[GitHub/mt8127/android_kernel_alcatel_ttab.git] / Documentation / crypto / api-intro.txt


                    Scatterlist Cryptographic API
                   
INTRODUCTION

The Scatterlist Crypto API takes page vectors (scatterlists) as
arguments, and works directly on pages.  In some cases (e.g. ECB
mode ciphers), this will allow for pages to be encrypted in-place
with no copying.

One of the initial goals of this design was to readily support IPsec,
so that processing can be applied to paged skb's without the need
for linearization.


DETAILS

At the lowest level are algorithms, which register dynamically with the
API.

'Transforms' are user-instantiated objects, which maintain state, handle all
of the implementation logic (e.g. manipulating page vectors) and provide an 
abstraction to the underlying algorithms.  However, at the user 
level they are very simple.

Conceptually, the API layering looks like this:

  [transform api]  (user interface)
  [transform ops]  (per-type logic glue e.g. cipher.c, compress.c)
  [algorithm api]  (for registering algorithms)
  
The idea is to make the user interface and algorithm registration API
very simple, while hiding the core logic from both.  Many good ideas
from existing APIs such as Cryptoapi and Nettle have been adapted for this.

The API currently supports five main types of transforms: AEAD (Authenticated
Encryption with Associated Data), Block Ciphers, Ciphers, Compressors and
Hashes.

Please note that Block Ciphers is somewhat of a misnomer.  It is in fact
meant to support all ciphers including stream ciphers.  The difference
between Block Ciphers and Ciphers is that the latter operates on exactly
one block while the former can operate on an arbitrary amount of data,
subject to block size requirements (i.e., non-stream ciphers can only
process multiples of blocks).

Support for hardware crypto devices via an asynchronous interface is
under development.

Here's an example of how to use the API:

	#include <linux/crypto.h>
	#include <linux/err.h>
	#include <linux/scatterlist.h>
	
	struct scatterlist sg[2];
	char result[128];
	struct crypto_hash *tfm;
	struct hash_desc desc;
	
	tfm = crypto_alloc_hash("md5", 0, CRYPTO_ALG_ASYNC);
	if (IS_ERR(tfm))
		fail();
		
	/* ... set up the scatterlists ... */

	desc.tfm = tfm;
	desc.flags = 0;
	
	if (crypto_hash_digest(&desc, sg, 2, result))
		fail();
	
	crypto_free_hash(tfm);

    
Many real examples are available in the regression test module (tcrypt.c).


DEVELOPER NOTES

Transforms may only be allocated in user context, and cryptographic
methods may only be called from softirq and user contexts.  For
transforms with a setkey method it too should only be called from
user context.

When using the API for ciphers, performance will be optimal if each
scatterlist contains data which is a multiple of the cipher's block
size (typically 8 bytes).  This prevents having to do any copying
across non-aligned page fragment boundaries.


ADDING NEW ALGORITHMS

When submitting a new algorithm for inclusion, a mandatory requirement
is that at least a few test vectors from known sources (preferably
standards) be included.

Converting existing well known code is preferred, as it is more likely
to have been reviewed and widely tested.  If submitting code from LGPL
sources, please consider changing the license to GPL (see section 3 of
the LGPL).

Algorithms submitted must also be generally patent-free (e.g. IDEA
will not be included in the mainline until around 2011), and be based
on a recognized standard and/or have been subjected to appropriate
peer review.

Also check for any RFCs which may relate to the use of specific algorithms,
as well as general application notes such as RFC2451 ("The ESP CBC-Mode
Cipher Algorithms").

It's a good idea to avoid using lots of macros and use inlined functions
instead, as gcc does a good job with inlining, while excessive use of
macros can cause compilation problems on some platforms.

Also check the TODO list at the web site listed below to see what people
might already be working on.


