Network Working Group J. Kunze
Internet-Draft California Digital Library
Intended status: Informational J. Littman
Expires: March 21, 2019 Stanford Libraries
E. Madden
Library of Congress
J. Scancella
C. Adams
Library of Congress
September 17, 2018
The BagIt File Packaging Format (V1.0)
draft-kunze-bagit-17
Abstract
This document describes BagIt, a set of hierarchical file layout
conventions for storage and transfer of arbitrary digital content. A
"bag" has just enough structure to enclose descriptive metadata
"tags" and a file "payload" but does not require knowledge of the
payload's internal semantics. This BagIt format is suitable for
reliable storage and transfer.
Status of This Memo
This Internet-Draft is submitted in full conformance with the
provisions of BCP 78 and BCP 79.
Internet-Drafts are working documents of the Internet Engineering
Task Force (IETF). Note that other groups may also distribute
working documents as Internet-Drafts. The list of current Internet-
Drafts is at https://datatracker.ietf.org/drafts/current/.
Internet-Drafts are draft documents valid for a maximum of six months
and may be updated, replaced, or obsoleted by other documents at any
time. It is inappropriate to use Internet-Drafts as reference
material or to cite them other than as "work in progress."
This Internet-Draft will expire on March 21, 2019.
Copyright Notice
Copyright (c) 2018 IETF Trust and the persons identified as the
document authors. All rights reserved.
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This document is subject to BCP 78 and the IETF Trust's Legal
Provisions Relating to IETF Documents
(https://trustee.ietf.org/license-info) in effect on the date of
publication of this document. Please review these documents
carefully, as they describe your rights and restrictions with respect
to this document. Code Components extracted from this document must
include Simplified BSD License text as described in Section 4.e of
the Trust Legal Provisions and are provided without warranty as
described in the Simplified BSD License.
Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 3
1.1. Purpose . . . . . . . . . . . . . . . . . . . . . . . . . 3
1.2. Requirements . . . . . . . . . . . . . . . . . . . . . . 4
1.3. Terminology . . . . . . . . . . . . . . . . . . . . . . . 4
2. Structure . . . . . . . . . . . . . . . . . . . . . . . . . . 5
2.1. Required Elements . . . . . . . . . . . . . . . . . . . . 5
2.1.1. Bag Declaration: bagit.txt . . . . . . . . . . . . . 6
2.1.2. Payload Directory: data/ . . . . . . . . . . . . . . 6
2.1.3. Payload Manifest: manifest-algorithm.txt . . . . . . 6
2.2. Optional Elements . . . . . . . . . . . . . . . . . . . . 7
2.2.1. Tag Manifest: tagmanifest-algorithm.txt . . . . . . . 7
2.2.2. Bag Metadata: bag-info.txt . . . . . . . . . . . . . 8
2.2.3. Fetch File: fetch.txt . . . . . . . . . . . . . . . . 10
2.2.4. Other Tag Files . . . . . . . . . . . . . . . . . . . 11
2.3. Text Tag File Format . . . . . . . . . . . . . . . . . . 11
2.4. Bag Checksum Algorithms . . . . . . . . . . . . . . . . . 12
3. Complete and Valid bags . . . . . . . . . . . . . . . . . . . 13
4. Examples . . . . . . . . . . . . . . . . . . . . . . . . . . 13
4.1. Example of a basic bag . . . . . . . . . . . . . . . . . 13
4.2. Example bag using fetch.txt . . . . . . . . . . . . . . . 14
5. Security Considerations . . . . . . . . . . . . . . . . . . . 15
5.1. Special directory characters . . . . . . . . . . . . . . 15
5.2. Control of URLs in fetch.txt . . . . . . . . . . . . . . 15
5.3. File sizes in fetch.txt . . . . . . . . . . . . . . . . . 15
5.4. Attacks on payload file content . . . . . . . . . . . . . 16
6. Practical Considerations (non-normative) . . . . . . . . . . 16
6.1. Interoperability . . . . . . . . . . . . . . . . . . . . 16
6.1.1. Filename normalization . . . . . . . . . . . . . . . 16
6.1.2. Windows and Unix file naming . . . . . . . . . . . . 18
6.1.3. Legacy checksum tools . . . . . . . . . . . . . . . . 19
7. Augmented Backus-Naur Form (non-normative) . . . . . . . . . 19
7.1. Bag Declaration: bagit.txt . . . . . . . . . . . . . . . 19
7.2. Payload Manifest: manifest-algorithm.txt . . . . . . . . 20
7.3. Bag Metadata: bag-info.txt . . . . . . . . . . . . . . . 20
7.4. Fetch File: fetch.txt . . . . . . . . . . . . . . . . . . 20
8. Contributors . . . . . . . . . . . . . . . . . . . . . . . . 20
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9. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . 21
10. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 21
11. References . . . . . . . . . . . . . . . . . . . . . . . . . 21
11.1. Normative References . . . . . . . . . . . . . . . . . . 21
11.2. Informative References . . . . . . . . . . . . . . . . . 22
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 22
1. Introduction
1.1. Purpose
BagIt is a set of hierarchical file layout conventions designed to
support storage and transfer of arbitrary digital content. A bag
consists of a directory containing the payload files and other
accompanying metadata files known as "tag" files. The "tags" are
metadata files intended to facilitate and document the storage and
transfer of the bag. Processing a bag does not require any
understanding of the payload file contents and the payload files can
be accessed without processing the BagIt metadata.
