-added debug information about the partitions mounted/unmounted

-hopefully fixed some partition detection
-lets set neek2o or dolphin-emu properly in the ios info
This commit is contained in:
fix94.1 2012-11-28 12:05:21 +00:00
parent 962334a4ce
commit dcf1dc2e93
3 changed files with 107 additions and 68 deletions

View File

@ -24,7 +24,6 @@
#include <gccore.h> #include <gccore.h>
#include <stdio.h> #include <stdio.h>
#include <string.h> #include <string.h>
#include <malloc.h>
#include <sdcard/gcsd.h> #include <sdcard/gcsd.h>
#include "PartitionHandle.h" #include "PartitionHandle.h"
#include "ntfs.h" #include "ntfs.h"
@ -32,19 +31,15 @@
#include "ext2.h" #include "ext2.h"
#include "sdhc.h" #include "sdhc.h"
#include "usbstorage.h" #include "usbstorage.h"
#include "gui/text.hpp"
#include "loader/nk.h" #include "loader/nk.h"
#include "loader/utils.h" #include "loader/utils.h"
#include "loader/wbfs.h" #include "loader/wbfs.h"
#include "memory/mem2.hpp"
#define PARTITION_TYPE_DOS33_EXTENDED 0x05 /* DOS 3.3+ extended partition */ #define PARTITION_TYPE_DOS33_EXTENDED 0x05 /* DOS 3.3+ extended partition */
#define PARTITION_TYPE_WIN95_EXTENDED 0x0F /* Windows 95 extended partition */ #define PARTITION_TYPE_WIN95_EXTENDED 0x0F /* Windows 95 extended partition */
/* Predefined Buffers */
GUID_PART_ENTRY gpt_entry[MAX_BYTES_PER_SECTOR] ATTRIBUTE_ALIGN(32);
MASTER_BOOT_RECORD mbr[MAX_BYTES_PER_SECTOR] ATTRIBUTE_ALIGN(32);
u8 HeaderBuffer[MAX_BYTES_PER_SECTOR] ATTRIBUTE_ALIGN(32);
u8 AddingBuffer[MAX_BYTES_PER_SECTOR] ATTRIBUTE_ALIGN(32);
//! libfat stuff //! libfat stuff
extern "C" extern "C"
{ {
@ -137,16 +132,17 @@ bool PartitionHandle::Mount(int pos, const char * name, bool forceFAT)
MountNameList.resize(pos + 1); MountNameList.resize(pos + 1);
MountNameList[pos] = name; MountNameList[pos] = name;
const char *DeviceSyn = fmt("%s:", name);
//! Some stupid partition manager think they don't need to edit the freaken MBR. //! Some stupid partition manager think they don't need to edit the freaken MBR.
//! So we need to check the first 64 sectors and see if some partition is there. //! So we need to check the first 64 sectors and see if some partition is there.
//! libfat does that by default so let's use it. //! libfat does that by default so let's use it.
//! We do that only on sd not on usb.
if(forceFAT && (strlen(GetFSName(pos)) == 0 || strcmp(GetFSName(pos), "Unknown") == 0)) if(forceFAT && (strlen(GetFSName(pos)) == 0 || strcmp(GetFSName(pos), "Unknown") == 0))
{ {
if(fatMount(MountNameList[pos].c_str(), interface, 0, CACHE, SECTORS)) if(fatMount(MountNameList[pos].c_str(), interface, 0, CACHE, SECTORS))
{ {
sec_t FAT_startSector = FindFirstValidPartition(interface); sec_t FAT_startSector = FindFirstValidPartition(interface);
AddPartition("FAT", FAT_startSector, 0xdeadbeaf, true, 0x0c, 0); AddPartition("FAT", FAT_startSector, 0xdeadbeaf, true, 0x0c, 0);
gprintf("FAT Partition at %s (forceFAT) mounted.\n", DeviceSyn);
SetWbfsHandle(pos, NULL); SetWbfsHandle(pos, NULL);
return true; return true;
} }
@ -159,7 +155,7 @@ bool PartitionHandle::Mount(int pos, const char * name, bool forceFAT)
{ {
