2023-11-02 15:43:06 +00:00
#!/usr/bin/env python3
import bisect
import os . path
import xml . etree . ElementTree as ET
from urllib . parse import urlparse
import shutil
import zipfile # For reading backups from zip archives
import boto3 # For reading backups from S3
## Examples:
## from backupview import open_backup
##
## Get information about the backup's contents:
## backup = open_backup("/path/to/backup/")
## print(backup.get_databases()))
## for database in backup.get_databases():
## print(backup.get_create_query(database=database))
## for table in backup.get_tables(database=database):
## print(backup.get_create_query(database=database, table=table))
## print(backup.get_partitions(database=database, table=table))
## print(backup.get_parts(database=database, table=table))
##
## Extract everything from the backup to a folder:
## backup.extract_all(out="/where/to/extract/1/")
##
## Extract the data of a single table:
## backup.extract_table_data(database="mydb", table="mytable", out="/where/to/extract/2/")
## backup.extract_table_data(table="mydb.mytable", part="all_1_1", out="/where/to/extract/3/")
## backup.extract_table_data(database="mydb", table="mytable", partition="2022", out="/where/to/extract/4/")
## backup.extract_table_metadata(table=('mydb', 'mytable'), out="/where/to/extract/5.sql")
##
## Get a list of all files in the backup:
## print(backup.get_files())
##
## Get information about files in the backup:
## print(backup.get_file_infos())
##
## Extract files to a folder:
## backup.extract_dir("/shards/1/replicas/1/", out="/where/to/extract/6/")
## backup.extract_file("/shards/1/replicas/1/metadata/mydb/mytable.sql", out="/where/to/extract/7.sql")
##
## Reading from S3:
## backup = open_backup(S3("uri", "access_key_id", "secret_access_key"))
## backup.extract_table_data(table="mydb.mytable", partition="2022", out="/where/to/extract/8/")
# Opens a backup for viewing.
def open_backup ( backup_name , base_backup = None ) :
return Backup ( backup_name , base_backup = base_backup )
# Main class, an instance of Backup is returned by the open_backup() function.
class Backup :
def __init__ ( self , backup_name , base_backup = None ) :
self . __location = None
self . __close_base_backup = False
self . __base_backup = base_backup
self . __reader = None
try :
self . __location = Location ( backup_name )
if TypeChecks . is_location_like ( base_backup ) :
self . __base_backup = Location ( base_backup )
self . __reader = self . __location . create_reader ( )
self . __parse_backup_metadata ( )
except :
self . close ( )
raise
def close ( self ) :
if self . __reader is not None :
self . __reader . close ( )
self . __reader = None
if (
( self . __base_backup is not None )
and ( not TypeChecks . is_location_like ( self . __base_backup ) )
and self . __close_base_backup
) :
self . __base_backup . close ( )
self . __base_backup = None
def __enter__ ( self ) :
return self
def __exit__ ( self , exc_type , exc_value , traceback ) :
self . close ( )
# Get general information about the backup.
# Returns the name of the backup, e.g. File('/path/to/backup/')
def get_name ( self ) :
return str ( self . get_location ( ) )
def get_location ( self ) :
return self . __location
def __repr__ ( self ) :
return " Backup( " + repr ( self . get_location ( ) ) + " ) "
# Returns the base backup or None if there is no base backup.
def get_base_backup ( self ) :
if TypeChecks . is_location_like ( self . __base_backup ) :
self . __close_base_backup = True
self . __base_backup = open_backup ( self . __base_backup )
return self . __base_backup
def get_base_backup_location ( self ) :
if self . __base_backup is None :
return None
if TypeChecks . is_location_like ( self . __base_backup ) :
return self . __base_backup
return self . __base_backup . get_location ( )
def get_base_backup_name ( self ) :
if self . __base_backup is None :
return None
return str ( self . get_base_backup_location ( ) )
# Returns the version of the backup.
def get_version ( self ) :
return self . __version
# Returns the timestamp of the backup.
def get_timestamp ( self ) :
return self . __timestamp
# Get high-level information about the contents of the backup.
# Returns shards stored in the backup.
def get_shards ( self ) :
if self . dir_exists ( " /shards/ " ) :
return self . get_subdirs ( " /shards/ " )
return [ " 1 " ]
# Returns replicas stored in the backup.
def get_replicas ( self , shard = " 1 " ) :
if self . dir_exists ( f " /shards/ { shard } /replicas/ " ) :
return self . get_subdirs ( f " /shards/ { shard } /replicas/ " )
elif self . dir_exists ( " /replicas/ " ) :
return self . get_subdirs ( " /replicas/ " )
else :
return [ " 1 " ]
# Returns databases stored in the backup.
def get_databases ( self , shard = " 1 " , replica = " 1 " ) :
res = [ ]
for path in self . __get_paths_in_backup ( shard = shard , replica = replica ) :
dir = path + " metadata/ "
if self . dir_exists ( dir ) :
files = self . get_files_in_dir ( dir )
subdirs = self . get_subdirs ( dir )
res + = [ Backup . __unescape_for_filename ( name ) for name in subdirs ]
res + = [
Backup . __unescape_for_filename ( os . path . splitext ( name ) [ 0 ] )
for name in files
if name . endswith ( " .sql " )
]
return sorted ( set ( res ) )