The name, BagIt, is inspired by the "enclose and deposit" method
[ENCDEP], sometimes referred to as "bag it and tag it". BagIt
differs from serialized archive formats such as MIME, TAR, or ZIP in
two general areas:
1. Strong integrity assurances. The format supports cryptographic-
quality hash algorithms (see Section 2.4) and allows for in-place
upgrades to add additional manifests using stronger algorithms
without breaking backwards compatibility. This provides high
levels of confidence against data corruption but is not designed
to be secure against active attacks.
2. Direct file access. Because BagIt specifies an actual filesystem
hierarchy rather than a serialized representation of one, files
can be accessed using standard operating system utilities,
implementations do not need to process a potentially large
archive file to extract a subset of data, and the format imposes
no size limits for either individual files or a bag.
BagIt is widely used for preserving digital assets originating from
different domains. Organizations involved in digital preservation
with BagIt include the Library of Congress, Dryad Data Repository,
NSF DataONE, and the Rockefeller Archive Center. Software
implementations are available for many languages including Python,
Ruby, Java, Perl, and PHP. It is also used in the libraries of many
universities, such as Cornell, Purdue, Stanford, Ghent University,
New York University, and the University of California.
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1.2. Requirements
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and
"OPTIONAL" in this document are to be interpreted as described in BCP
14 [RFC2119] [RFC8174] when, and only when, they appear in all
capitals as shown here.
Implementers are strongly encouraged to review the interoperability
considerations described in Section 6.1.
1.3. Terminology
The following terms have precise definitions as used in this
document:
bag A set of opaque files contained within the structure defined by
this document.
bag declaration The file required to be in all bags conforming to
this document. Contains values necessary to process the rest of a
bag. See Section 2.1.1.
bag checksum algorithm The name of a cryptographic checksum
algorithm which has been normalized for use in a manifest or tag
manifest file name (e.g. "sha512") as described in Section 2.4.
manifest A tag file thats maps filepaths to checksums. A manifest
can be a payload manifest Section 2.1.3 or a tag manifest
Section 2.2.1.
payload The data encapsulated by the bag as a set of named files,
which may be organized in sub-directories. The contents of the
payload files are opaque to this document, and, with respect to
BagIt processing, are always considered as sequences of
uninterpreted octets. See Section 2.1.2.
tag directory A directory that contains one or more tag files.
tag file A file which contains metadata about the bag or its
payload. This document defines the standard BagIt tag files: the
bag declaration in "bagit.txt" Section 2.1.1, payload manifests
Section 2.1.3, tag manifests Section 2.2.1, bag metadata in "bag-
info.txt" Section 2.2.2, and remote payload in "fetch.txt"
Section 2.2.3. This document also allows other arbitrary tag
files as described in Section 2.2.4.
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complete A bag which contains every element required by this
document, every payload file listed in a manifest, and any
optional files which are listed in a tag manifest. See Section 3.
valid A complete bag where every checksum in every manifest has been
successfully verified against the corresponding file.
2. Structure
A bag MUST consist of a base directory containing:
1. a set of required and optional tag files Section 2.2
2. a sub-directory named "data", called the payload directory.
Section 2.1.2
3. a set of optional tag directories
The tag files in the base directory consist of one or more files
named "manifest-_algorithm_.txt" (see Section 2.1.3 and Section 2.4),
a file named "bagit.txt" (see Section 2.1.1), and zero or more
additional tag files (see Section 2.2). The tag files and
directories are in arbitrary file hierarchies and MAY have any name
that is not reserved for a file or directory in this document.
The base directory can have any name.
/
|
+-- bagit.txt
|
+-- manifest-.txt
|
+-- [additional tag files]
|
+-- data/
| |
| +-- [payload files]
|
+-- [tag directories]/
|
+-- [tag files]
2.1. Required Elements
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2.1.1. Bag Declaration: bagit.txt
The "bagit.txt" tag file MUST consist of exactly two lines in this
order:
BagIt-Version: M.N
Tag-File-Character-Encoding: ENCODING
_M.N_ identifies the BagIt major (M) and minor (N) version numbers.
