/* * super.c * * Copyright (C) 1995-1997, 1999 Martin von Löwis * Copyright (C) 1996-1997 Régis Duchesne * Copyright (C) 1999 Steve Dodd * Copyright (C) 2000 Anton Altparmakov */ #include "ntfstypes.h" #include "struct.h" #include "super.h" #include #include "macros.h" #include "inode.h" #include "support.h" #include "util.h" /* * All important structures in NTFS use 2 consistency checks : * . a magic structure identifier (FILE, INDX, RSTR, RCRD...) * . a fixup technique : the last word of each sector (called a fixup) of a * structure's record should end with the word at offset of the first * sector, and if it is the case, must be replaced with the words following * . The value of and the number of fixups is taken from the fields * at the offsets 4 and 6. * * This function perform these 2 checks, and _fails_ if : * . the magic identifier is wrong * . the size is given and does not match the number of sectors * . a fixup is invalid */ int ntfs_fixup_record(ntfs_volume *vol, char *record, char *magic, int size) { int start, count, offset; ntfs_u16 fixup; if(!IS_MAGIC(record,magic)) return 0; start=NTFS_GETU16(record+4); count=NTFS_GETU16(record+6); count--; if(size && vol->blocksize*count != size) return 0; fixup = NTFS_GETU16(record+start); start+=2; offset=vol->blocksize-2; while(count--){ if(NTFS_GETU16(record+offset)!=fixup) return 0; NTFS_PUTU16(record+offset, NTFS_GETU16(record+start)); start+=2; offset+=vol->blocksize; } return 1; } /* Get vital informations about the ntfs partition from the boot sector */ int ntfs_init_volume(ntfs_volume *vol,char *boot) { /* Historical default values, in case we don't load $AttrDef */ vol->at_standard_information=0x10; vol->at_attribute_list=0x20; vol->at_file_name=0x30; vol->at_volume_version=0x40; vol->at_security_descriptor=0x50; vol->at_volume_name=0x60; vol->at_volume_information=0x70; vol->at_data=0x80; vol->at_index_root=0x90; vol->at_index_allocation=0xA0; vol->at_bitmap=0xB0; vol->at_symlink=0xC0; /* Sector size */ vol->blocksize=NTFS_GETU16(boot+0xB); vol->clusterfactor=NTFS_GETU8(boot+0xD); vol->mft_clusters_per_record=NTFS_GETS8(boot+0x40); vol->index_clusters_per_record=NTFS_GETS8(boot+0x44); /* Just some consistency checks */ if(NTFS_GETU32(boot+0x40)>256) ntfs_error("Unexpected data #1 in boot block\n"); if(NTFS_GETU32(boot+0x44)>256) ntfs_error("Unexpected data #2 in boot block\n"); if(vol->index_clusters_per_record<0){ ntfs_error("Unexpected data #3 in boot block\n"); /* If this really means a fraction, setting it to 1 should be safe. */ vol->index_clusters_per_record=1; } /* in some cases, 0xF6 meant 1024 bytes. Other strange values have not been observed */ if(vol->mft_clusters_per_record<0 && vol->mft_clusters_per_record!=-10) ntfs_error("Unexpected data #4 in boot block\n"); vol->clustersize=vol->blocksize*vol->clusterfactor; if(vol->mft_clusters_per_record>0) vol->mft_recordsize= vol->clustersize*vol->mft_clusters_per_record; else vol->mft_recordsize=1<<(-vol->mft_clusters_per_record); vol->index_recordsize=vol->clustersize*vol->index_clusters_per_record; /* FIXME: long long value */ vol->mft_cluster=NTFS_GETU64(boot+0x30); /* This will be initialized later */ vol->upcase=0; vol->upcase_length=0; vol->mft_ino=0; return 0; } static void ntfs_init_upcase(ntfs_inode *upcase) { ntfs_io io; #define UPCASE_LENGTH 256 upcase->vol->upcase = ntfs_malloc(2*UPCASE_LENGTH); if( !upcase->vol->upcase ) return; io.fn_put=ntfs_put; io.fn_get=0; io.param=(char*)upcase->vol->upcase; io.size=2*UPCASE_LENGTH; ntfs_read_attr(upcase,upcase->vol->at_data,0,0,&io); upcase->vol->upcase_length = io.size; } static int process_attrdef(ntfs_inode* attrdef,ntfs_u8* def) { int type = NTFS_GETU32(def+0x80); int check_type = 0; ntfs_volume *vol=attrdef->vol; ntfs_u16* name = (ntfs_u16*)def; if(ntfs_ua_strncmp(name,"$STANDARD_INFORMATION",64)==0){ vol->at_standard_information=type; check_type=0x10; }else if(ntfs_ua_strncmp(name,"$ATTRIBUTE_LIST",64)==0){ vol->at_attribute_list=type; check_type=0x20; }else if(ntfs_ua_strncmp(name,"$FILE_NAME",64)==0){ vol->at_file_name=type; check_type=0x30; }else if(ntfs_ua_strncmp(name,"$VOLUME_VERSION",64)==0){ vol->at_volume_version=type; check_type=0x40; }else if(ntfs_ua_strncmp(name,"$SECURITY_DESCRIPTOR",64)==0){ vol->at_security_descriptor=type; check_type=0x50; }else if(ntfs_ua_strncmp(name,"$VOLUME_NAME",64)==0){ vol->at_volume_name=type; check_type=0x60; }else if(ntfs_ua_strncmp(name,"$VOLUME_INFORMATION",64)==0){ vol->at_volume_information=type; check_type=0x70; }else if(ntfs_ua_strncmp(name,"$DATA",64)==0){ vol->at_data=type; check_type=0x80; }else if(ntfs_ua_strncmp(name,"$INDEX_ROOT",64)==0){ vol->at_index_root=type; check_type=0x90; }else if(ntfs_ua_strncmp(name,"$INDEX_ALLOCATION",64)==0){ vol->at_index_allocation=type; check_type=0xA0; }else if(ntfs_ua_strncmp(name,"$BITMAP",64)==0){ vol->at_bitmap=type; check_type=0xB0; }else if(ntfs_ua_strncmp(name,"$SYMBOLIC_LINK",64)==0 || ntfs_ua_strncmp(name,"$REPARSE_POINT",64)==0){ vol->at_symlink=type; check_type=0xC0; } if(check_type && check_type!=type){ ntfs_error("Unexpected type %x for %x\n",type,check_type); return EINVAL; } return 0; } int ntfs_init_attrdef(ntfs_inode* attrdef) { ntfs_u8 *buf; ntfs_io io; int offset,error,i; ntfs_attribute *data; buf=ntfs_malloc(4050); /* 90*45 */ if(!buf)return ENOMEM; io.fn_put=ntfs_put; io.fn_get=ntfs_get; io.do_read=1; offset=0; data=ntfs_find_attr(attrdef,attrdef->vol->at_data,0); if(!data){ ntfs_free(buf); return EINVAL; } do{ io.param=buf; io.size=4050; error=ntfs_readwrite_attr(attrdef,data,offset,&io); for(i=0;!error && ivol->at_volume_information, 0); if (!volinfo) return -EINVAL; if (!volinfo->resident) { ntfs_error("Volume information attribute is not resident!\n"); return -EINVAL; } return ((ntfs_u8*)volinfo->d.data)[8] << 8 | ((ntfs_u8*)volinfo->d.data)[9]; } int ntfs_load_special_files(ntfs_volume *vol) { int error; ntfs_inode upcase, attrdef, volume; vol->mft_ino=(ntfs_inode*)ntfs_calloc(3*sizeof(ntfs_inode)); error=ENOMEM; ntfs_debug(DEBUG_BSD,"Going to load MFT\n"); if(!vol->mft_ino || (error=ntfs_init_inode(vol->mft_ino,vol,FILE_MFT))) { ntfs_error("Problem loading MFT\n"); return error; } ntfs_debug(DEBUG_BSD,"Going to load MIRR\n"); vol->mftmirr=vol->mft_ino+1; if((error=ntfs_init_inode(vol->mftmirr,vol,FILE_MFTMIRR))){ ntfs_error("Problem %d loading MFTMirr\n",error); return error; } ntfs_debug(DEBUG_BSD,"Going to load BITMAP\n"); vol->bitmap=vol->mft_ino+2; if((error=ntfs_init_inode(vol->bitmap,vol,FILE_BITMAP))){ ntfs_error("Problem loading Bitmap\n"); return error; } ntfs_debug(DEBUG_BSD,"Going