# Returns tables stored in the backup.
# b.get_tables(database='mydb') returns the names of tables in that database 'mydb';
# b.get_tables() returns a list of tuples (db, table) for all tables in the backup.
def get_tables ( self , database = None , shard = " 1 " , replica = " 1 " ) :
if database is None :
databases = self . get_databases ( shard = shard , replica = replica )
else :
databases = [ database ]
res = [ ]
paths = self . __get_paths_in_backup ( shard = shard , replica = replica )
for path in paths :
if self . dir_exists ( f " { path } metadata/ " ) :
for db in databases :
dir = path + " metadata/ " + Backup . __escape_for_filename ( db ) + " / "
if self . dir_exists ( dir ) :
files = self . get_files_in_dir ( dir )
tables = [
Backup . __unescape_for_filename ( os . path . splitext ( name ) [ 0 ] )
for name in files
if name . endswith ( " .sql " )
]
if database is None :
tables = [ ( db , table ) for table in tables ]
res + = tables
return sorted ( set ( res ) )
# Returns the create query of a table or a database.
# The function can return None if there is no create query in the backup for such table or database.
# b.get_create_query(database='mydb') returns the create query of the database `mydb`;
# b.get_create_query(database='mydb', table='mytable') returns the create query of the table `mydb`.`mytable`;
# b.get_create_query(table='mydb.mytable') and b.get_create_query(table=('mydb', 'mytable')) also returns the create query of the table `mydb`.`mytable`.
def get_create_query ( self , table = None , database = None , shard = " 1 " , replica = " 1 " ) :
path = self . get_create_query_path (
table = table , database = database , shard = shard , replica = replica
)
if path is None :
return None
return self . read_file ( path ) . decode ( " utf-8 " )
def get_table_metadata ( self , table , database = None , shard = " 1 " , replica = " 1 " ) :
return self . get_create_query (
table = table , database = database , shard = shard , replica = replica
)
def get_database_metadata ( self , database , shard = " 1 " , replica = " 1 " ) :
return self . get_create_query ( database = database , shard = shard , replica = replica )
# Like get_create_query(), but returns the path to the corresponding file containing the create query in the backup.
def get_create_query_path ( self , table = None , database = None , shard = " 1 " , replica = " 1 " ) :
if database is None :
database , table = Backup . __split_database_table ( table )
if table is None :
suffix = " metadata/ " + Backup . __escape_for_filename ( database ) + " .sql "
else :
suffix = (
" metadata/ "
+ Backup . __escape_for_filename ( database )
+ " / "
+ Backup . __escape_for_filename ( table )
+ " .sql "
)
for path in self . __get_paths_in_backup ( shard = shard , replica = replica ) :
metadata_path = path + suffix
if self . file_exists ( metadata_path ) :
return metadata_path
return None
def get_table_metadata_path ( self , table , database = None , shard = " 1 " , replica = " 1 " ) :
return self . get_create_query_path (
table = table , database = database , shard = shard , replica = replica
)
def get_database_metadata_path ( self , database , shard = " 1 " , replica = " 1 " ) :
return self . get_create_query_path (
database = database , shard = shard , replica = replica
)
# Returns the names of parts of a specified table.
# If the 'partition' parameter is specified, the function returns only parts related to that partition.
# The table can be specified either as b.get_parts(database='mydb', table='mytable') or
# b.get_parts(table='mydb.mytable') or b.get_parts(table=('mydb', 'mytable')).
def get_parts ( self , table , database = None , partition = None , shard = " 1 " , replica = " 1 " ) :
data_path = self . get_table_data_path (
table = table , database = database , shard = shard , replica = replica
)
if data_path is None :
return [ ]
part_names = self . get_subdirs ( data_path )
if " mutations " in part_names :
part_names . remove ( " mutations " )
if partition is not None :
part_names = [
part_name
for part_name in part_names
if Backup . __extract_partition_id_from_part_name ( part_name ) == partition
]
return part_names
# Returns the names of partitions of a specified table.
# The table can be specified either as b.get_partitions(database='mydb', table='mytable') or
# b.get_partitions(table='mydb.mytable') or b.get_partitions(table=('mydb', 'mytable'))
def get_partitions ( self , table , database = None , shard = " 1 " , replica = " 1 " ) :
parts = self . get_parts (
table = table , database = database , shard = shard , replica = replica
)
partitions = [ ]
prev_partition = None
for part in parts :
partition = Backup . __extract_partition_id_from_part_name ( part )
if partition != prev_partition :
partitions . append ( partition )
prev_partition = partition
return partitions
# Returns the path to the 'data' folder of a specified table in the backup.
# The function can return None if there is no such folder in the backup.
# The table can be specified either as b.get_table_data_path(database='mydb', table='mytable')
# b.get_table_data_path(table='mydb.mytable') or b.get_table_data_path(table=('mydb', 'mytable'))
def get_table_data_path ( self , table , database = None , shard = " 1 " , replica = " 1 " ) :
if database is None :
database , table = Backup . __split_database_table ( table )
suffix = (
" metadata/ "
+ Backup . __escape_for_filename ( database )
+ " / "
+ Backup . __escape_for_filename ( table )
+ " .sql "
)
for path in self . __get_paths_in_backup ( shard = shard , replica = replica ) :
if self . file_exists ( path + suffix ) :
data_path = (
path
+ " data/ "
+ Backup . __escape_for_filename ( database )
+ " / "
+ Backup . __escape_for_filename ( table )
+ " / "
)
return data_path if self . dir_exists ( data_path ) else None
return None
# Returns the paths to files in the 'data' folder of a specified table in the backup.
# If any of the parameters 'part' and 'partition' is specified the function returns only the files related to that part or partition.