_ENCODING_ identifies the character set encoding used by the
remaining tag files. _ENCODING_ SHOULD be "UTF-8" but for backwards
compatibility it MAY be any other encoding registered in
[cs-registry]. The bag declaration itself MUST be encoded in UTF-8,
and MUST NOT contain a byte-order mark (BOM) [RFC3629].
The number for this version of BagIt is "1.0".
2.1.2. Payload Directory: data/
The base directory MUST contain a sub-directory named "data".
The payload directory contains the arbitrary digital content within
the bag. The files under the payload directory are called payload
files, or the payload. Each payload file is treated as an opaque
octet stream when verifying file correctness. Payload files MAY be
organized in arbitrary sub-directory structures within the payload
directory, however for the purpose of this document such sub-
directory structures and filenames have no given meaning.
2.1.3. Payload Manifest: manifest-algorithm.txt
A payload manifest file provides a complete listing of each payload
file name along with a corresponding checksum to permit data
integrity checking. A bag can have more than one payload manifest,
with each using a different checksum algorithm. Manifest entries
MUST satisfy the following constraints:
o Every bag MUST contain at least one payload manifest file and MAY
contain more than one.
o Every payload manifest MUST list every payload file name exactly
once.
o A payload manifest file MUST have a name of the form "manifest-
_algorithm_.txt", where _algorithm_ is a string specifying the
checksum algorithm used by that manifest as described in
Section 2.4.
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Example payload manifest filenames
manifest-sha256.txt
manifest-sha512.txt
Each line of a payload manifest file MUST be of the form:
checksum filepath
where _filepath_ is the pathname of a file relative to the base
directory, and _checksum_ is a hex-encoded checksum calculated
according to _algorithm_ over every octet in the file.
o The hex-encoded checksum MAY use uppercase and/or lowercase
letters.
o The slash character ('/') MUST be used as a path separator in
_filepath_.
o One or more linear whitespace characters (spaces or tabs) MUST
separate _checksum_ from _filepath_.
o There is no limitation on the length of a pathname.
o The payload manifest MUST NOT reference files outside the payload
directory.
o If a _filepath_ includes a line feed (LF), a carriage return (CR),
carriage return plus line feed (CRLF) or percent sign (%), those
characters (and only those) MUST be percent-encoded following
[RFC3986].
A manifest MUST NOT reference directories. Bag creators who wish to
create an otherwise empty directory have typically done so by
creating an empty placeholder file with a name such as ".keep".
2.2. Optional Elements
2.2.1. Tag Manifest: tagmanifest-algorithm.txt
A tag manifest is a tag file that lists other tag files and checksums
for those tag files generated using a particular bag checksum
algorithm.
A bag MAY contain one or more tag manifests, in which case each tag
manifest SHOULD list the same set of tag files.
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Each tag manifest MUST list every payload manifest. Each tag
manifest MUST NOT list any tag manifests, but SHOULD list the
remaining tag files present in the bag.
A tag manifest file MUST have a name of the form "tagmanifest-
_algorithm_.txt", where _algorithm_ is a string following the format
described in Section 2.4 specifying the bag checksum algorithm used
in that manifest.
Tag manifests SHOULD use the same algorithms as the payload manifests
that are present in the bag.
Example tag manifest filenames:
tagmanifest-sha256.txt
tagmanifest-sha512.txt
A tag manifest file has the same form as the payload file manifest
file described in Section 2.1.3, but MUST NOT list any payload files.
As a result, no _filepath_ listed in a tag manifest begins "data/".
2.2.2. Bag Metadata: bag-info.txt
The "bag-info.txt" file is a tag file that contains metadata elements
describing the bag and the payload. The metadata elements contained
in the "bag-info.txt" file are intended primarily for human use. All
metadata elements are OPTIONAL and MAY be repeated. Because "bag-
info.txt" is intended for human reading and editing, ordering MAY be
significant and the ordering of metadata elements MUST be preserved.
A metadata element MUST consist of a label, a colon ":", a single
linear whitespace character (space or tab), and a value, terminated
with a line feed (CR), carriage return (LF) or carriage return plus
line feed (CRLF).
The label MUST NOT contain colon (:), line feeds (LF) or carriage
returns (CR). The label MAY contain linear whitespace characters,
but MUST NOT start or end with whitespace.
It is RECOMMENDED that lines not exceed 79 characters in length.
Long values MAY be continued onto the next line by inserting a line
feed (LF), a carriage return (CR), or carriage return plus line feed
(CRLF) and indenting the next line with one or more linear white
space (spaces or tabs). Except for linebreaks such padding does not
form part of the value.