to load UPCASE\n"); error=ntfs_init_inode(&upcase,vol,FILE_UPCASE); if(error)return error; ntfs_init_upcase(&upcase); ntfs_clear_inode(&upcase); ntfs_debug(DEBUG_BSD,"Going to load ATTRDEF\n"); error=ntfs_init_inode(&attrdef,vol,FILE_ATTRDEF); if(error)return error; error=ntfs_init_attrdef(&attrdef); ntfs_clear_inode(&attrdef); if(error)return error; /* Check for NTFS version and if Win2k version (ie. 3.0+) do not allow write access since the driver write support is broken, especially for Win2k. */ ntfs_debug(DEBUG_BSD,"Going to load VOLUME\n"); error = ntfs_init_inode(&volume,vol,FILE_VOLUME); if (error) return error; if ((error = ntfs_get_version(&volume)) >= 0x0300) { NTFS_SB(vol)->s_flags |= MS_RDONLY; ntfs_error("Warning! NTFS volume version is Win2k+: Mounting read-only\n"); } ntfs_clear_inode(&volume); if (error < 0) return error; ntfs_debug(DEBUG_BSD, "NTFS volume is version %d.%d\n", error >> 8, error & 0xff); return 0; } int ntfs_release_volume(ntfs_volume *vol) { if(vol->mft_ino){ ntfs_clear_inode(vol->mft_ino); ntfs_clear_inode(vol->mftmirr); ntfs_clear_inode(vol->bitmap); ntfs_free(vol->mft_ino); vol->mft_ino=0; } ntfs_free(vol->mft); ntfs_free(vol->upcase); return 0; } /* * Writes the volume size into vol_size. Returns 0 if successful * or error. */ int ntfs_get_volumesize(ntfs_volume *vol, ntfs_u64 *vol_size ) { ntfs_io io; char *cluster0; if( !vol_size ) return EFAULT; cluster0=ntfs_malloc(vol->clustersize); if( !cluster0 ) return ENOMEM; io.fn_put=ntfs_put; io.fn_get=ntfs_get; io.param=cluster0; io.do_read=1; io.size=vol->clustersize; ntfs_getput_clusters(vol,0,0,&io); *vol_size = NTFS_GETU64(cluster0+0x28); ntfs_free(cluster0); return 0; } static int nc[16]={4,3,3,2,3,2,2,1,3,2,2,1,2,1,1,0}; int ntfs_get_free_cluster_count(ntfs_inode *bitmap) { unsigned char bits[2048]; int offset,error; int clusters=0; ntfs_io io; offset=0; io.fn_put=ntfs_put; io.fn_get=ntfs_get; while(1) { register int i; io.param=bits; io.size=2048; error=ntfs_read_attr(bitmap,bitmap->vol->at_data,0, offset,&io); if(error || io.size==0)break; /* I never thought I would do loop unrolling some day */ for(i=0;i>4];clusters+=nc[bits[i++] & 0xF]; clusters+=nc[bits[i]>>4];clusters+=nc[bits[i++] & 0xF]; clusters+=nc[bits[i]>>4];clusters+=nc[bits[i++] & 0xF]; clusters+=nc[bits[i]>>4];clusters+=nc[bits[i++] & 0xF]; clusters+=nc[bits[i]>>4];clusters+=nc[bits[i++] & 0xF]; clusters+=nc[bits[i]>>4];clusters+=nc[bits[i++] & 0xF]; clusters+=nc[bits[i]>>4];clusters+=nc[bits[i++] & 0xF]; clusters+=nc[bits[i]>>4];clusters+=nc[bits[i++] & 0xF]; } for(;i>4];clusters+=nc[bits[i++] & 0xF]; } offset+=io.size; } return clusters; } /* Insert the fixups for the record. The number and location of the fixes is obtained from the record header */ void ntfs_insert_fixups(unsigned char *rec, int secsize) { int first=NTFS_GETU16(rec+4); int count=NTFS_GETU16(rec+6); int offset=-2; ntfs_u16 fix=NTFS_GETU16(rec+first); fix=fix+1; NTFS_PUTU16(rec+first,fix); count--; while(count--){ first+=2; offset+=secsize; NTFS_PUTU16(rec+first,NTFS_GETU16(rec+offset)); NTFS_PUTU16(rec+offset,fix); }; } /* search the bitmap bits of l bytes for *cnt zero bits. Return the bit number in *loc, which is initially set to the number of the first bit. Return the largest block found in *cnt. Return 0 on success, ENOSPC if all bits are used */ static int search_bits(unsigned char* bits,ntfs_cluster_t *loc,int *cnt,int l) { unsigned char c=0; int bc=0; int bstart=0,bstop=0,found=0; int start,stop=0,in=0; /* special case searching for a single block */ if(*cnt==1){ while(l && *bits==0xFF){ bits++; *loc+=8; l--; } if(!l)return ENOSPC; for(c=*bits;c & 1;c>>=1) (*loc)++; return 0; } start=*loc; while(l || bc){ if(bc==0){ c=*bits; if(l){ l--;bits++; } bc=8; } if(in){ if((c&1)==0) stop++; else{ /* end of sequence of zeroes */ in=0; if(!found || bstop-bstart*cnt) break; } start=stop+1; } }else{ if(c&1) start++; else{ /*start of sequence*/ in=1; stop=start+1; } } bc--; c>>=1; } if(in && (!found || bstop-bstartbstop-bstart) *cnt=bstop-bstart; return 0; } int ntfs_set_bitrange(ntfs_inode* bitmap,ntfs_cluster_t loc,int cnt,int bit) { int bsize,locit,error; unsigned char *bits,*it; ntfs_io io; io.fn_put=ntfs_put; io.fn_get=ntfs_get; bsize=(cnt+(loc & 7)+7) >> 3; /* round up to multiple of 8*/ bits=ntfs_malloc(bsize); io.param=bits; io.size=bsize; if(!bits) return ENOMEM; error=ntfs_read_attr(bitmap,bitmap->vol->at_data,0,loc>>3,&io); if(error || io.size!=bsize){ ntfs_free(bits); return error?error:EIO; } /* now set the bits */ it=bits; locit=loc; while(locit%8 && cnt){ /* process first byte */ if(bit) *it |= 1<<(locit%8); else *it &= ~(1<<(locit%8)); cnt--;locit++; if(locit%8==0) it++; } while(cnt>8){ /*process full bytes */ *it= bit ? 0xFF : 0; cnt-=8; locit+=8; it++; } while(cnt){ /*process last byte */ if(bit) *it |= 1<<(locit%8); else *it &= ~(1<<(locit%8)); cnt--;locit++; } /* reset to start */ io.param=bits; io.size=bsize; error=ntfs_write_attr(bitmap,bitmap->vol->at_data,0,loc>>3,&io); ntfs_free(bits); if(error)return error; if(io.size!=bsize) return EIO; return 0; } /* allocate count clusters around location. If location is -1, it does not matter where the clusters are. Result is 0 if success, in which case location and count says what they really got */ int ntfs_search_bits(ntfs_inode* bitmap, ntfs_cluster_t *location, int *count, int flags) { unsigned char *bits; ntfs_io io; int error=0,found=0; int cnt,bloc=-1,bcnt=0; int start; ntfs_cluster_t loc; bits=ntfs_malloc(2048); if( !bits ) return ENOMEM; io.fn_put=ntfs_put; io.fn_get=ntfs_get; io.param=bits; /* first search within +/- 8192 clusters */ start=*location>>3; start= start>1024 ? start-1024 : 0; io.size=2048; error=ntfs_read_attr(bitmap,bitmap->vol->at_data,0,start,&io); if(error)goto fail; loc=start*8; cnt=*count; error=search_bits(bits,&loc,&cnt,io.size); if(error) goto fail; if(*count==cnt){ bloc=loc; bcnt=cnt; goto success; } /* now search from the beginning */ for(start=0;1;start+=2048) { io.param=bits; io.size=2048; error=ntfs_read_attr(bitmap,bitmap->vol->at_data, 0,start,&io); if(error)goto fail; if(io.size==0){ if(found) goto success; else{ error=ENOSPC; goto fail; } } loc=start*8; cnt=*count; error=search_bits(bits,&loc,&cnt,io.size); if(error) goto fail; if(*count==cnt) goto success; if(bcntbitmap,location,count,flags); return error; } int ntfs_deallocate_clusters(ntfs_volume *vol, ntfs_cluster_t location, int count) { int error; error=ntfs_set_bitrange(vol->bitmap,location,count,0); return error; } /* * Local variables: * c-file-style: "linux" * End: */