# The table can be specified either as b.get_table_data_files(database='mydb', table='mytable')
# b.get_table_data_files(table='mydb.mytable') or b.get_table_data_files(table=('mydb', 'mytable'))
def get_table_data_files (
self , table , database = None , part = None , partition = None , shard = " 1 " , replica = " 1 "
) :
data_path = self . get_table_data_path (
table = table , database = database , shard = shard , replica = replica
)
if data_path is None :
return [ ]
if ( part is not None ) and ( partition is not None ) :
raise Exception (
" get_table_data_files: `only_part` and `only_partition` cannot be set together "
)
files = [ ]
if part is not None :
files = self . get_files_in_dir ( os . path . join ( data_path , part ) , recursive = True )
elif partition is not None :
for part in self . get_parts (
table = table ,
database = database ,
partition = partition ,
shard = shard ,
replica = replica ,
) :
files + = self . get_files_in_dir (
os . path . join ( data_path , part ) , recursive = True
)
else :
files = self . get_files_in_dir ( data_path , recursive = True )
return [ data_path + file for file in files ]
# Extracts the create query of a table or a database to a specified destination.
# The function returns a tuple (files_extracted, bytes_extracted).
# The function does nothing if there is no create query for such table or database in the backup.
def extract_create_query (
self , table = None , database = None , shard = " 1 " , replica = " 1 " , out = None , out_path = " "
) :
file = self . get_create_query_path (
table = table , database = database , shard = shard , replica = replica
)
if file is None :
return ( 0 , 0 )
return self . extract_file ( path = file , out = out , out_path = out_path )
def extract_table_metadata (
self , table , database = None , shard = " 1 " , replica = " 1 " , out = None , out_path = " "
) :
return self . extract_create_query (
table = table ,
database = database ,
shard = shard ,
replica = replica ,
out = out ,
out_path = out_path ,
)
def extract_database_metadata (
self , database , shard = " 1 " , replica = " 1 " , out = None , out_path = " "
) :
return self . extract_create_query (
database = database , shard = shard , replica = replica , out = out , out_path = out_path
)
# Extracts the data of a table or a database to a specified destination.
# The function returns a tuple (files_extracted, bytes_extracted).
# The function does nothing if there is no data for such table in the backup.
def extract_table_data (
self ,
table ,
database = None ,
part = None ,
partition = None ,
shard = " 1 " ,
replica = " 1 " ,
out = None ,
out_path = " " ,
) :
files = self . get_table_data_files (
table = table ,
database = database ,
part = part ,
partition = partition ,
shard = shard ,
replica = replica ,
)
data_path = self . get_table_data_path (
table = table , database = database , shard = shard , replica = replica
)
return self . extract_files (
path = data_path ,
files = Backup . __remove_prefix_path ( files , data_path ) ,
out = out ,
out_path = out_path ,
)
# Get low-level information about files in the backup.
# Returns a list of all files in the backup.
def get_files ( self ) :
return self . get_files_in_dir ( path = " / " , recursive = True )
# Returns True if a specified file exists in the backup.
def file_exists ( self , path ) :
if not path . startswith ( " / " ) :
path = " / " + path
return path in self . __file_infos
# Returns True if a specified folder exists in the backup.
def dir_exists ( self , path ) :
if not path . startswith ( " / " ) :
path = " / " + path
if not path . endswith ( " / " ) :
path + = " / "
if path == " / " :
return True
pos = bisect . bisect_left ( self . __file_paths , path )
return ( pos < len ( self . __file_paths ) ) and self . __file_paths [ pos ] . startswith (
path
)
# Returns the size of a file in the backup.
# The function raises an exception of the file doesn't exist.
def get_file_size ( self , path ) :
fi = self . get_file_info ( path )
return fi . size
# Returns the information about a file in the backup.
# The function raises an exception of the file doesn't exist.
def get_file_info ( self , path ) :
if not path . startswith ( " / " ) :
path = " / " + path
fi = self . __file_infos . get ( path )
if fi is None :
raise Exception ( f " File { path } not found in backup { self } " )
return fi
# Returns the information about multiple or all files files in the backup.
def get_file_infos ( self , paths = None ) :
if paths is None :
return self . __file_infos . values ( )
return [ self . get_file_info ( path ) for path in paths ]
# Finds the information about a file in the backup by its checksum.
# The function raises an exception of the file doesn't exist.
def get_file_info_by_checksum ( self , checksum ) :
fi = self . __file_infos_by_checksum . get ( checksum )
if fi is None :
raise Exception ( f " File with checksum= { checksum } not found in backup { self } " )
return fi
# Returns all files in a directory inside the backup.
def get_files_in_dir ( self , path , recursive = False ) :
if not path . startswith ( " / " ) :
path = " / " + path
if not path . endswith ( " / " ) :
path + = " / "
if path == " / " and recursive :
return self . __file_paths
pos = bisect . bisect_left ( self . __file_paths , path )
files = [ ]
while pos < len ( self . __file_paths ) :
file = self . __file_paths [ pos ]
if not file . startswith ( path ) :
break
file = file [ len ( path ) : ]
if recursive or ( file . find ( " / " ) == - 1 ) :
files . append ( file )