if(fatMount(MountNameList[pos].c_str(), interface, GetLBAStart(pos), CACHE, SECTORS)) if(fatMount(MountNameList[pos].c_str(), interface, GetLBAStart(pos), CACHE, SECTORS))
{ {
if(strcmp(GetFSName(pos), "GUID-Entry") == 0) gprintf("FAT Partition at %s mounted.\n", DeviceSyn);
PartitionList[pos].FSName = "FAT"; PartitionList[pos].FSName = "FAT";
return true; return true;
} }
@ -168,6 +164,7 @@ bool PartitionHandle::Mount(int pos, const char * name, bool forceFAT)
{ {
if(ntfsMount(MountNameList[pos].c_str(), interface, GetLBAStart(pos), CACHE, SECTORS, NTFS_SHOW_HIDDEN_FILES | NTFS_RECOVER)) if(ntfsMount(MountNameList[pos].c_str(), interface, GetLBAStart(pos), CACHE, SECTORS, NTFS_SHOW_HIDDEN_FILES | NTFS_RECOVER))
{ {
gprintf("NTFS Partition at %s mounted.\n", DeviceSyn);
PartitionList[pos].FSName = "NTFS"; PartitionList[pos].FSName = "NTFS";
return true; return true;
} }
@ -176,6 +173,7 @@ bool PartitionHandle::Mount(int pos, const char * name, bool forceFAT)
{ {
if(ext2Mount(MountNameList[pos].c_str(), interface, GetLBAStart(pos), CACHE, SECTORS, EXT2_FLAG_DEFAULT)) if(ext2Mount(MountNameList[pos].c_str(), interface, GetLBAStart(pos), CACHE, SECTORS, EXT2_FLAG_DEFAULT))
{ {
gprintf("EXT Partition at %s mounted.\n", DeviceSyn);
PartitionList[pos].FSName = "LINUX"; PartitionList[pos].FSName = "LINUX";
return true; return true;
} }
@ -188,43 +186,47 @@ bool PartitionHandle::Mount(int pos, const char * name, bool forceFAT)
SetWbfsHandle(pos, wbfs_open_partition(__WBFS_ReadSDHC, __WBFS_WriteSDHC, NULL, 512, GetSecCount(pos), GetLBAStart(pos), 0)); SetWbfsHandle(pos, wbfs_open_partition(__WBFS_ReadSDHC, __WBFS_WriteSDHC, NULL, 512, GetSecCount(pos), GetLBAStart(pos), 0));
if(GetWbfsHandle(pos)) if(GetWbfsHandle(pos))
{ {
gprintf("WBFS Partition at %s mounted.\n", DeviceSyn);
PartitionList[pos].FSName = "WBFS"; PartitionList[pos].FSName = "WBFS";
return true; return true;
} }
} }
/* FAIL */
MountNameList[pos].clear(); MountNameList[pos].clear();
return false; return false;
} }
void PartitionHandle::UnMount(int pos) void PartitionHandle::UnMount(int pos)
{ {
if(!interface) if(!interface || (pos >= (int)MountNameList.size()) || (MountNameList[pos].size() == 0))
return; return;
if(pos >= (int) MountNameList.size()) WBFS_Close();
return; const char *DeviceSyn = fmt("%s:", MountName(pos));
if(strncmp(GetFSName(pos), "WBFS", 4) == 0)
if(MountNameList[pos].size() == 0) {
return;
char DeviceSyn[20];
snprintf(DeviceSyn, sizeof(DeviceSyn), "%s:", MountNameList[pos].c_str());
wbfs_t *wbfshandle = GetWbfsHandle(pos); wbfs_t *wbfshandle = GetWbfsHandle(pos);
if(wbfshandle) wbfs_close(wbfshandle); if(wbfshandle) wbfs_close(wbfshandle);
SetWbfsHandle(pos, NULL); gprintf("WBFS Partition at %s unmounted.\n", DeviceSyn);
WBFS_Close(); }
else if(strncmp(GetFSName(pos), "FAT", 3) == 0)
//closing all open Files write back the cache {
fatUnmount(DeviceSyn); fatUnmount(DeviceSyn);
//closing all open Files write back the cache gprintf("FAT Partition at %s unmounted.\n", DeviceSyn);
}
else if(strncmp(GetFSName(pos), "NTFS", 4) == 0)
{
ntfsUnmount(DeviceSyn, true); ntfsUnmount(DeviceSyn, true);
//closing all open Files write back the cache gprintf("NTFS Partition at %s unmounted.\n", DeviceSyn);
}
else if(strncmp(GetFSName(pos), "LINUX", 5) == 0)