Implementations wishing to support previous BagIt versions MUST
accept multiple linear whitespace before and after the colon when the
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bag version is earlier than 1.0; such whitespace does not form part
of the label or value.
The following are reserved metadata elements. The use of these
reserved metadata elements are OPTIONAL but encouraged. Reserved
metadata element names are case-insensitive. Except where indicated
otherwise, these metadata element names MAY be repeated to capture
multiple values.
Source-Organization Organization transferring the content.
Organization-Address Mailing address of the source organization.
Contact-Name Person at the source organization who is responsible
for the content transfer.
Contact-Phone International format telephone number of person or
position responsible.
Contact-Email Fully qualified email address of person or position
responsible.
External-Description A brief explanation of the contents and
provenance.
Bagging-Date Date (YYYY-MM-DD) that the content was prepared for
transfer. This metadata element SHOULD NOT be repeated.
External-Identifier A sender-supplied identifier for the bag.
Bag-Size Size or approximate size of the bag being transferred,
followed by an abbreviation such as MB (megabytes), GB, or TB; for
example, 42600 MB, 42.6 GB, or .043 TB. Compared to Payload-Oxum
(described next), Bag-Size is intended for human consumption.
This metadata element SHOULD NOT be repeated.
Payload-Oxum The "octetstream sum" of the payload, intended for the
purpose of quickly detecting incomplete bags before performing
checksum validation. This is strictly an optimization and
implementations MUST perform the standard checksum validation
process before proclaiming a bag to be valid. This element MUST
NOT be present more than once and, if present, MUST be in the form
"_OctetCount_._StreamCount_", where _OctetCount_ is the total
number of octets (8-bit bytes) across all payload file content and
_StreamCount_ is the total number of payload files. This metadata
element MUST NOT be repeated.
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Bag-Group-Identifier A sender-supplied identifier for the set, if
any, of bags to which it logically belongs. This identifier
SHOULD be unique across the sender's content, and if recognizable
as belonging to a globally unique scheme, the receiver SHOULD make
an effort to honor reference to it. This metadata element SHOULD
NOT be repeated.
Bag-Count Two numbers separated by "of", in particular, "N of T",
where T is the total number of bags in a group of bags and N is
the ordinal number within the group; if T is not known, specify it
as "?" (question mark). Examples: 1 of 2, 4 of 4, 3 of ?, 89 of
145. This metadata element SHOULD NOT be repeated. If this
metadata element is present, it is RECOMMENDED to also include the
Bag-Group-Identifier element.
Internal-Sender-Identifier An alternate sender-specific identifier
for the content and/or bag.
Internal-Sender-Description A sender-local explanation of the
contents and provenance.
In addition to these metadata elements, other arbitrary metadata
elements MAY also be present.
An example "bag-info.txt" file
Source-Organization: FOO University
Organization-Address: 1 Main St., Cupertino, California, 11111
Contact-Name: Jane Doe
Contact-Phone: +1 111-111-1111
Contact-Email: example@example.com
External-Description: Uncompressed greyscale TIFF images from the
FOO papers colle...
Bagging-Date: 2008-01-15
External-Identifier: university_foo_001
Payload-Oxum: 279164409832.1198
Bag-Group-Identifier: university_foo
Bag-Count: 1 of 15
Internal-Sender-Identifier: /storage/images/foo
Internal-Sender-Description: Uncompressed greyscale TIFFs created
from microfilm and are...
2.2.3. Fetch File: fetch.txt
For reasons of efficiency, a bag MAY be sent with a list of files to
be fetched and added to the payload before it can meaningfully be
checked for completeness. The fetch file allows a bag to be
transmitted with "holes" in it, which can be practical for several
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reasons. For example, it obviates the need for the sender to stage a
large serialized copy of the content while the bag is transferred to
the receiver. Also, this method allows a sender to construct a bag
from components that are either a subset of logically related
components (e.g., the localized logical object could be much larger
than what is intended for export) or assembled from logically
distributed sources (e.g., the object components for export are not
stored locally under one filesystem tree). An OPTIONAL tag file
called the fetch file contains such a list.
The fetch file MUST be named "fetch.txt". Every file listed in the
fetch file MUST be listed in every payload manifest. A fetch file
MUST NOT list any tag files.
Each line of a fetch file MUST be of the form:
url length filepath
where _url_ identifies the file to be fetched and MUST be an absolute
URI as defined in [RFC3986], _length_ is the number of octets in the
file (or "-", to leave it unspecified), and _filepath_ identifies the
corresponding payload file, relative to the base directory.
