static int crypt_opt( const struct_opts * opts,uid_t uid,int opt )
{
string_t q = StringVoid ;
string_t p = StringVoid ;
int st ;
const char * source = opts->device ;
const char * dest = opts->m_opts ;
const char * passphrase = opts->key ;
const char * type = opts->key_source ;
return zuluExit( 16 ) ;
if( dest == NULL ){
return zuluExit( 9 ) ;
}
if( source == NULL ){
return zuluExit( 14 ) ;
}
/*
* zuluCryptPathStartsWith() is defined in real_path.c
*/
if( zuluCryptPathStartsWith( dest,"/dev/" ) ){
return zuluExit( 10 ) ;
}
if( zuluCryptPathStartsWith( source,"/dev/" ) ){
return zuluExit( 15 ) ;
}
/*
* zuluCryptPathIsValid() is defined in ../lib/is_path_valid.c
*/
if( zuluCryptPathIsValid( dest ) ){
return zuluExit( 5 ) ;
}
/*
* zuluCryptPathIsNotValid() is defined in ../lib/is_path_valid.c
*/
if( zuluCryptPathIsNotValid( source ) ){
return zuluExit( 6 ) ;
}
/*
* below two functions are defined in path_access.c
*/
if( zuluCryptCanOpenPathForWriting( dest,uid ) == 1 ){
return zuluExit( 10 ) ;
}
if( zuluCryptCanOpenPathForReading( source,uid ) == 1 ){
return zuluExit( 15 ) ;
}
if( type == NULL ){
printf( gettext( "Enter passphrase: " ) ) ;
/*
* ZULUCRYPT_KEY_MAX_SIZE is set in ../constants.h
*/
switch( StringSilentlyGetFromTerminal_1( &p,ZULUCRYPT_KEY_MAX_SIZE ) ){
case 1 : return zuluExit( 12 ) ;
case 2 : return zuluExit( 13 ) ;
}
printf( gettext( "\nRe enter passphrase: " ) ) ;
switch( StringSilentlyGetFromTerminal_1( &q,ZULUCRYPT_KEY_MAX_SIZE ) ){
case 1 : StringClearDelete( &p ) ;
return zuluExit( 12 ) ;
case 2 : StringClearDelete( &p ) ;
return zuluExit( 13 ) ;
}
printf( "\n" ) ;
if( !StringEqualString( p,q ) ){
StringClearDelete( &p ) ;
StringClearDelete( &q ) ;
return zuluExit( 8 ) ;
}else{
StringDelete( &q ) ;
}
}else{
if( type == NULL ){
return zuluExit( 9 ) ;
}
if( StringsAreEqual( type,"-p" ) ){
p = String( passphrase ) ;
}else if( StringsAreEqual( type,"-f" ) ){
p = StringGetFromFile( passphrase ) ;
if( p == NULL ){
return zuluExit( 2 ) ;
}
}else{
return zuluExit( 3 ) ;
}
}
if( opt == ENCRYPT ){
/*
* zuluCryptEncryptFile() is defined in ./crypt_file.c
*/
st = zuluCryptEncryptFile( source,dest,StringContent( p ),StringLength( p ) ) ;
}else{
/*
* zuluCryptDecryptFile() is defined in ./crypt_file.c
*/
st = zuluCryptDecryptFile( source,dest,StringContent( p ),StringLength( p ) ) ;
}
StringClearDelete( &p ) ;
switch( st ){
case 1 : return zuluExit( 4 ) ;
case 2 : return zuluExit( 11 ) ;
}
chmod( dest,S_IRUSR | S_IWUSR ) ;
chown( dest,uid,uid ) ;
if( opt == 1 ){
return zuluExit( 1 ) ;
}else{
return zuluExit( 0 ) ;
}
}
int zuluCryptEXEOpenVolume( const struct_opts * opts,const char * mapping_name,uid_t uid )
{
int share = opts->share ;
int open_mount = opts->open_mount ;
const char * device = opts->device ;
const char * mount_point = opts->mount_point ;
const char * m_opts = opts->m_opts ;
const char * source = opts->key_source ;
const char * pass = opts->key ;
const char * plugin_path = opts->plugin_path ;
const char * fs_opts = opts->fs_opts ;
const char * offset = opts->offset ;
const char * const * tcrypt_keyfiles = opts->tcrypt_multiple_keyfiles ;
/*
* Below is a form of memory management.All strings are collected in a stringlist object to easily delete them
* when the function returns.This allows for the function to have multiple exit points without risks of leaking
* memory from manually examining each exit point to make sure all strings are deleted or go with multiple goto
* code deleting blocks to take into account different exit points.
