+/*
+ * Acess2 Logical Volume Manager
+ * - By John Hodge (thePowersGang)
+ *
+ * volumes.c
+ * - Volume management
+ */
+#define DEBUG 1
+#include "lvm_int.h"
+
+// === PROTOTYPES ===
+ int LVM_int_VFSReadEmul(void *Arg, Uint64 BlockStart, size_t BlockCount, void *Dest);
+ int LVM_int_VFSWriteEmul(void *Arg, Uint64 BlockStart, size_t BlockCount, const void *Source);
+
+// === CODE ===
+// --------------------------------------------------------------------
+// Managment / Initialisation
+// --------------------------------------------------------------------
+int LVM_AddVolumeVFS(const char *Name, int FD)
+{
+ // Assuming 512-byte blocks, not a good idea
+// return LVM_AddVolume(Name, (void*)(Uint)FD, 512, LVM_int_VFSReadEmul, LVM_int_VFSWriteEmul);
+ return 0;
+}
+
+int LVM_AddVolume(const tLVM_VolType *Type, const char *Name, void *Ptr, size_t BlockSize, size_t BlockCount)
+{
+ tLVM_Vol dummy_vol;
+ tLVM_Vol *real_vol;
+ tLVM_Format *fmt;
+ void *first_block;
+
+ if( BlockCount == 0 || BlockSize == 0 ) {
+ Log_Error("LVM", "BlockSize(0x%x)/BlockCount(0x%x) invalid in LVM_AddVolume",
+ BlockSize, BlockCount);
+ return 1;
+ }
+
+ dummy_vol.Type = Type;
+ dummy_vol.Ptr = Ptr;
+ dummy_vol.BlockCount = BlockCount;
+ dummy_vol.BlockSize = BlockSize;
+
+ // Read the first block of the volume
+ first_block = malloc(BlockSize);
+ if( !first_block ) {
+ Log_Error("VLM", "LVM_AddVolume - malloc error on %i bytes", BlockSize);
+ return -1;
+ }
+ Type->Read(Ptr, 0, 1, first_block);
+
+ // Determine Format
+ // TODO: Determine format
+ fmt = &gLVM_MBRType;
+
+ // Type->CountSubvolumes
+ dummy_vol.nSubVolumes = fmt->CountSubvolumes(&dummy_vol, first_block);
+
+ // Create real volume descriptor
+ // TODO: If this needs to be rescanned later, having the subvolume list separate might be an idea
+ real_vol = malloc( sizeof(tLVM_Vol) + strlen(Name) + 1 + sizeof(tLVM_SubVolume*) * dummy_vol.nSubVolumes );
+ real_vol->Next = NULL;
+ real_vol->Type = Type;
+ real_vol->Ptr = Ptr;
+ real_vol->BlockSize = BlockSize;
+ real_vol->BlockCount = BlockCount;
+ real_vol->nSubVolumes = dummy_vol.nSubVolumes;
+ real_vol->SubVolumes = (void*)( real_vol->Name + strlen(Name) + 1 );
+ real_vol->BlockSize = BlockSize;
+ strcpy(real_vol->Name, Name);
+ memset(real_vol->SubVolumes, 0, sizeof(tLVM_SubVolume*) * real_vol->nSubVolumes);
+ // - VFS Nodes
+ memset(&real_vol->DirNode, 0, sizeof(tVFS_Node));
+ real_vol->DirNode.Type = &gLVM_VolNodeType;
+ real_vol->DirNode.ImplPtr = real_vol;
+ real_vol->DirNode.Flags = VFS_FFLAG_DIRECTORY;
+ real_vol->DirNode.Size = -1;
+ memset(&real_vol->VolNode, 0, sizeof(tVFS_Node));
+ real_vol->VolNode.Type = &gLVM_VolNodeType;
+ real_vol->VolNode.ImplPtr = real_vol;
+ real_vol->VolNode.Size = BlockCount * BlockSize;
+
+ // Type->PopulateSubvolumes
+ fmt->PopulateSubvolumes(real_vol, first_block);
+ free(first_block);
+
+ // Add to volume list
+ gpLVM_LastVolume->Next = real_vol;
+ gpLVM_LastVolume = real_vol;
+
+ return 0;
+}
+
+void LVM_int_SetSubvolume_Anon(tLVM_Vol *Volume, int Index, Uint64 FirstBlock, Uint64 BlockCount)
+{
+ tLVM_SubVolume *sv;
+ int namelen;
+
+ if( Index < 0 || Index >= Volume->nSubVolumes ) {
+ Log_Warning("LVM", "SV ID is out of range (0 < %i < %i)",
+ Index, Volume->nSubVolumes);
+ return ;
+ }
+
+ if( Volume->SubVolumes[Index] ) {
+ Log_Warning("LVM", "Attempt to set SV %i of %p twice", Index, Volume);
+ return ;
+ }
+
+ namelen = snprintf(NULL, 0, "%i", Index);
+
+ sv = malloc( sizeof(tLVM_SubVolume) + namelen + 1 );
+ if(!sv) {
+ // Oh, f*ck
+ return ;
+ }
+ Volume->SubVolumes[Index] = sv;
+
+ sv->Vol = Volume;
+ sprintf(sv->Name, "%i", Index);
+ sv->FirstBlock = FirstBlock;
+ sv->BlockCount = BlockCount;
+ memset(&sv->Node, 0, sizeof(tVFS_Node));
+
+ sv->Node.ImplPtr = sv;
+ sv->Node.Type = &gLVM_SubVolNodeType;
+ sv->Node.Size = BlockCount * Volume->BlockSize;
+
+ Log_Log("LVM", "Partition %s/%s - 0x%llx+0x%llx blocks",
+ Volume->Name, sv->Name, FirstBlock, BlockCount);
+}
+
+// --------------------------------------------------------------------
+// IO
+// --------------------------------------------------------------------
+size_t LVM_int_ReadVolume(tLVM_Vol *Volume, Uint64 BlockNum, size_t BlockCount, void *Dest)
+{
+ return Volume->Type->Read(Volume->Ptr, BlockNum, BlockCount, Dest);
+}
+
+size_t LVM_int_WriteVolume(tLVM_Vol *Volume, Uint64 BlockNum, size_t BlockCount, const void *Src)
+{
+ return Volume->Type->Write(Volume->Ptr, BlockNum, BlockCount, Src);
+}
+
+int LVM_int_VFSReadEmul(void *Arg, Uint64 BlockStart, size_t BlockCount, void *Dest)
+{
+ size_t blocksize;
+ size_t rv;
+
+ blocksize = 512; // TODO: Don't assume
+
+ rv = VFS_ReadAt( (int)(Uint)Arg, BlockStart * blocksize, BlockCount * blocksize, Dest );
+ rv /= blocksize;
+ return rv;
+}
+
+int LVM_int_VFSWriteEmul(void *Arg, Uint64 BlockStart, size_t BlockCount, const void *Source)
+{
+ size_t blocksize;
+ size_t rv;
+
+ blocksize = 512; // TODO: Don't assume
+
+ rv = VFS_WriteAt( (int)(Uint)Arg, BlockStart * blocksize, BlockCount * blocksize, Source );
+ rv /= blocksize;
+ return rv;
+}
+
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