The slash character ('/') MUST be used as a path separator in
_filepath_. One or more linear whitespace characters (spaces or tabs)
MUST separate these three values, and any such characters in the
_url_ MUST be percent-encoded [RFC3986]. If _filename_ includes a
line feed (LF), a carriage return (CR), carriage return plus line
feed (CRLF) or percent sign (%), those characters (and only those)
MUST be percent-encoded following [RFC3986]. There is no limitation
on the length of any of the fields in the fetch file.
2.2.4. Other Tag Files
A bag MAY contain other tag files that are not defined by this
document. Implementations MUST perform standard checksum validation
on any tag file which is listed in a tag manifest but MUST otherwise
ignore their contents.
2.3. Text Tag File Format
All tag files specifically described in this document MUST adhere to
the text tag file format described below. Other tag files MAY adhere
to the text tag file format described below.
Text tag files are line-oriented, and each line MUST be terminated by
a line feed (LF), a carriage return (CR), or carriage return plus
newline (CRLF). It is RECOMMENDED that the last line in a tag file
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also ends with LF, CR, or CRLF. Text tag file names MUST end in the
extension ".txt".
In all text tag files except for the bag declaration file, text MUST
use the character encoding specified in the "bagit.txt" bag
declaration file. Text tag files except for the bag declaration file
MAY include a byte-order mark (BOM) only if the specified encoding
requires it for proper decoding. In accordance with [RFC3629], when
"bagit.txt" specifies UTF-8 the tag files MUST NOT begin with a byte-
order mark (BOM). See Section 2.1.1
The use of UTF-8 for text tag files is strongly RECOMMENDED. A
future version of BagIt may disallow encodings other than UTF-8.
2.4. Bag Checksum Algorithms
The payload manifest and tag manifests permit validating the
integrity of the payload and tag files in a bag produced by the
checksum algorithms. Checksum values MUST be encoded so as to
conform to the manifest format specified in Section 2.1.3. However,
the internal details of a checksum are outside the scope of this
document.
To avoid future ambiguity, the checksum algorithm SHOULD be
registered in IANA's "Named Information Hash Algorithm Registry"
[ni-registry] according to [RFC6920], but MAY for backwards
compatibility also be MD5 [RFC1321] or SHA-1 [RFC3174].
The name of the checksum algorithm MUST be normalized for use in the
manifest's filename by lowercasing the common name of the algorithm
and removing all non-alphanumeric characters. Following is a partial
list mapping common algorithm names to normalized names:
o MD5: md5
o SHA-1: sha1
o sha-256: sha256
o sha-512: sha512
Starting with BagIt 1.0, bag creation and validation tools MUST
support the SHA-256 and SHA-512 algorithms [RFC6234] and SHOULD
enable SHA-512 by default when creating new bags. For backwards
compatibility implementers SHOULD support MD5 [RFC1321] and SHA-1
[RFC3174]. Implementers are encouraged to simplify the process of
adding additional manifests using new algorithms to streamline the
process of in-place upgrades.
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3. Complete and Valid bags
A _complete_ bag MUST meet the following requirements:
1. Every required element MUST be present (Section 2.1).
2. Every file listed in every tag manifest MUST be present.
3. Every file listed in every payload manifest MUST be present.
4. For BagIt 1.0, every payload file MUST be listed in every payload
manifest. Note that older versions of BagIt allowed payload
files to be listed in just one of the manifests.
5. Every element present MUST conform to BagIt 1.0.
A _valid_ bag MUST meet the following requirements:
1. The bag MUST be _complete_.
2. Every checksum in every payload manifest and tag manifest has
been successfully verified against the contents of the
corresponding file.
4. Examples
4.1. Example of a basic bag
This is the layout of a basic bag containing an image and a companion
OCR file. Lines of file content are shown with added parentheses to
indicate each complete line. For brevity this example uses MD5
rather than the recommended SHA-512.
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myfirstbag/
|
| manifest-md5.txt
| (49afbd86a1ca9f34b677a3f09655eae9 data/27613-h/images/q172.png)
| (408ad21d50cef31da4df6d9ed81b01a7 data/27613-h/images/q172.txt)
|
| bagit.txt
| (BagIt-version: 1.0 )
| (Tag-File-Character-Encoding: UTF-8 )
|
\--- data/
|
| 27613-h/images/q172.png
| (... image bytes ... )
|
| 27613-h/images/q172.txt
| (... OCR text ... )
....