*/
stringList_t stl ;
string_t * stringArray = StringListArray( &stl,6 ) ;
string_t * passphrase = &stringArray[ 0 ] ;
string_t * m_name = &stringArray[ 1 ] ;
string_t * data = &stringArray[ 2 ] ;
string_t * m_point = &stringArray[ 3 ] ;
string_t * mapper = &stringArray[ 4 ] ;
string_t * mapper_path = &stringArray[ 5 ] ;
const char * key = NULL ;
const char * mapper_name ;
const char * e ;
size_t key_len = 0 ;
int st = 0 ;
stringList_t stz ;
tvcrypt v_info ;
unsigned long m_flags ;
int tcrypt_keyfile = 0 ;
const char * uuid ;
char * device_path ;
/*
* open_struct_t is declared in ../lib/include.h
*/
open_struct_t volume ;
struct stat statstr ;
/*
* zuluCryptVolumeIsInSystemVolumeList() is defined in volumes.c
*/
if( zuluCryptVolumeIsInSystemVolumeList( device ) ){
/*
* check permissions only if volume is explicity mentioned as system.
* This is an exception to avoid some udev bad behaviors on udev enabled build
*/
if( !zuluCryptUserIsAMemberOfAGroup( uid,"zulucrypt" ) ){
return zuluExit( 22,device,mount_point,stl ) ;
}
}
if( m_opts == NULL ){
m_opts = "rw" ;
}
/*
* zuluCryptMountFlagsAreNotCorrect() is defined in ./mount_flags.c
*/
if( zuluCryptMountFlagsAreNotCorrect( m_opts,uid,&m_flags ) ){
return zuluExit( 5,device,mount_point,stl ) ;
}
if( StringHasComponent( m_opts,"rw" ) ){
/*
* zuluCryptSecurityDeviceIsWritable() is defined in path_access.c
*/
st = zuluCryptCanOpenPathForWriting( device,uid ) ;
}else{
/*
* zuluCryptSecurityDeviceIsReadable() is defined in path_access.c
*/
st = zuluCryptCanOpenPathForReading( device,uid ) ;
}
/*
* 1-permissions denied
* 2-invalid path
* 3-shenanigans
* 4-common error
*/
switch( st ){
case 0 : break ;
case 1 : return zuluExit( 6,device,mount_point,stl ) ;
case 2 : return zuluExit( 6,device,mount_point,stl ) ;
case 3 : return zuluExit( 6,device,mount_point,stl ) ;
case 4 : return zuluExit( 6,device,mount_point,stl ) ;
default: return zuluExit( 6,device,mount_point,stl ) ;
}
if( open_mount ){
/*
* zuluCryptCreateMountPoint() is defined in create_mount_point.c
*/
*m_point = zuluCryptCreateMountPoint( device,mount_point,m_opts,uid ) ;
mount_point = StringContent( *m_point ) ;
if( mount_point == NULL ){
return zuluExit( 9,device,mount_point,stl ) ;
}
}else{
if( uid != 0 ){
return zuluExit( 7,device,mount_point,stl ) ;
}
if( mount_point != NULL ){
return zuluExit( 8,device,mount_point,stl ) ;
}
}
if( share ){
/*
* zuluCryptBindSharedMountPointPathTaken() is defined in bind.c
*/
if( zuluCryptBindSharedMountPointPathTaken( *m_point ) ){
return zuluExit_1( 10,opts,device,mount_point,stl ) ;
}
}
/*
* zuluCryptCreateMapperName() is defined in ../lib/create_mapper_name.c
*/
*m_name = zuluCryptCreateMapperName( device,mapping_name,uid,ZULUCRYPTshortMapperPath ) ;