pos + = 1
return files
# Returns all subdirectories in a directory inside the backup.
def get_subdirs ( self , path ) :
if not path . startswith ( " / " ) :
path = " / " + path
if not path . endswith ( " / " ) :
path + = " / "
pos = bisect . bisect_left ( self . __file_paths , path )
subdirs = [ ]
prev_subdir = " "
while pos < len ( self . __file_paths ) :
file = self . __file_paths [ pos ]
if not file . startswith ( path ) :
break
file = file [ len ( path ) : ]
sep = file . find ( " / " )
if sep != - 1 :
subdir = file [ : sep ]
if subdir != prev_subdir :
subdirs . append ( subdir )
prev_subdir = subdir
pos + = 1
return subdirs
# Opens a file for reading from the backup.
def open_file ( self , path ) :
fi = self . get_file_info ( path )
if fi . size == 0 :
return EmptyFileObj ( )
elif fi . base_size == 0 :
return self . __reader . open_file ( fi . data_file )
elif fi . size == fi . base_size :
base_fi = self . get_base_backup ( ) . get_file_info_by_checksum ( fi . base_checksum )
return self . get_base_backup ( ) . open_file ( base_fi . name )
else :
base_fi = self . get_base_backup ( ) . get_file_info_by_checksum ( fi . base_checksum )
base_stream = self . get_base_backup ( ) . open_file ( base_fi . name )
stream = self . __reader . open_file ( fi . data_file )
return ConcatFileObj ( base_stream , stream )
# Reads a file and returns its contents.
def read_file ( self , path ) :
fi = self . get_file_info ( path )
if fi . size == 0 :
return b " "
elif fi . base_size == 0 :
return self . __reader . read_file ( fi . data_file )
elif fi . size == fi . base_size :
base_fi = self . get_base_backup ( ) . get_file_info_by_checksum ( fi . base_checksum )
return self . get_base_backup ( ) . read_file ( base_fi . name )
else :
base_fi = self . get_base_backup ( ) . get_file_info_by_checksum ( fi . base_checksum )
return self . get_base_backup ( ) . read_file (
base_fi . name
) + self . __reader . read_file ( fi . data_file )
# Extracts a file from the backup to a specified destination.
def extract_file ( self , path , out = None , out_path = " " , make_dirs = True ) :
if ( out is None ) and ( len ( out_path ) > 0 ) :
return self . extract_file ( path , out = out_path , make_dirs = make_dirs )
if TypeChecks . is_file_opened_for_writing ( out ) :
ostream = out
fi = self . get_file_info ( path )
with self . open_file ( path ) as istream :
shutil . copyfileobj ( istream , ostream )
return ExtractionInfo ( num_files = 1 , num_bytes = fi . size )
if TypeChecks . is_location_like ( out ) :
with Location ( out ) . create_writer ( ) as writer :
return self . extract_file (
path , out = writer , out_path = out_path , make_dirs = make_dirs
)
TypeChecks . check_is_writer ( out )
writer = out
fi = self . get_file_info ( path )
if make_dirs :
sep = out_path . rfind ( " / " )
if sep != - 1 :
subdir = out_path [ : sep + 1 ]
writer . make_dirs ( subdir )
if fi . size == 0 :
writer . create_empty_file ( out_path )
elif fi . base_size == 0 :
self . __reader . extract_file ( fi . data_file , writer = writer , out_path = out_path )
elif fi . size == fi . base_size :
base_fi = self . get_base_backup ( ) . get_file_info_by_checksum ( fi . base_checksum )
self . get_base_backup ( ) . extract_file (
path = base_fi . name , out = writer , out_path = out_path
)
else :
with self . open_file ( path ) as istream :
with writer . open_file ( out_path ) as ostream :
shutil . copyfileobj ( istream , ostream )
return ExtractionInfo ( num_files = 1 , num_bytes = fi . size )
# Extracts multiple files from the backup to a specified destination.
def extract_files ( self , path , files , out = None , out_path = " " ) :
if ( out is None ) and ( len ( out_path ) > 0 ) :
return self . extract_files ( path , files , out = out_path )
if TypeChecks . is_location_like ( out ) :
with Location ( out ) . create_writer ( ) as writer :
return self . extract_files ( path , files , out = writer , out_path = out_path )
TypeChecks . check_is_writer ( out )
writer = out
subdirs = set ( )
for file in files :
sep = file . rfind ( " / " )
if sep != - 1 :
subdirs . add ( file [ : sep + 1 ] )
for subdir in subdirs :
writer . make_dirs ( os . path . join ( out_path , subdir ) )
extracted_files_info = ExtractionInfo ( )
for file in files :
extracted_files_info . add (
self . extract_file (
os . path . join ( path , file ) ,
out = writer ,
out_path = os . path . join ( out_path , file ) ,
make_dirs = False ,
)
)
return extracted_files_info
def extract_dir ( self , path , out = None , out_path = " " ) :
files = self . get_files_in_dir ( path , recursive = True )
return self . extract_files ( path = path , files = files , out = out , out_path = out_path )
def extract_all ( self , out = None , out_path = " " ) :
return self . extract_dir ( " / " , out = out , out_path = out_path )