4.2. Example bag using fetch.txt
This is the layout of a bag which expects the receiver to download
the files listed in the payload manifests prior to validation. Lines
of file content are shown with added parentheses to indicate each
complete line. For brevity this example uses MD5 rather than the
recommended SHA-512.
highsmith-tahoe/
|
| manifest-md5.txt
| (102b0e6effe208ef9b29864946de9e22 data/23364a.tif )
|
| fetch.txt
| (https://cdn.loc.gov/master/pnp/highsm/23300/23364a.tif
| 216951362 data/23364a.tif )
|
| bagit.txt
| (BagIt-version: 1.0 )
| (Tag-File-Character-Encoding: UTF-8 )
|
| bag-info.txt
| (Internal-Sender-Description: Download link found at )
| ( https://www.loc.gov/resource/highsm.23364/ )
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5. Security Considerations
5.1. Special directory characters
The paths specified in the payload manifests, tag manifests, and
fetch files do not prohibit special directory characters which have
special meaning on some operating systems. Implementers MUST ensure
that files outside the bag directory structure are not accessed when
reading or writing files based on paths specified in a bag.
All implementations SHOULD have a test suite to guard against special
directory characters.
For example, a maliciously crafted "tagmanifest-sha512.txt" file
might contain entries which begin with a path character such as "/",
"..", or a "~username" home directory reference in an attempt to
cause a naive implementation to leak or overwrite targeted files on a
POSIX operating system.
Windows implementations SHOULD test their implementations to ensure
that safety-checks prevent use of drive letters and the less commonly
used namespace sequences (e.g. "\\?\C:\...") described in [MSFNAM].
To assist implementers, the Library of Congress conformance suite
[LC-CONFORMANCE-SUITE] has some tests for invalid bags which are
expected to fail on POSIX or Windows clients.
5.2. Control of URLs in fetch.txt
Implementers of tools that complete bags by retrieving URLs listed in
a fetch file need to be aware that some of those URLs might point to
hosts, intentionally or unintentionally, that are not under control
of the bag's sender. Moreover, older checksum algorithms, even if
reasonable for detecting corruption during transit, may not offer
strong cryptographic protection against intentional spoofing.
5.3. File sizes in fetch.txt
The size of files, as optionally reported in the fetch file, cannot
be guaranteed to match the actual file size to be downloaded.
Implementers SHOULD take steps to monitor and abort transfer when the
received file size exceeds the file size reported in the fetch file.
Implementers SHOULD NOT use the file size in the fetch file for
critical resource allocation, such as buffer sizing or storage
requisitioning.
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5.4. Attacks on payload file content
The integrity assurance provided by manifests is designed to provide
high levels of confidence against data corruption but is not designed
to be secure against active attacks. Organizations that need to
secure bags against such threats SHOULD agree on additional measures,
such as digital signatures, that are out of scope for this
specification.
6. Practical Considerations (non-normative)
6.1. Interoperability
This section lists practical considerations for implementers and
users. None of the points below are required but they are
recommended for general-purpose usage.
Upon discovering errors in bags, an implementation is free to take
action (for example, logging or reporting) in an application-specific
manner. This document does not mandate any particular action.
The Library of Congress conformance suite [LC-CONFORMANCE-SUITE] is
provided as a public resource to test new implementations for
compatibility and error handling.
6.1.1. Filename normalization
This section provides background information on various challenges
caused by differences in how operating systems, filesystems, and
common tools handle filenames followed by a list of recommendations
for implementers in Section 6.1.1.3.
6.1.1.1. Case sensitivity
There are two challenges for interoperability related to filename
case:
o Filesystems such as FAT or EXFAT always convert filenames to
uppercase: "example.txt" will be stored as "EXAMPLE.TXT"
o Many Unix filesystems save filenames exactly as provided, allowing
multiple files which differ only in case: "example.txt" and
"Example.txt" are separate files
o NTFS and Apple's HFS Plus usually preserve case when storing files
but are case-insensitive when retrieving them. A file saved as
"Example.txt" will be retrieved by that name but will also be
retrieved as "EXAMPLE.TXT", "example.txt", etc.
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6.1.1.2. Unicode normalization
The Unicode specification has common cases where different character
sequences produce the same human-meaningful text. These are referred
to as "canonically equivalent" and the Unicode specification defines
different normalization forms -- see [UNICODE-TR15] for the full
details and a brief example below:
The common surname "Nunez" normalized in different forms
Normalization Form D (Decomposition):
Char UTF8 Hex Name
----------------------------------------------
N 4e LATIN CAPITAL LETTER N
u 75 LATIN SMALL LETTER U
\u0301 cc81 COMBINING ACUTE ACCENT
n 6e LATIN SMALL LETTER N
\u0303 cc83 COMBINING TILDE
e 65 LATIN SMALL LETTER E
z 7a LATIN SMALL LETTER Z
Normalization Form C (Canonical Composition):
Char UTF8 Hex Name
----------------------------------------------
N 4e LATIN CAPITAL LETTER N
u c3ba LATIN SMALL LETTER U WITH ACUTE
n c3b1 LATIN SMALL LETTER N WITH TILDE
e 65 LATIN SMALL LETTER E
z 7a LATIN SMALL LETTER Z
Unicode normalization is relevant to BagIt implementors because
different systems have different standards for normalization:
o Apple's HFS Plus filesystem always normalizes filenames to a
fully-decomposed form based on the Unicode 2.0 specification (see
[TN1150]).
o Windows treats filenames as opaque character sequences (see
[MSFNAM]) and will store and return the encoded bytes exactly as
provided.
o Linux and other common Unix systems are generally similar to
Windows in storing and returning opaque byte streams but this
behaviour is technically filesystem-dependent.