*mapper = StringCopy( *m_name ) ;
mapper_name = StringContent( *m_name ) ;
*mapper_path = String( zuluCryptMapperPrefix() ) ;
e = StringMultipleAppend( *mapper_path,"/",mapper_name,NULL ) ;
if( stat( e,&statstr ) == 0 ){
return zuluExit_1( 11,opts,device,mount_point,stl ) ;
}
if( plugin_path != NULL ){
/*
* zuluCryptUUIDFromPath() is defined in path_access.c
*/
uuid = zuluCryptUUIDFromPath( device ) ;
device_path = _device_path( device ) ;
/*
* zuluCryptPluginManagerGetKeyFromModule is defined in ../pluginManager/zuluCryptPluginManager.c
*/
*passphrase = zuluCryptPluginManagerGetKeyFromModule( device_path,plugin_path,uuid,uid,opts,&st ) ;
StringFree( device_path ) ;
StringFree( uuid ) ;
if( st != 0 || *passphrase == StringVoid ){
return zuluExit_1( 12,opts,device,mount_point,stl ) ;
}
key_len = StringLength( *passphrase ) ;
key = StringContent( *passphrase ) ;
zuluCryptSecurityLockMemory_1( *passphrase ) ;
}else if( source == NULL && tcrypt_keyfiles[ 0 ] == NULL ){
printf( gettext( "Enter passphrase: " ) ) ;
/*
* ZULUCRYPT_KEY_MAX_SIZE is set in ../constants.h
*/
switch( StringSilentlyGetFromTerminal_1( passphrase,ZULUCRYPT_KEY_MAX_SIZE ) ){
case 1 : return zuluExit_1( 13,opts,device,mount_point,stl ) ;
case 2 : return zuluExit_1( 14,opts,device,mount_point,stl ) ;
}
printf( "\n" ) ;
key = StringContent( *passphrase ) ;
key_len = StringLength( *passphrase ) ;
zuluCryptSecurityLockMemory_1( *passphrase ) ;
}else{
if( source == NULL || pass == NULL ){
if( tcrypt_keyfiles == NULL ){
return zuluExit_1( 15,opts,device,mount_point,stl ) ;
}
}
if( StringsAreEqual( source,"-p" ) ){
key = pass ;
key_len = StringSize( pass ) ;
}else if( StringsAreEqual( source,"-f" ) ){
if( StringHasNoComponent( pass,"/.zuluCrypt-socket" ) ){
tcrypt_keyfile = 1 ;
}
/*
* function is defined at "path_access.c"
*/
switch( zuluCryptGetPassFromFile( pass,uid,data ) ){
case 1 : return zuluExit_1( 16,opts,device,mount_point,stl ) ;
case 2 : return zuluExit_1( 17,opts,device,mount_point,stl ) ;
case 4 : return zuluExit_1( 18,opts,device,mount_point,stl ) ;
case 5 : return zuluExit_1( 19,opts,device,mount_point,stl ) ;
}
key = StringContent( *data ) ;
key_len = StringLength( *data ) ;
zuluCryptSecurityLockMemory_1( *data ) ;
}
}
memset( &volume,'\0',sizeof( open_struct_t ) ) ;
if( key != NULL ){
volume.key = key ;
volume.key_len = key_len ;
}else{
volume.key = "" ;
volume.key_len = 0 ;
}
volume.device = device ;
volume.offset = offset ;
volume.mapper_name = mapper_name ;
volume.m_point = mount_point ;
volume.fs_opts = fs_opts ;
volume.uid = uid ;
volume.m_opts = m_opts ;
volume.m_flags = m_flags ;
/*
* zuluCryptTrueCryptVeraCryptVolumeInfo() is defined in this source file.