# Checks that all files in the backup exist and have the expected sizes.
def check_files ( self ) :
data_files = { }
for fi in self . __file_infos . values ( ) :
if fi . size > fi . base_size :
data_file = fi . data_file
if data_file in data_files :
prev_fi = data_files [ data_file ]
if (
( fi . size != prev_fi . size )
or ( fi . checksum != prev_fi . checksum )
or ( fi . use_base != prev_fi . use_base )
or ( fi . base_size != prev_fi . base_size )
or ( fi . base_checksum != prev_fi . base_checksum )
or ( fi . encrypted_by_disk != prev_fi . encrypted_by_disk )
) :
raise Exception (
f " Files { prev_fi . name } and { fi . name } uses the same data file but their file infos are different: { prev_fi } and { fi } , backup: { self } "
)
else :
data_files [ data_file ] = fi
if fi . base_size > 0 :
fi_base = self . get_base_backup ( ) . get_file_info_by_checksum (
fi . base_checksum
)
if fi . base_size != fi_base . size :
raise Exception (
f " Size of file { fi_base . name } in the base backup is different ( { fi . base_size } != { fi_base . size } ) "
f " from it ' s base size in this backup, backup= { self } , base_backup= { self . get_base_backup ( ) } "
)
if fi . size < fi_base . size :
raise Exception (
f " File { fi . name } has a smaller size ( { fi . size } < { fi_base . size } ) than the size of a corresponding file { fi_base . name } "
f " in the base backup, backup= { self } , base_backup= { self . get_base_backup ( ) } "
)
for fi in data_files . values ( ) :
if not self . __reader . file_exists ( fi . data_file ) :
raise Exception (
f " File { fi . data_file } must exist but not found inside backup { self } "
)
actual_size = self . __reader . get_file_size ( fi . data_file )
expected_size = fi . size - fi . base_size
if actual_size != expected_size :
raise Exception (
f " File { fi . data_file } has unexpected size { actual_size } != { expected_size } inside backup { self } "
)
if self . get_base_backup ( ) is not None :
self . get_base_backup ( ) . check_files ( )
def __parse_backup_metadata ( self ) :
metadata_str = self . __reader . read_file ( " .backup " )
xmlroot = ET . fromstring ( metadata_str )
version_node = xmlroot . find ( " version " )
self . __version = int ( version_node . text ) if ( version_node is not None ) else None
timestamp_node = xmlroot . find ( " timestamp " )
self . __timestamp = timestamp_node . text if ( timestamp_node is not None ) else None
if self . __base_backup is None :
base_backup_node = xmlroot . find ( " base_backup " )
if base_backup_node is not None :
self . __base_backup = Location ( base_backup_node . text )
self . __file_infos = { }
self . __file_infos_by_checksum = { }
self . __file_paths = [ ]
contents = xmlroot . find ( " contents " )
for file in contents :
name = file . find ( " name " ) . text
if not name . startswith ( " / " ) :
name = " / " + name
fi = FileInfo ( name )
fi . size = int ( file . find ( " size " ) . text )
if fi . size != 0 :
checksum_node = file . find ( " checksum " )
fi . checksum = checksum_node . text
encrypted_by_disk_node = file . find ( " encrypted_by_disk " )
if encrypted_by_disk_node is not None :
fi . encrypted_by_disk = encrypted_by_disk_node . text == " true "
base_size_node = file . find ( " base_size " )
if base_size_node is not None :
fi . base_size = int ( base_size_node . text )
else :
use_base_node = file . find ( " use_base " )
if ( use_base_node is not None ) and ( use_base_node . text == " true " ) :
fi . base_size = fi . size
if fi . base_size > 0 :
fi . use_base = True
if fi . use_base :
if fi . base_size == fi . size :
fi . base_checksum = fi . checksum
else :
base_checksum_node = file . find ( " base_checksum " )
fi . base_checksum = base_checksum_node . text
if fi . size > fi . base_size :
data_file_node = file . find ( " data_file " )
data_file = (
data_file_node . text if ( data_file_node is not None ) else fi . name
)
if not data_file . startswith ( " / " ) :
data_file = " / " + data_file
fi . data_file = data_file
self . __file_infos [ fi . name ] = fi
if fi . size > 0 :
self . __file_infos_by_checksum [ fi . checksum ] = fi
self . __file_paths . append ( fi . name )
metadata_fi = FileInfo ( " /.backup " )
metadata_fi . size = len ( metadata_str )
metadata_fi . data_file = metadata_fi . name
self . __file_infos [ metadata_fi . name ] = metadata_fi
self . __file_paths . append ( metadata_fi . name )
self . __file_paths . sort ( )
def __get_paths_in_backup ( self , shard , replica ) :
paths = [ ]
if self . dir_exists ( f " /shards/ { shard } /replicas/ { replica } /metadata/ " ) :
paths . append ( f " /shards/ { shard } /replicas/ { replica } / " )
if self . dir_exists ( f " /shards/ { shard } metadata/ " ) :
paths . append ( f " /shards/ { shard } / " )
if self . dir_exists ( f " /replicas/ { replica } /metadata/ " ) :
paths . append ( f " /replicas/ { replica } / " )
if self . dir_exists ( f " /metadata/ " ) :
paths . append ( f " / " )
return paths
def __split_database_table ( table ) :
if isinstance ( table , tuple ) :
return table [ 0 ] , table [ 1 ]
elif isinstance ( table , str ) and ( table . find ( " . " ) != - 1 ) :
return table . split ( " . " , maxsplit = 1 )
def __remove_prefix_path ( files , prefix_path ) :
for file in files :
if not file . startswith ( prefix_path ) :
raise Exception (
f " remove_prefix_path: File ' { file } ' doesn ' t have the expected prefix ' { prefix_path } ' "
)
return [ file [ len ( prefix_path ) : ] for file in files ]
def __escape_for_filename ( text ) :
res = " "
for c in text :
if ( c . isascii ( ) and c . isalnum ( ) ) or c == " _ " :
res + = c
else :
for b in c . encode ( " utf-8 " ) :
res + = f " % { b : X } "
return res
def __unescape_for_filename ( text ) :
res = b " "
i = 0
while i < len ( text ) :
c = text [ i ]
if c == " % " and i + 2 < len ( text ) :
res + = bytes . fromhex ( text [ i + 1 : i + 3 ] )
i + = 3
else :
res + = c . encode ( " ascii " )
i + = 1
return res . decode ( " utf-8 " )
def __extract_partition_id_from_part_name ( part_name ) :
underscore = part_name . find ( " _ " )
if underscore < = 0 :
return None
return part_name [ : underscore ]