{
ext2Unmount(DeviceSyn); ext2Unmount(DeviceSyn);
//Remove name from list gprintf("EXT Partition at %s unmounted.\n", DeviceSyn);
}
/* Remove name from list */
MountNameList[pos].clear(); MountNameList[pos].clear();
SetWbfsHandle(pos, NULL);
} }
bool PartitionHandle::IsExisting(u64 lba) bool PartitionHandle::IsExisting(u64 lba)
@ -240,13 +242,23 @@ bool PartitionHandle::IsExisting(u64 lba)
s8 PartitionHandle::FindPartitions() s8 PartitionHandle::FindPartitions()
{ {
MASTER_BOOT_RECORD *mbr = (MASTER_BOOT_RECORD*)MEM2_alloc(MAX_BYTES_PER_SECTOR);
if(mbr == NULL)
return -1;
// Read the first sector on the device // Read the first sector on the device
if(!interface->readSectors(0, 1, mbr)) if(!interface->readSectors(0, 1, mbr))
{
MEM2_free(mbr);
return -1; return -1;
}
// If this is the devices master boot record // If this is the devices master boot record
if(mbr->signature != MBR_SIGNATURE) if(mbr->signature != MBR_SIGNATURE)
{
MEM2_free(mbr);
return -1; return -1;
}
for(u8 i = 0; i < 4; i++) for(u8 i = 0; i < 4; i++)
{ {
@ -269,22 +281,30 @@ s8 PartitionHandle::FindPartitions()
le32(partition->block_count), (partition->status == PARTITION_BOOTABLE), partition->type, i); le32(partition->block_count), (partition->status == PARTITION_BOOTABLE), partition->type, i);
} }
} }
MEM2_free(mbr);
return 0; return 0;
} }
void PartitionHandle::CheckEBR(u8 PartNum, sec_t ebr_lba) void PartitionHandle::CheckEBR(u8 PartNum, sec_t ebr_lba)
{ {
EXTENDED_BOOT_RECORD *ebr = (EXTENDED_BOOT_RECORD *)HeaderBuffer; EXTENDED_BOOT_RECORD *ebr = (EXTENDED_BOOT_RECORD*)MEM2_alloc(MAX_BYTES_PER_SECTOR);
if(ebr == NULL)
return;
sec_t next_erb_lba = 0; sec_t next_erb_lba = 0;
do do
{ {
// Read and validate the extended boot record // Read and validate the extended boot record
if(!interface->readSectors(ebr_lba + next_erb_lba, 1, ebr)) if(!interface->readSectors(ebr_lba + next_erb_lba, 1, ebr))
{
MEM2_free(ebr);
return; return;
}
if(ebr->signature != EBR_SIGNATURE) if(ebr->signature != EBR_SIGNATURE)
{
MEM2_free(ebr);
return; return;
}
if(le32(ebr->partition.block_count) > 0 && !IsExisting(ebr_lba + next_erb_lba + le32(ebr->partition.lba_start))) if(le32(ebr->partition.block_count) > 0 && !IsExisting(ebr_lba + next_erb_lba + le32(ebr->partition.lba_start)))
{ {
@ -296,6 +316,8 @@ void PartitionHandle::CheckEBR(u8 PartNum, sec_t ebr_lba)
next_erb_lba = le32(ebr->next_ebr.lba_start); next_erb_lba = le32(ebr->next_ebr.lba_start);
} }
while(next_erb_lba > 0); while(next_erb_lba > 0);
MEM2_free(ebr);
} }
static const u8 TYPE_UNUSED[16] = { 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00 }; static const u8 TYPE_UNUSED[16] = { 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00 };
@ -304,28 +326,42 @@ static const u8 TYPE_LINUX_MS_BASIC_DATA[16] = { 0xA2,0xA0,0xD0,0xEB,0xE5,0xB9,0
s8 PartitionHandle::CheckGPT(u8 PartNum) s8 PartitionHandle::CheckGPT(u8 PartNum)
{ {
GPT_HEADER *gpt_header = (GPT_HEADER *)HeaderBuffer; GPT_HEADER *gpt_header = (GPT_HEADER*)MEM2_alloc(MAX_BYTES_PER_SECTOR);
if(gpt_header == NULL)
return -1;
// Read and validate the extended boot record // Read and validate the extended boot record
if(!interface->readSectors(1, 1, gpt_header)) if(!interface->readSectors(1, 1, gpt_header))