*/
zuluCryptTrueCryptVeraCryptVolumeInfo( opts->type,&v_info ) ;
volume.iteration_count = v_info.iteration_count ;
volume.veraCrypt_volume = StringAtLeastOneMatch( v_info.type,"vcrypt","veracrypt","vera",NULL ) ;
StringDelete( &v_info.type ) ;
plugin_path = plugin_path + StringLastIndexOfChar_1( plugin_path,'/' ) + 1 ;
volume.luks_detached_header = StringHasComponent( plugin_path,"luks" ) ;
volume.general_detached_header = StringHasComponent( plugin_path,"generic_header" ) ;
if( tcrypt_keyfile ){
volume.key_source = TCRYPT_KEYFILE ;
}
if( tcrypt_keyfiles[ 0 ] != NULL ){
/*
* Here, we take a list of keyfiles supplied by the user and then copy them to a safe
* location at "/run/zuluCrypt" and then we pass these safe copies to cryptsetup.
*
* The idea is not to let cryptsetup, a privileged process handle user managed files.
*/
stz = zuluCryptCreateKeyFiles( tcrypt_keyfiles,0 ) ;
volume.tcrypt_keyfiles_count = StringListSize( stz ) ;
volume.tcrypt_keyfiles = StringListStringArray_0( stz ) ;
st = _open_volume( &volume ) ;
zuluCryptDeleteKeyFiles( stz ) ;
StringFree( volume.tcrypt_keyfiles ) ;
StringListDelete( &stz ) ;
}else{
st = _open_volume( &volume ) ;
}
/*
* below two return values comes from ../lib/mount_volume.c
*/
if( st == -1 ){
st = 20 ;
}
if( st == 12 ){
st = 21 ;
}
if( st == 8 || st == 3 ){
st = 3 ;
}
device = StringMultiplePrepend( *mapper,"/",zuluCryptMapperPrefix(),NULL ) ;
if( st == 0 && share ){
/*
* user wish to share the mount point bind the mount point to a publicly accessed path at /run/media/public/
*/
/*
* zuluCryptBindMountVolume() is defined in ../zuluCrypt-cli/bin/bind.c
*/
zuluCryptBindMountVolume( device,*m_point,m_flags ) ;
}
/*
* zuluCryptCheckInvalidKey() is defined in check_invalid_key.c
*/
zuluCryptCheckInvalidKey( opts->device ) ;
return zuluExit_1( st,opts,device,mount_point,stl ) ;
}
/*
* get_pass_from_file function is defined at get_pass_from_file.c *
*/
int zuluCryptEXEAddKey( const struct_opts * opts,uid_t uid )
{
const char * device = opts->device ;
const char * keyType1 = opts->existing_key_source ;
const char * existingKey = opts->existing_key ;
const char * keyType2 = opts->new_key_source ;
const char * newKey = opts->new_key ;
/*
* Below is a form of memory management.All strings are collected in a stringlist object to easily delete them
* when the function returns.This allows for the function to have multiple exit points without risks of leaking
* memory from manually examining each exit point to make sure all strings are deleted or go with multiple goto
* code deleting blocks to take into account different exit points.
*/
stringList_t stl ;
string_t * stringArray = StringListArray( &stl,5 ) ;
string_t * presentKey = &stringArray[ 0 ] ;
string_t * newKey_1 = &stringArray[ 1 ] ;
string_t * newKey_2 = &stringArray[ 2 ] ;
string_t * ek = &stringArray[ 3 ] ;
string_t * nk = &stringArray[ 4 ] ;
const char * key1 = NULL ;
const char * key2 = NULL ;
size_t len1 = 0 ;
size_t len2 = 0 ;
int status = 0 ;
tcrypt_opts tcrypt ;
memset( &tcrypt,'\0',sizeof( tcrypt_opts ) ) ;
/*
* zuluCryptPartitionIsSystemPartition() is defined in ./partitions.c
*/