# Information about a single file inside a backup.
class FileInfo :
def __init__ (
self ,
name ,
size = 0 ,
checksum = " 00000000000000000000000000000000 " ,
data_file = " " ,
use_base = False ,
base_size = 0 ,
base_checksum = " 00000000000000000000000000000000 " ,
encrypted_by_disk = False ,
) :
self . name = name
self . size = size
self . checksum = checksum
self . data_file = data_file
self . use_base = use_base
self . base_size = base_size
self . base_checksum = base_checksum
self . encrypted_by_disk = encrypted_by_disk
def __repr__ ( self ) :
res = " FileInfo( "
res + = f " name= ' { self . name } ' "
res + = f " , size= { self . size } "
if self . checksum != " 00000000000000000000000000000000 " :
res + = f " , checksum= ' { self . checksum } ' "
if self . data_file :
res + = f " , data_file= ' { self . data_file } ' "
if self . use_base :
res + = f " , use_base= { self . use_base } "
res + = f " , base_size= { self . base_size } "
res + = f " , base_checksum= ' { self . base_checksum } ' "
if self . encrypted_by_disk :
res + = f " , encrypted_by_disk= { self . encrypted_by_disk } "
res + = " ) "
return res
def __eq__ ( self , other ) :
if not isinstance ( other , FileInfo ) :
return False
return (
( self . name == other . name )
and ( self . size == other . size )
and ( self . checksum == other . checksum )
and ( self . data_file == other . data_file )
and ( self . use_base == other . use_base )
and ( self . base_size == other . base_size )
and ( self . base_checksum == other . base_checksum )
and ( self . encrypted_by_disk == other . encrypted_by_disk )
)
# Information about extracted files.
class ExtractionInfo :
def __init__ ( self , num_files = 0 , num_bytes = 0 ) :
self . num_files = num_files
self . num_bytes = num_bytes
def __repr__ ( self ) :
return f " ExtractionInfo(num_files= { self . num_files } , num_bytes= { self . num_bytes } ) "
def __eq__ ( self , other ) :
if not isinstance ( other , ExtractionInfo ) :
return False
return self . num_files == other . num_files and self . num_bytes == other . num_bytes
def add ( self , other ) :
self . num_files + = other . num_files
self . num_bytes + = other . num_bytes
# File('<path>') can be used to specify the location of a backup or a destination for extracting data.
class File :
def __init__ ( self , path ) :
self . path = path
def __repr__ ( self ) :
return f " File( ' { self . path } ' ) "
# S3('<uri>', '<access_key_id>', '<secret_access_key>') can be used to specify the location of a backup.
class S3 :
def __init__ ( self , uri , access_key_id = None , secret_access_key = None ) :
self . uri = uri
self . access_key_id = access_key_id
self . secret_access_key = secret_access_key
def __repr__ ( self ) :
str = f " S3( ' { self . uri } ' "
if self . access_key_id :
str + = f " , ' { self . access_key_id } ' "
if self . secret_access_key :
str + = f " , ' { self . secret_access_key } ' "
str + = " ) "
return str
####################################################################################################
# Implementation - helper classes and functions.
# Helps to check types.
class TypeChecks :
def is_location_like ( obj ) :
return Location . can_init_from ( obj )
def is_file_opened_for_reading ( obj ) :
return callable ( getattr ( obj , " read " , None ) )
def is_file_opened_for_writing ( obj ) :
return callable ( getattr ( obj , " write " , None ) )
def is_reader ( obj ) :
return (
isinstance ( obj , FileReader )
or isinstance ( obj , S3Reader )
or isinstance ( obj , ZipReader )
)
def is_writer ( obj ) :
return isinstance ( obj , FileWriter )
def check_is_writer ( obj ) :
if TypeChecks . is_writer ( obj ) :
return
raise Exception ( f " { obj } is not a writer " )
