EXT2_ADDR, EXT_SIGNATURE, sizeof(EXT_SIGNATURE)) == 0)
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{
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PartitionEntry.FSName = "LINUX";
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PartitionEntry.PartitionType = 0x83;
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PartitionEntry.SecCount = Size;
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}
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else continue;
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}
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else continue;
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}
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if(PartitionEntry.SecCount != 0 && PartitionEntry.FSName[0] != '0')
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{
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PartitionEntry.LBA_Start = Start;
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PartitionEntry.PartitionNum = i;
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success = true;
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PartitionList.push_back(PartitionEntry);
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}
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free(vbr);
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}
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free(gpt);
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return success;
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}
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bool PartitionHandle::CheckRAW(VOLUME_BOOT_RECORD * vbr)
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{
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PartitionFS PartitionEntry = {"0",0,0,0,0,0,0,0};
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if(memcmp((u8 *)vbr + BPB_NTFS_ADDR, NTFS_SIGNATURE, sizeof(NTFS_SIGNATURE)) == 0)
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{
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PartitionEntry.FSName = "NTFS";
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PartitionEntry.PartitionType = 0x07;
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PartitionEntry.SecCount = le64(vbr->Number_of_Sectors);
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}
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else if(memcmp((u8 *)vbr + BPB_FAT32_ADDR, FAT_SIGNATURE, sizeof(FAT_SIGNATURE)) == 0)
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{
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PartitionEntry.FSName = "FAT32";
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PartitionEntry.PartitionType = 0x0c;
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PartitionEntry.SecCount = le16(vbr->bpb.FatSectors);
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if (PartitionEntry.SecCount == 0)
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PartitionEntry.SecCount = le32(vbr->bpb.Large_Sectors);
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}
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else if(memcmp((u8 *)vbr + BPB_FAT16_ADDR, FAT_SIGNATURE, sizeof(FAT_SIGNATURE)) == 0)
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{
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PartitionEntry.FSName = "FAT16";
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PartitionEntry.PartitionType = 0x0e;
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PartitionEntry.SecCount = le16(vbr->bpb.FatSectors);
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if (PartitionEntry.SecCount == 0)
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PartitionEntry.SecCount = le32(vbr->bpb.Large_Sectors);
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}
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else if(memcmp((u8 *)vbr, WBFS_SIGNATURE, sizeof(WBFS_SIGNATURE)) == 0)
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{
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PartitionEntry.FSName = "WBFS";
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PartitionEntry.SecCount = ((wbfs_head_t *)vbr)->n_hd_sec;
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}
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if(PartitionEntry.FSName[0] != '0')
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{
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PartitionList.push_back(PartitionEntry);
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return true;
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}
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return false;
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}
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