if( zuluCryptPartitionIsSystemPartition( device,uid ) ){
if( !zuluCryptUserIsAMemberOfAGroup( uid,"zulucrypt" ) ){
return zuluExit( 4,stl ) ;
}
}
/*
* zuluCryptSecurityDeviceIsWritable() is defined in path_access.c
*/
status = zuluCryptCanOpenPathForWriting( device,uid ) ;
/*
* 1-permissions denied
* 2-invalid path
* 3-shenanigans
* 4-common error
*/
switch( status ){
case 0 : break ;
case 1 : return zuluExit( 5,stl ) ;
case 2 : return zuluExit( 5,stl ) ;
case 3 : return zuluExit( 5,stl ) ;
case 4 : return zuluExit( 5,stl ) ;
default: return zuluExit( 5,stl ) ;
}
switch( _zuluCryptCheckEmptySlots( device ) ){
case 0 : return zuluExit( 6,stl ) ;
case 1 : return zuluExit( 2,stl ) ;
case 2 : /* no complains,continue */ ;
}
if( keyType1 == NULL && keyType2 == NULL ){
switch( zuluGetKeys( presentKey,newKey_1,newKey_2 ) ){
case 1 : return zuluExit( 7,stl ) ;
case 2 : return zuluExit( 8,stl ) ;
}
if( StringEqualString( *newKey_1,*newKey_2 ) ){
key1 = StringContent( *presentKey ) ;
len1 = StringLength ( *presentKey ) ;
key2 = StringContent( *newKey_1 ) ;
len2 = StringLength ( *newKey_1 ) ;
}else{
return zuluExit( 9,stl ) ;
}
}else{
if( newKey == NULL || existingKey == NULL ){
return zuluExit( 10,stl ) ;
}
if( StringsAreEqual( keyType1,"-f" ) ){
/*
* this function is defined at "path_access.c"
*/
switch( zuluCryptGetPassFromFile( existingKey,uid,ek ) ){
case 1 : return zuluExit( 11,stl ) ;
case 4 : return zuluExit( 12,stl ) ;
case 2 : return zuluExit( 13,stl ) ;
case 5 : return zuluExit( 14,stl ) ;
}
key1 = StringContent( *ek ) ;
len1 = StringLength( *ek ) ;
if( StringHasNoComponent( existingKey,"/.zuluCrypt-socket" ) ){
tcrypt.existing_key_is_keyfile = 1 ;
}
}
if( StringsAreEqual( keyType2,"-f" ) ){
/*
* this function is defined at "path_access.c"
*/
switch( zuluCryptGetPassFromFile( newKey,uid,nk ) ){
case 1 : return zuluExit( 11,stl ) ;
case 4 : return zuluExit( 12,stl ) ;
case 2 : return zuluExit( 13,stl ) ;
case 5 : return zuluExit( 14,stl ) ;
}
key2 = StringContent( *nk ) ;
len2 = StringLength( *nk ) ;
if( StringHasNoComponent( newKey,"/.zuluCrypt-socket" ) ){
tcrypt.new_key_is_keyfile = 1 ;
}
}
if( StringsAreEqual( keyType1,"-f" ) && StringsAreEqual( keyType2,"-f" ) ){
;
}else if( StringsAreEqual( keyType1,"-p" ) && StringsAreEqual( keyType2,"-p" ) ){
key1 = existingKey ;
len1 = StringSize( existingKey ) ;
key2 = newKey ;
len2 = StringSize( newKey ) ;
}else if( StringsAreEqual( keyType1,"-p" ) && StringsAreEqual( keyType2,"-f" ) ){
key1 = existingKey ;
len1 = StringSize( existingKey ) ;
}else if( StringsAreEqual( keyType1,"-f" ) && StringsAreEqual( keyType2,"-p" ) ){
key2 = newKey ;
len2 = StringSize( newKey ) ;
}else{
return zuluExit( 10,stl ) ;
}
}
zuluCryptSecurityLockMemory( stl ) ;
zuluCryptSecurityGainElevatedPrivileges() ;
/*
* zuluCryptVolumeIsLuks() is defined in ../lib/is_luks.c
*/
if( zuluCryptVolumeIsLuks( device ) ){
/*
* zuluCryptAddKey() is defined in ../lib/add_key.c
*/
status = zuluCryptAddKey( device,key1,len1,key2,len2 ) ;
}else{
tcrypt.device = device ;
tcrypt.existing_key = key1 ;
tcrypt.existing_key_size = len1 ;
tcrypt.new_key = key2 ;
tcrypt.new_key_size = len2 ;