# Helps to represents either File() or S3() location and to parse them from a string.
class Location :
def __init__ ( self , obj ) :
self . __location = None
if isinstance ( obj , Location ) :
self . __location = obj . __location
elif isinstance ( obj , File ) or isinstance ( obj , S3 ) :
self . __location = obj
elif isinstance ( obj , str ) and len ( obj ) > 0 :
self . __location = Location . __parse_location ( obj )
else :
raise Exception ( " Cannot parse a location from {obj} " )
def can_init_from ( obj ) :
if isinstance ( obj , Location ) :
return True
elif isinstance ( obj , File ) or isinstance ( obj , S3 ) :
return True
elif isinstance ( obj , str ) and len ( obj ) > 0 :
return True
else :
return False
def __repr__ ( self ) :
return repr ( self . __location )
def create_reader ( self ) :
if isinstance ( self . __location , File ) :
path = self . __location . path
path , zip_filename = Location . __split_filename_if_archive ( path )
reader = FileReader ( path )
if zip_filename is not None :
reader = ZipReader ( reader , zip_filename )
return reader
if isinstance ( self . __location , S3 ) :
uri = self . __location . uri
uri , zip_filename = Location . __split_filename_if_archive ( uri )
reader = S3Reader (
uri ,
self . __location . access_key_id ,
self . __location . secret_access_key ,
)
if zip_filename is not None :
reader = ZipReader ( reader , zip_filename )
return reader
raise Exception ( f " Couldn ' t create a reader from { self } " )
def create_writer ( self ) :
if isinstance ( self . __location , File ) :
return FileWriter ( self . __location . path )
raise Exception ( f " Couldn ' t create a writer to { self } " )
def __parse_location ( desc ) :
startpos = len ( desc ) - len ( desc . lstrip ( ) )
opening_parenthesis = desc . find ( " ( " , startpos )
if opening_parenthesis == - 1 :
endpos = len ( desc . rstrip ( ) )
if startpos == endpos :
raise Exception (
f " Couldn ' t parse a location from ' { desc } ' : empty string "
)
return File ( desc [ startpos : endpos ] )
closing_parenthesis = desc . find ( " ) " , opening_parenthesis )
if closing_parenthesis == - 1 :
raise Exception (
f " Couldn ' t parse a location from ' { desc } ' : No closing parenthesis "
)
name = desc [ startpos : opening_parenthesis ]
args = desc [ opening_parenthesis + 1 : closing_parenthesis ] . split ( " , " )
args = [ Location . __unquote_argument ( arg . strip ( ) ) for arg in args ]
endpos = closing_parenthesis + 1
if name == " File " :
if len ( args ) == 1 :
return File ( args [ 0 ] )
else :
raise Exception (
f " Couldn ' t parse a location from ' { desc } ' : File(<path>) requires a single argument, got { len ( args ) } arguments "
)
if name == " S3 " :
2023-11-12 22:49:25 +00:00
if 1 < = len ( args ) and len ( args ) < = 3 :
return S3 ( * args )
2023-11-02 15:43:06 +00:00
else :
raise Exception (
f " Couldn ' t parse a location from ' { desc } ' : S3(<uri> [, <access_key_id>, <secret_access_key>]) requires from 1 to 3 arguments, got { len ( args ) } arguments "
)
raise Exception (
f " Couldn ' t parse a location from ' { desc } ' : Unknown type { name } (only File and S3 are supported) "
)
def __unquote_argument ( arg ) :
if arg . startswith ( " ' " ) :
return arg . strip ( " ' " )
elif arg . startswith ( ' " ' ) :
return arg . strip ( ' " ' )
else :
return arg
def __split_filename_if_archive ( path ) :
is_archive = path . endswith ( " .zip " ) or path . endswith ( " .zipx " )
if not is_archive :
return path , None
sep = path . rfind ( " / " )
if sep == - 1 :
return " " , path
return path [ : sep + 1 ] , path [ sep + 1 : ]
# Represents an empty file object.
class EmptyFileObj :
def close ( self ) :
pass
def __enter__ ( self ) :
return self
def __exit__ ( self , exc_type , exc_value , traceback ) :
pass
def read ( self , count = None ) :
return b " "
# Represent a file object which concatenate data from two file objects.
class ConcatFileObj :
def __init__ ( self , fileobj1 , fileobj2 ) :
self . __fileobj1 = fileobj1
self . __fileobj2 = fileobj2
self . __first_is_already_read = False
def close ( self ) :
if self . __fileobj1 is not None :
self . __fileobj1 . close ( )
self . __fileobj1 = None
if self . __fileobj2 is not None :
self . __fileobj2 . close ( )
self . __fileobj2 = None
def __enter__ ( self ) :
return self
def __exit__ ( self , exc_type , exc_value , traceback ) :
self . close ( )
def read ( self , count = None ) :
read_data = b " "
if count != 0 and not self . __first_is_already_read :
read_data + = self . __fileobj1 . read ( count )
if ( count is None ) or ( count > len ( read_data ) ) :
self . __first_is_already_read = True
if count is not None :
count - = len ( read_data )
if count != 0 :
read_data + = self . __fileobj2 . read ( count )
return read_data
# Helps to read a File() backup.
class FileReader :
def __init__ ( self , root_path ) :
self . __root_path = root_path
def close ( self ) :
pass
def __enter__ ( self ) :
return self
def __exit__ ( self , exc_type , exc_value , traceback ) :
pass
def file_exists ( self , path ) :
return os . path . isfile ( self . get_abs_path ( path ) )
def get_file_size ( self , path ) :
return os . path . getsize ( self . get_abs_path ( path ) )
def read_file ( self , path ) :
with self . open_file ( path ) as f :
return f . read ( )
def open_file ( self , path ) :
return open ( self . get_abs_path ( path ) , " rb " )
def extract_file ( self , path , writer , out_path ) :
if isinstance ( writer , FileWriter ) :
shutil . copyfile ( self . get_abs_path ( path ) , writer . get_abs_path ( out_path ) )
else :
with self . open_file ( path ) as istream :
with writer . open_file ( out_path ) as ostream :
shutil . copyfileobj ( istream , ostream )
def get_abs_path ( self , path ) :
if path . startswith ( " / " ) :
path = path [ 1 : ]
return os . path . join ( self . __root_path , path )
# Helps to extract files to a File() destination.
class FileWriter :
def __init__ ( self , root_path ) :
self . __root_path = root_path
def __enter__ ( self ) :
return self
def __exit__ ( self , exc_type , exc_value , traceback ) :
pass
def open_file ( self , path ) :
return open ( self . get_abs_path ( path ) , " wb " )
def create_empty_file ( self , path ) :
with self . open_file ( path ) as file :
pass
def make_dirs ( self , path ) :
abs_path = self . get_abs_path ( path )
if not os . path . isdir ( abs_path ) :
os . makedirs ( abs_path )
def get_abs_path ( self , path ) :
if path . startswith ( " / " ) :
path = path [ 1 : ]
return os . path . join ( self . __root_path , path )