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o Utilities used for file management, transfer, and archival may
ignore this issue, apply an arbitrary normalization form, or allow
the user to control how normalization is applied.
In practice, this means that the encoded filename stored in a
manifest may fail a simple file existence check because the
filename's normalization was changed at some point after the manifest
was written. This situation is very confusing for users because the
filenames are visually indistinguishable and the "missing" file is
obviously present in the payload directory.
6.1.1.3. Recommendations
o Implementations SHOULD discourage the creation of bags containing
files which differ only in case.
o Implementations SHOULD prevent the creation of bags containing
files which differ only in normalization form.
o BagIt implementations SHOULD tolerate differences in normalization
form by comparing both the list of filesystem and manifest names
after applying the same normalization form to both.
o Implementations SHOULD issue a warning when multiple manifests are
present which differ only in case or normalization form.
6.1.2. Windows and Unix file naming
As specified above, only the Unix-based path separator ('/') may be
used inside filenames listed in BagIt manifest and fetch.txt files.
When bags are exchanged between Windows and Unix platforms, the path
separator SHOULD be translated as needed. Receivers of bags on
physical media SHOULD be prepared for filesystems created under
either Windows or Unix. Besides the fundamental difference between
path separators ('\' and '/'), generally, Windows filesystems have
more limitations than Unix filesystems.
Windows path names have a maximum of 255 characters, and none of
these characters may be used in a path component:
< > : " / | ? *
Windows also reserves the following names, with or without a file
extension:
CON, PRN, AUX, NUL
COM1, COM2, COM3, COM4, COM5, COM6, COM7, COM8, COM9
LPT1, LPT2, LPT3, LPT4, LPT5, LPT6, LPT7, LPT8, LPT9
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See [MSFNAM] for more information and possible alternatives.
6.1.3. Legacy checksum tools
Some bags have been manually assembled using checksum utilities such
as those contained in the GNU Coreutils package (md5sum, sha1sum,
etc.), collectively referred to here as "md5sum". Implementers who
desire wide support of legacy content should be aware of some known
quirks of these tools:
md5sum can be run in "text mode" which causes it to normalize line-
endings on some operating systems. On Unix-like systems both modes
will usually produce the same results but on systems like Windows
they can produce different results based on the file contents. The
md5sum output format has two characters between the checksum and the
filepath: the first is always a space and the second is an asterisk
("*") for binary mode and a space for text mode.
A final note about md5sum-generated manifests is that for a
_filepath_ containing a backslash ('\'), the manifest line will have
a backslash inserted in front of the _checksum_ and, under Windows,
the backslashes inside _filepath_ can be doubled.
Implementers MAY wish to accept this format by ignoring a leading
asterisk or handling differences in line termination gracefully but,
if so, implementations MUST warn the user that the bag in question
will fail strict validation. In such cases it is RECOMMENDED that
tools provide an easy option to update the bag with valid manifests.
7. Augmented Backus-Naur Form (non-normative)
The Augmented Backus-Naur Form (ABNF) rules provided below are non-
normative. If there is a discrepancy between requirements in the
normative sections and the ABNF, the requirements in the normative
sections prevail. Some definitions use the core rules (e.g. DIGIT,
HEXDIG, etc) as defined in [RFC4234]
7.1. Bag Declaration: bagit.txt
bagit.txt ABNF rules:
bagit-txt = "BagIt-Version: " 1*DIGIT "." 1*DIGIT ending
"Tag-File-Character-Encoding: " encoding ending
encoding = 1*CHAR
ending = CR / LF / CRLF
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7.2. Payload Manifest: manifest-algorithm.txt
Payload Manifest ABNF rules:
payload-manifest = 1*payload-manifest-line
payload-manifest-line = checksum 1*WSP filepath ending
checksum = 1*case-hexdig
case-hexdig = DIGIT / "A" / "a" / "B" / "b" / "C" / "c" /
"D" / "d" / "E"/ "e"/ "F" / "f"
filepath = "data/"
1*( unreserved / pct-encoded / sub-delims )
unreserved = ALPHA / DIGIT / "-" / "." / "_" / "~"
sub-delims = "!" / "$" / "&" / DQUOTE / "'" / "(" / ")" /
"*" / "+" / "," / ";" / "=" / "/"
pct-encoded = "%0D" / "%0d" / "%0A" / "%0a" / "%25"
ending = CR / LF / CRLF
7.3. Bag Metadata: bag-info.txt
bag-info.txt ABNF rules:
metadata = 1*metadata-line
metadata-line = key ":" WSP value ending *(continuation ending)
key = 1*non-reserved
value = 1*non-reserved
continuation = WSP 1*non-reserved
non-reserved = VCHAR / WSP
; any valid character for the specific encoding
; except those that match "ending"
ending = CR / LF / CRLF
7.4. Fetch File: fetch.txt
fetch.txt ABNF rules:
fetch = 1*fetch-line
fetch-line = url 1*WSP length 1*WSP filepath ending
url =
length = 1*DIGIT / "-"
filepath = ("data/"
1*( unreserved / pct-encoded / sub-delims ))
ending = CR / LF / CRLF
8. Contributors
Additional contributors to the authoring of BagIt are Andy Boyko,
David Brunton, Rosie Storey, Ed Summers, Brian Vargas, and Kate
Zwaard.