status = _replace_truecrypt_key( &tcrypt ) ;
}
zuluCryptSecurityDropElevatedPrivileges() ;
return zuluExit( status,stl ) ;
}
int zuluCryptEXERemoveKey( const struct_opts * opts,uid_t uid )
{
int ask_confirmation = opts->ask_confirmation ;
const char * device = opts->device ;
const char * keyType = opts->key_source ;
const char * keytoremove = opts->key ;
stringList_t stl = StringListInit() ;
string_t * pass = StringListAssign( stl ) ;
string_t * confirm = StringListAssign( stl ) ;
int status = 0 ;
const char * key ;
size_t key_size ;
/*
* zuluCryptPartitionIsSystemPartition() is defined in ./partitions.c
*/
if( zuluCryptPartitionIsSystemPartition( device,uid ) ){
if( !zuluCryptUserIsAMemberOfAGroup( uid,"zulucrypt" ) ){
return zuluExit( 4,stl ) ;
}
}
/*
* zuluCryptCanOpenPathForWriting is defined in path_access.c
*/
status = zuluCryptCanOpenPathForWriting( device,uid ) ;
/*
* 1-permissions denied
* 2-invalid path
* 3-shenanigans
* 4-common error
*/
switch( status ){
case 0 : break ;
case 1 : return zuluExit( 5,stl ) ;
case 2 : return zuluExit( 5,stl ) ;
case 3 : return zuluExit( 5,stl ) ;
case 4 : return zuluExit( 5,stl ) ;
default: return zuluExit( 5,stl ) ;
}
if( _zuluCryptExECheckEmptySlots( device ) == 3 ){
if( ask_confirmation ){
printf( gettext( "WARNING: There is only one key in the volume and all data in it will be lost if you continue.\n" ) ) ;
printf( gettext( "Do you still want to continue? Type \"YES\" if you do: " ) ) ;
*confirm = StringGetFromTerminal_1( 3 ) ;
if( *confirm == StringVoid ){
return zuluExit( 6,stl ) ;
}
if( !StringEqual( *confirm,gettext( "YES" ) ) ){
return zuluExit( 7,stl ) ;
}
}
}
if( keyType == NULL ){
printf( gettext( "Enter a key to be removed: " ) ) ;
/*
* ZULUCRYPT_KEY_MAX_SIZE is set in ../constants.h
*/
switch( StringSilentlyGetFromTerminal_1( pass,ZULUCRYPT_KEY_MAX_SIZE ) ){
case 1 : return zuluExit( 8,stl ) ;
case 2 : return zuluExit( 9,stl ) ;
}
printf( "\n" ) ;
key = StringContent( *pass ) ;
key_size = StringLength( *pass ) ;
zuluCryptSecurityLockMemory_1( *pass ) ;
}else{
if( keyType == NULL || keytoremove == NULL ){
return zuluExit( 10,stl ) ;
}
if( StringsAreEqual( keyType,"-f" ) ){
/*
* zuluCryptGetPassFromFile() is defined at path_access.c"
*/
switch( zuluCryptGetPassFromFile( keytoremove,uid,pass ) ){
case 1 : return zuluExit( 11,stl ) ;
case 2 : return zuluExit( 12,stl ) ;
case 4 : return zuluExit( 13,stl ) ;
case 5 : return zuluExit( 14,stl ) ;
}
key = StringContent( *pass ) ;
key_size = StringLength( *pass ) ;
zuluCryptSecurityLockMemory_1( *pass ) ;
}else if( StringsAreEqual( keyType, "-p" ) ){
key = keytoremove ;
key_size = StringSize( keytoremove ) ;
}else{
return zuluExit( 10,stl ) ;
}
}
zuluCryptSecurityGainElevatedPrivileges() ;
/*
* zuluCryptRemoveKey() is defined in ../lib/remove_key.c
*/
status = zuluCryptRemoveKey( device,key,key_size ) ;
zuluCryptSecurityDropElevatedPrivileges() ;
if( status == 1 ){
status = zuluExit_1( status,device,stl ) ;
}else{
status = zuluExit( status,stl ) ;
}
/*
* zuluCryptCheckInvalidKey() is defined in check_invalid_key.c
*/
zuluCryptCheckInvalidKey( opts->device ) ;
return status ;
}