BUGS

Send bug reports to:
linux-crypto@vger.kernel.org
Cc: Herbert Xu <herbert@gondor.apana.org.au>,
    David S. Miller <davem@redhat.com>


FURTHER INFORMATION

For further patches and various updates, including the current TODO
list, see:
http://gondor.apana.org.au/~herbert/crypto/


AUTHORS

James Morris
David S. Miller
Herbert Xu


CREDITS

The following people provided invaluable feedback during the development
of the API:

  Alexey Kuznetzov
  Rusty Russell
  Herbert Valerio Riedel
  Jeff Garzik
  Michael Richardson
  Andrew Morton
  Ingo Oeser
  Christoph Hellwig

Portions of this API were derived from the following projects:
  
  Kerneli Cryptoapi (http://www.kerneli.org/)
    Alexander Kjeldaas
    Herbert Valerio Riedel
    Kyle McMartin
    Jean-Luc Cooke
    David Bryson
    Clemens Fruhwirth
    Tobias Ringstrom
    Harald Welte

and;
  
  Nettle (http://www.lysator.liu.se/~nisse/nettle/)
    Niels Möller

Original developers of the crypto algorithms:

  Dana L. How (DES)
  Andrew Tridgell and Steve French (MD4)
  Colin Plumb (MD5)
  Steve Reid (SHA1)
  Jean-Luc Cooke (SHA256, SHA384, SHA512)
  Kazunori Miyazawa / USAGI (HMAC)
  Matthew Skala (Twofish)
  Dag Arne Osvik (Serpent)
  Brian Gladman (AES)
  Kartikey Mahendra Bhatt (CAST6)
  Jon Oberheide (ARC4)
  Jouni Malinen (Michael MIC)
  NTT(Nippon Telegraph and Telephone Corporation) (Camellia)

SHA1 algorithm contributors:
  Jean-Francois Dive
  
DES algorithm contributors:
  Raimar Falke
  Gisle Sælensminde
  Niels Möller

Blowfish algorithm contributors:
  Herbert Valerio Riedel
  Kyle McMartin

Twofish algorithm contributors:
  Werner Koch
  Marc Mutz

SHA256/384/512 algorithm contributors:
  Andrew McDonald
  Kyle McMartin
  Herbert Valerio Riedel
  
AES algorithm contributors:
  Alexander Kjeldaas
  Herbert Valerio Riedel
  Kyle McMartin
  Adam J. Richter
  Fruhwirth Clemens (i586)
  Linus Torvalds (i586)

CAST5 algorithm contributors:
  Kartikey Mahendra Bhatt (original developers unknown, FSF copyright).

TEA/XTEA algorithm contributors:
  Aaron Grothe
  Michael Ringe

Khazad algorithm contributors:
  Aaron Grothe

Whirlpool algorithm contributors:
  Aaron Grothe
  Jean-Luc Cooke

Anubis algorithm contributors:
  Aaron Grothe

Tiger algorithm contributors:
  Aaron Grothe

VIA PadLock contributors:
  Michal Ludvig

Camellia algorithm contributors:
  NTT(Nippon Telegraph and Telephone Corporation) (Camellia)