{
MEM2_free(gpt_header);
return -1; return -1;
}
if(strncmp(gpt_header->magic, "EFI PART", 8) != 0) if(strncmp(gpt_header->magic, "EFI PART", 8) != 0)
{
MEM2_free(gpt_header);
return -1; return -1;
}
gpt_header->part_table_lba = le64(gpt_header->part_table_lba); gpt_header->part_table_lba = le64(gpt_header->part_table_lba);
gpt_header->part_entries = le32(gpt_header->part_entries); gpt_header->part_entries = le32(gpt_header->part_entries);
gpt_header->part_entry_size = le32(gpt_header->part_entry_size); gpt_header->part_entry_size = le32(gpt_header->part_entry_size);
gpt_header->part_entry_checksum = le32(gpt_header->part_entry_checksum); gpt_header->part_entry_checksum = le32(gpt_header->part_entry_checksum);
u8 *sector_buf = (u8*)MEM2_alloc(MAX_BYTES_PER_SECTOR);
if(sector_buf == NULL)
{
MEM2_free(gpt_header);
return -1;
}
u64 next_lba = gpt_header->part_table_lba; u64 next_lba = gpt_header->part_table_lba;
for(u32 i = 0; i < gpt_header->part_entries; ++i) for(u32 i = 0; i < gpt_header->part_entries; ++i)
{ {
if(!interface->readSectors(next_lba, 1, gpt_entry)) if(!interface->readSectors(next_lba, 1, sector_buf))
break; break;
for(u32 n = 0; n < BYTES_PER_SECTOR/gpt_header->part_entry_size; ++n, ++i) for(u32 n = 0; n < BYTES_PER_SECTOR/gpt_header->part_entry_size; ++n, ++i)
{ {
GUID_PART_ENTRY *part_entry = (gpt_entry + gpt_header->part_entry_size * n); GUID_PART_ENTRY *part_entry = (GUID_PART_ENTRY*)(sector_buf+gpt_header->part_entry_size*n);
if(memcmp(part_entry->part_type_guid, TYPE_UNUSED, 16) == 0) if(memcmp(part_entry->part_type_guid, TYPE_UNUSED, 16) == 0)
continue; continue;
@ -339,15 +375,24 @@ s8 PartitionHandle::CheckGPT(u8 PartNum)
} }
next_lba++; next_lba++;
} }
MEM2_free(sector_buf);
MEM2_free(gpt_header);
return 0; return 0;
} }
void PartitionHandle::AddPartition(const char *name, u64 lba_start, u64 sec_count, bool bootable, u8 part_type, u8 part_num) void PartitionHandle::AddPartition(const char *name, u64 lba_start, u64 sec_count, bool bootable, u8 part_type, u8 part_num)
{ {
if(!interface->readSectors(lba_start, 1, AddingBuffer)) u8 *buffer = (u8*)MEM2_alloc(MAX_BYTES_PER_SECTOR);
if(buffer == NULL)
return; return;
wbfs_head_t *head = (wbfs_head_t *)AddingBuffer; if(!interface->readSectors(lba_start, 1, buffer))
{
MEM2_free(buffer);
return;
}
wbfs_head_t *head = (wbfs_head_t*)buffer;
if(head->magic == wbfs_htonl(WBFS_MAGIC)) if(head->magic == wbfs_htonl(WBFS_MAGIC))
{ {
@ -356,16 +401,16 @@ void PartitionHandle::AddPartition(const char *name, u64 lba_start, u64 sec_coun
//! correct sector size in physical sectors (512 bytes per sector) //! correct sector size in physical sectors (512 bytes per sector)
sec_count = (u64) head->n_hd_sec * (u64) (1 << head->hd_sec_sz_s) / (u64) BYTES_PER_SECTOR; sec_count = (u64) head->n_hd_sec * (u64) (1 << head->hd_sec_sz_s) / (u64) BYTES_PER_SECTOR;
} }
else if(*((u16 *) (AddingBuffer + 0x1FE)) == 0x55AA) else if(*((u16 *)(buffer + 0x1FE)) == 0x55AA)
{ {
//! Partition typ can be missleading the correct partition format. Stupid lazy ass Partition Editors. //! Partition type can be missleading the correct partition format. Stupid lazy ass Partition Editors.