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9. Acknowledgements
BagIt benefitted from the thoughtful assistance of Stephen Abrams,
Mike Ashenfelder, Dan Chudnov, Dave Crocker, Scott Fisher, Brad
Hards, Erik Hetzner, Keith Johnson, Leslie Johnston, David Loy, Mark
Phillips, Tracy Seneca, Stian Soiland-Reyes, Brian Tingle, Adam
Turoff, and Jim Tuttle.
10. IANA Considerations
This draft does not request any action from IANA.
11. References
11.1. Normative References
[cs-registry]
IANA, "Character Set Registry", 12 2013,
.
[ni-registry]
IANA, "Named Information Hash Algorithm Registry", 9 2016,
.
[RFC1321] Rivest, R., "The MD5 Message-Digest Algorithm", RFC 1321,
DOI 10.17487/RFC1321, April 1992,
.
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119,
DOI 10.17487/RFC2119, March 1997,
.
[RFC3174] Eastlake 3rd, D. and P. Jones, "US Secure Hash Algorithm 1
(SHA1)", RFC 3174, DOI 10.17487/RFC3174, September 2001,
.
[RFC3629] Yergeau, F., "UTF-8, a transformation format of ISO
10646", STD 63, RFC 3629, DOI 10.17487/RFC3629, November
2003, .
[RFC3986] Berners-Lee, T., Fielding, R., and L. Masinter, "Uniform
Resource Identifier (URI): Generic Syntax", STD 66,
RFC 3986, DOI 10.17487/RFC3986, January 2005,
.
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[RFC6234] Eastlake 3rd, D. and T. Hansen, "US Secure Hash Algorithms
(SHA and SHA-based HMAC and HKDF)", RFC 6234,
DOI 10.17487/RFC6234, May 2011,
.
[RFC6920] Farrell, S., Kutscher, D., Dannewitz, C., Ohlman, B.,
Keranen, A., and P. Hallam-Baker, "Naming Things with
Hashes", RFC 6920, DOI 10.17487/RFC6920, April 2013,
.
[RFC8174] Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC
2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC8174,
May 2017, .
11.2. Informative References
[ENCDEP] Tabata, K., "A Collaboration Model between Archival
Systems to Enhance the Reliability of Preservation by an
Enclose-and-Deposit Method", 2005,
.
[LC-CONFORMANCE-SUITE]
The Library of Congress, "BagIt Conformance Suite", 2016-,
.
[MSFNAM] Microsoft, Inc., "Naming a File", 2008,
.
[RFC4234] Crocker, D., Ed. and P. Overell, "Augmented BNF for Syntax
Specifications: ABNF", RFC 4234, DOI 10.17487/RFC4234,
October 2005, .
[TN1150] Apple Inc., "Technical Note TN1150: HFS Plus Volume
Format", 3 2004,
.
[UNICODE-TR15]
Unicode Consortium, "Unicode(R) Standard Annex #15:
Unicode Normalization Forms", 2 2016,
.
Authors' Addresses
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John A. Kunze
California Digital Library
415 20th St, 4th Floor
Oakland, CA 94612
US
Email: jak@ucop.edu
Justin Littman
Stanford Libraries
518 Memorial Way
Stanford, CA 94305
USA
Email: justinlittman@stanford.edu
Liz Madden
Library of Congress
101 Independence Avenue SE
Washington, DC 20540
USA
Email: emad@loc.gov
John Scancella
Email: john.scancella@gmail.com
Chris Adams
Library of Congress
101 Independence Avenue SE
Washington, DC 20540
USA
Email: cadams@loc.gov
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