Generic scatterwalk code by Adam J. Richter <adam@yggdrasil.com>

Please send any credits updates or corrections to:
Herbert Xu <herbert@gondor.apana.org.au>
Commit	Line	Data
1da177e4 LT	1
	2	Scatterlist Cryptographic API
	3
	4	INTRODUCTION
	5
	6	The Scatterlist Crypto API takes page vectors (scatterlists) as
	7	arguments, and works directly on pages. In some cases (e.g. ECB
	8	mode ciphers), this will allow for pages to be encrypted in-place
	9	with no copying.
	10
	11	One of the initial goals of this design was to readily support IPsec,
	12	so that processing can be applied to paged skb's without the need
	13	for linearization.
	14
	15
	16	DETAILS
	17
	18	At the lowest level are algorithms, which register dynamically with the
	19	API.
	20
	21	'Transforms' are user-instantiated objects, which maintain state, handle all
878b9014 HX	22	of the implementation logic (e.g. manipulating page vectors) and provide an
878b9014 HX	23	abstraction to the underlying algorithms. However, at the user
1da177e4 LT	24	level they are very simple.
	25
	26	Conceptually, the API layering looks like this:
	27
	28	[transform api] (user interface)
878b9014	29	[transform ops] (per-type logic glue e.g. cipher.c, compress.c)
1da177e4 LT	30	[algorithm api] (for registering algorithms)
	31
	32	The idea is to make the user interface and algorithm registration API
	33	very simple, while hiding the core logic from both. Many good ideas
	34	from existing APIs such as Cryptoapi and Nettle have been adapted for this.
	35
86f578de HX	36	The API currently supports five main types of transforms: AEAD (Authenticated
	37	Encryption with Associated Data), Block Ciphers, Ciphers, Compressors and
	38	Hashes.
	39
	40	Please note that Block Ciphers is somewhat of a misnomer. It is in fact
	41	meant to support all ciphers including stream ciphers. The difference
	42	between Block Ciphers and Ciphers is that the latter operates on exactly
	43	one block while the former can operate on an arbitrary amount of data,
	44	subject to block size requirements (i.e., non-stream ciphers can only
	45	process multiples of blocks).
1da177e4 LT	46
	47	Support for hardware crypto devices via an asynchronous interface is
	48	under development.
	49
	50	Here's an example of how to use the API:
	51
	52	#include <linux/crypto.h>
878b9014 HX	53	#include <linux/err.h>
878b9014 HX	54	#include <linux/scatterlist.h>
1da177e4 LT	55
	56	struct scatterlist sg[2];
	57	char result[128];
878b9014 HX	58	struct crypto_hash *tfm;
878b9014 HX	59	struct hash_desc desc;
1da177e4	60
878b9014 HX	61	tfm = crypto_alloc_hash("md5", 0, CRYPTO_ALG_ASYNC);
878b9014 HX	62	if (IS_ERR(tfm))
1da177e4 LT	63	fail();
	64
	65	/* ... set up the scatterlists ... */
878b9014 HX	66
	67	desc.tfm = tfm;
	68	desc.flags = 0;
1da177e4	69
58e40308	70	if (crypto_hash_digest(&desc, sg, 2, result))
878b9014	71	fail();
1da177e4	72
878b9014	73	crypto_free_hash(tfm);
1da177e4 LT	74
	75
	76	Many real examples are available in the regression test module (tcrypt.c).
	77
	78
1da177e4 LT	79	DEVELOPER NOTES
	80
	81	Transforms may only be allocated in user context, and cryptographic
86f578de HX	82	methods may only be called from softirq and user contexts. For
	83	transforms with a setkey method it too should only be called from
	84	user context.
1da177e4 LT	85
	86	When using the API for ciphers, performance will be optimal if each
	87	scatterlist contains data which is a multiple of the cipher's block
	88	size (typically 8 bytes). This prevents having to do any copying
	89	across non-aligned page fragment boundaries.
	90
	91
	92	ADDING NEW ALGORITHMS
	93
	94	When submitting a new algorithm for inclusion, a mandatory requirement
	95	is that at least a few test vectors from known sources (preferably
	96	standards) be included.
	97
	98	Converting existing well known code is preferred, as it is more likely
	99	to have been reviewed and widely tested. If submitting code from LGPL
	100	sources, please consider changing the license to GPL (see section 3 of
	101	the LGPL).
	102