if((memcmp(AddingBuffer + 0x36, "FAT", 3) == 0 || memcmp(AddingBuffer + 0x52, "FAT", 3) == 0) && if((memcmp(buffer + 0x36, "FAT", 3) == 0 || memcmp(buffer + 0x52, "FAT", 3) == 0) &&
strncmp(PartFromType(part_type), "FAT", 3) != 0) strncmp(PartFromType(part_type), "FAT", 3) != 0)
{ {
name = "FAT32"; name = "FAT32";
part_type = 0x0c; part_type = 0x0c;
} }
if (memcmp(AddingBuffer + 0x03, "NTFS", 4) == 0) if(memcmp(buffer + 0x03, "NTFS", 4) == 0)
{ {
name = "NTFS"; name = "NTFS";
part_type = 0x07; part_type = 0x07;
@ -379,8 +424,8 @@ void PartitionHandle::AddPartition(const char *name, u64 lba_start, u64 sec_coun
PartitionEntry.Bootable = bootable; PartitionEntry.Bootable = bootable;
PartitionEntry.PartitionType = part_type; PartitionEntry.PartitionType = part_type;
PartitionEntry.PartitionNum = part_num; PartitionEntry.PartitionNum = part_num;
gprintf("Found a %s Partition with the number %i\n", name, part_num);
PartitionList.push_back(PartitionEntry); PartitionList.push_back(PartitionEntry);
MEM2_free(buffer);
} }
wbfs_t *PartitionHandle::GetWbfsHandle(int pos) wbfs_t *PartitionHandle::GetWbfsHandle(int pos)

View File

@ -31,6 +31,8 @@
#include "cios.h" #include "cios.h"
#include "alt_ios.h" #include "alt_ios.h"
#include "utils.h" #include "utils.h"
#include "sys.h"
#include "nk.h"
#include "fs.h" #include "fs.h"
#include "mload.h" #include "mload.h"
#include "gecko/gecko.h" #include "gecko/gecko.h"
@ -116,6 +118,11 @@ bool IOS_D2X(u8 ios, u8 *base)
u8 IOS_GetType(u8 slot) u8 IOS_GetType(u8 slot)
{ {
/* No more checks needed */
if(neek2o() || Sys_DolphinMode())
return IOS_TYPE_NEEK2O;
/* Lets do this */
u32 TMD_Length; u32 TMD_Length;
signed_blob *TMD_Buffer = GetTMD(slot, &TMD_Length); signed_blob *TMD_Buffer = GetTMD(slot, &TMD_Length);
if(TMD_Buffer == NULL) if(TMD_Buffer == NULL)
@ -129,7 +136,6 @@ u8 IOS_GetType(u8 slot)
} }
u32 title_rev = iosTMD->title_version; u32 title_rev = iosTMD->title_version;
MEM2_free(TMD_Buffer); MEM2_free(TMD_Buffer);
iosTMD = NULL;
u8 base = 0; u8 base = 0;
switch(slot) switch(slot)
@ -196,6 +202,8 @@ void IOS_GetCurrentIOSInfo()
gprintf("Hermes IOS%i[%i] v%d.%d\n", CurrentIOS.Version, CurrentIOS.Base, gprintf("Hermes IOS%i[%i] v%d.%d\n", CurrentIOS.Version, CurrentIOS.Base,
CurrentIOS.Revision, CurrentIOS.SubRevision); CurrentIOS.Revision, CurrentIOS.SubRevision);
} }
else
gprintf("IOS%i v%i\n", CurrentIOS.Version, CurrentIOS.Revision);
DCFlushRange(&CurrentIOS, sizeof(IOS_Info)); DCFlushRange(&CurrentIOS, sizeof(IOS_Info));
} }

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@ -64,26 +64,12 @@ int main(int argc, char **argv)
NandHandle.Init_ISFS(); NandHandle.Init_ISFS();
/* Handle (c)IOS Loading */ /* Handle (c)IOS Loading */
if(neek2o() || Sys_DolphinMode()) if(neek2o() || Sys_DolphinMode())
{ iosOK = loadIOS(IOS_GetVersion(), false);
iosOK = true;
memset(&CurrentIOS, 0, sizeof(IOS_Info));
CurrentIOS.Version = 254;
CurrentIOS.Type = IOS_TYPE_NEEK2O;
CurrentIOS.Base = 254;
CurrentIOS.Revision = 999;
DCFlushRange(&CurrentIOS, sizeof(IOS_Info));
DeviceHandle.SetModes();
}
else if(AHBRPOT_Patched() && IOS_GetVersion() == 58) else if(AHBRPOT_Patched() && IOS_GetVersion() == 58)
{
gprintf("AHBPROT patched out, use IOS58\n");
iosOK = loadIOS(58, false); iosOK = loadIOS(58, false);
} else /* cIOS wanted */
else
{
gprintf("Loading cIOS: %d\n", mainIOS);
iosOK = loadIOS(mainIOS, false) && CustomIOS(CurrentIOS.Type); iosOK = loadIOS(mainIOS, false) && CustomIOS(CurrentIOS.Type);
}
// Init // Init
Sys_Init(); Sys_Init();
Sys_ExitTo(EXIT_TO_HBC); Sys_ExitTo(EXIT_TO_HBC);