# Helps to read a S3() backup.
class S3Reader :
def __init__ ( self , uri , access_key_id , secret_access_key ) :
s3_uri = S3URI ( uri )
self . __bucket = s3_uri . bucket
self . __key = s3_uri . key
self . __client = None
try :
self . __client = boto3 . client (
" s3 " ,
endpoint_url = s3_uri . endpoint ,
aws_access_key_id = access_key_id ,
aws_secret_access_key = secret_access_key ,
)
except :
self . close ( )
raise
def close ( self ) :
if self . __client is not None :
self . __client . close ( )
self . __client = None
def __enter__ ( self ) :
return self
def __exit__ ( self , exc_type , exc_value , traceback ) :
self . close ( )
def file_exists ( self , path ) :
try :
self . __client . head_object ( Bucket = self . __bucket , Key = self . get_key ( path ) )
return True
except botocore . exceptions . ClientError as e :
if e . response [ " Error " ] [ " Code " ] == " 404 " :
return False
else :
raise
def get_file_size ( self , path ) :
response = self . __client . head_object (
Bucket = self . __bucket , Key = self . get_key ( path )
)
return response [ " ContentLength " ]
def read_file ( self , path ) :
with self . open_file ( path ) as f :
return f . read ( )
def open_file ( self , path ) :
response = self . __client . get_object (
Bucket = self . __bucket , Key = self . get_key ( path )
)
return response [ " Body " ]
def extract_file ( self , path , writer , out_path ) :
if isinstance ( writer , FileWriter ) :
self . __client . download_file (
Bucket = self . __bucket ,
Key = self . get_key ( path ) ,
Filename = writer . get_abs_path ( out_path ) ,
)
else :
with writer . open_file ( out_path ) as ostream :
self . __client . download_fileobj (
Bucket = self . __bucket , Key = self . get_key ( path ) , Fileobj = ostream
)
def get_key ( self , path ) :
if path . startswith ( " / " ) :
path = path [ 1 : ]
return self . __key + " / " + path
# Parses a S3 URI with detecting endpoint, bucket name, and key.
class S3URI :
def __init__ ( self , uri ) :
parsed_url = urlparse ( uri , allow_fragments = False )
if not self . __parse_virtual_hosted ( parsed_url ) and not self . __parse_path_style (
parsed_url
) :
raise Exception ( f " S3URI: Could not parse { uri } " )
# https://bucket-name.s3.Region.amazonaws.com/key
def __parse_virtual_hosted ( self , parsed_url ) :
host = parsed_url . netloc
if host . find ( " .s3 " ) == - 1 :
return False
self . bucket , new_host = path . split ( " .s3 " , maxsplit = 1 )
if len ( self . bucket ) < 3 :
return False
new_host = " s3 " + new_host
self . endpoint = parsed_url . scheme + " :// " + new_host
path = parsed_url . path
if path . startswith ( " / " ) :
path = path [ 1 : ]
if path . endswith ( " / " ) :
path = path [ : - 1 ]
self . key = path
return True
# https://s3.Region.amazonaws.com/bucket-name/key
def __parse_path_style ( self , parsed_url ) :
self . endpoint = parsed_url . scheme + " :// " + parsed_url . netloc
path = parsed_url . path
if path . startswith ( " / " ) :
path = path [ 1 : ]
if path . endswith ( " / " ) :
path = path [ : - 1 ]
if path . find ( " / " ) == - 1 :
self . bucket = path
self . key = " "
else :
self . bucket , self . key = path . split ( " / " , maxsplit = 1 )
if len ( self . bucket ) < 3 :
return False
return True
# Helps to read a backup from a zip-archive.
class ZipReader :
def __init__ ( self , base_reader , archive_name ) :
self . __base_reader = None
self . __zipfileobj = None
self . __zipfile = None
try :
self . __base_reader = base_reader
self . __zipfileobj = base_reader . open_file ( archive_name )
self . __zipfile = zipfile . ZipFile ( self . __zipfileobj )
except :
self . close ( )
raise
def close ( self ) :
if self . __zipfile is not None :
self . __zipfile . close ( )
self . __zipfile = None
if self . __zipfileobj is not None :
self . __zipfileobj . close ( )
self . __zipfileobj = None
if self . __base_reader is not None :
self . __base_reader . close ( )
self . __base_reader = None
def __enter__ ( self ) :
return self
def __exit__ ( self , exc_type , exc_value , traceback ) :
self . close ( )
def file_exists ( self , path ) :
return self . __get_zippath ( path ) . is_file ( )
def get_file_size ( self , path ) :
return self . __get_zipinfo ( path ) . file_size
def read_file ( self , path ) :
return self . __get_zippath ( path ) . read_bytes ( )
def open_file ( self , path ) :
return self . __get_zippath ( path ) . open ( mode = " rb " )
def extract_file ( self , path , writer , out_path ) :
with self . open_file ( path ) as istream :
with writer . open_file ( out_path ) as ostream :
shutil . copyfileobj ( istream , ostream )
def __get_zippath ( self , path ) :
if path . startswith ( " / " ) :
path = path [ 1 : ]
return zipfile . Path ( self . __zipfile , path )
def __get_zipinfo ( self , path ) :
if path . startswith ( " / " ) :
path = path [ 1 : ]
return self . __zipfile . getinfo ( path )