	103	Algorithms submitted must also be generally patent-free (e.g. IDEA
	104	will not be included in the mainline until around 2011), and be based
	105	on a recognized standard and/or have been subjected to appropriate
	106	peer review.
	107
	108	Also check for any RFCs which may relate to the use of specific algorithms,
	109	as well as general application notes such as RFC2451 ("The ESP CBC-Mode
	110	Cipher Algorithms").
	111
	112	It's a good idea to avoid using lots of macros and use inlined functions
	113	instead, as gcc does a good job with inlining, while excessive use of
	114	macros can cause compilation problems on some platforms.
	115
	116	Also check the TODO list at the web site listed below to see what people
	117	might already be working on.
	118
	119
	120	BUGS
	121
	122	Send bug reports to:
86f578de HX	123	linux-crypto@vger.kernel.org
	124	Cc: Herbert Xu <herbert@gondor.apana.org.au>,
	125	David S. Miller <davem@redhat.com>
1da177e4 LT	126
	127
	128	FURTHER INFORMATION
	129
	130	For further patches and various updates, including the current TODO
	131	list, see:
878b9014	132	http://gondor.apana.org.au/~herbert/crypto/
1da177e4 LT	133
	134
	135	AUTHORS
	136
	137	James Morris
	138	David S. Miller
878b9014	139	Herbert Xu
1da177e4 LT	140
	141
	142	CREDITS
	143
	144	The following people provided invaluable feedback during the development
	145	of the API:
	146
	147	Alexey Kuznetzov
	148	Rusty Russell
	149	Herbert Valerio Riedel
	150	Jeff Garzik
	151	Michael Richardson
	152	Andrew Morton
	153	Ingo Oeser
	154	Christoph Hellwig
	155
	156	Portions of this API were derived from the following projects:
	157
	158	Kerneli Cryptoapi (http://www.kerneli.org/)
	159	Alexander Kjeldaas
	160	Herbert Valerio Riedel
	161	Kyle McMartin
	162	Jean-Luc Cooke
	163	David Bryson
	164	Clemens Fruhwirth
	165	Tobias Ringstrom
	166	Harald Welte
	167
	168	and;
	169
	170	Nettle (http://www.lysator.liu.se/~nisse/nettle/)
be2a608b	171	Niels Möller
1da177e4 LT	172
	173	Original developers of the crypto algorithms:
	174
	175	Dana L. How (DES)
	176	Andrew Tridgell and Steve French (MD4)
	177	Colin Plumb (MD5)
	178	Steve Reid (SHA1)
	179	Jean-Luc Cooke (SHA256, SHA384, SHA512)
	180	Kazunori Miyazawa / USAGI (HMAC)
	181	Matthew Skala (Twofish)
	182	Dag Arne Osvik (Serpent)
	183	Brian Gladman (AES)
	184	Kartikey Mahendra Bhatt (CAST6)
	185	Jon Oberheide (ARC4)
	186	Jouni Malinen (Michael MIC)
dc2e2f33	187	NTT(Nippon Telegraph and Telephone Corporation) (Camellia)
1da177e4 LT	188
	189	SHA1 algorithm contributors:
	190	Jean-Francois Dive
	191
	192	DES algorithm contributors:
	193	Raimar Falke
be2a608b JAKJ	194	Gisle Sælensminde
be2a608b JAKJ	195	Niels Möller
1da177e4 LT	196
	197	Blowfish algorithm contributors:
	198	Herbert Valerio Riedel
	199	Kyle McMartin
	200
	201	Twofish algorithm contributors:
	202	Werner Koch
	203	Marc Mutz
	204
	205	SHA256/384/512 algorithm contributors:
	206	Andrew McDonald
	207	Kyle McMartin
	208	Herbert Valerio Riedel
	209
	210	AES algorithm contributors:
	211	Alexander Kjeldaas
	212	Herbert Valerio Riedel
	213	Kyle McMartin
	214	Adam J. Richter
	215	Fruhwirth Clemens (i586)
	216	Linus Torvalds (i586)
	217
	218	CAST5 algorithm contributors:
	219	Kartikey Mahendra Bhatt (original developers unknown, FSF copyright).
	220
	221	TEA/XTEA algorithm contributors:
	222	Aaron Grothe
fb4f10ed	223	Michael Ringe
1da177e4 LT	224
	225	Khazad algorithm contributors:
	226	Aaron Grothe
	227
	228	Whirlpool algorithm contributors:
	229	Aaron Grothe
	230	Jean-Luc Cooke
	231
	232	Anubis algorithm contributors:
	233	Aaron Grothe
	234
	235	Tiger algorithm contributors:
	236	Aaron Grothe
	237
878b9014 HX	238	VIA PadLock contributors:
	239	Michal Ludvig
	240
dc2e2f33 NT	241	Camellia algorithm contributors:
	242	NTT(Nippon Telegraph and Telephone Corporation) (Camellia)
	243
1da177e4 LT	244	Generic scatterwalk code by Adam J. Richter <adam@yggdrasil.com>
	245
	246	Please send any credits updates or corrections to:
878b9014	247	Herbert Xu <herbert@gondor.apana.org.au>
1da177e4	248