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tls: Add support for inplace records encryption 

Presently, for non-zero copy case, separate pages are allocated for
storing plaintext and encrypted text of records. These pages are stored
in sg_plaintext_data and sg_encrypted_data scatterlists inside record
structure. Further, sg_plaintext_data & sg_encrypted_data are passed
to cryptoapis for record encryption. Allocating separate pages for
plaintext and encrypted text is inefficient from both required memory
and performance point of view.

This patch adds support of inplace encryption of records. For non-zero
copy case, we reuse the pages from sg_encrypted_data scatterlist to
copy the application's plaintext data. For the movement of pages from
sg_encrypted_data to sg_plaintext_data scatterlists, we introduce a new
function move_to_plaintext_sg(). This function add pages into
sg_plaintext_data from sg_encrypted_data scatterlists.

tls_do_encryption() is modified to pass the same scatterlist as both
source and destination into aead_request_set_crypt() if inplace crypto
has been enabled. A new ariable 'inplace_crypto' has been introduced in
record structure to signify whether the same scatterlist can be used.
By default, the inplace_crypto is enabled in get_rec(). If zero-copy is
used (i.e. plaintext data is not copied), inplace_crypto is set to '0'.

Signed-off-by: Vakul Garg <vakul.garg@nxp.com>
Reviewed-by: Dave Watson <davejwatson@fb.com>
Signed-off-by: David S. Miller <davem@davemloft.net>
hifive-unleashed-5.1
Vakul Garg 2018-09-30 08:04:35 +05:30 committed by David S. Miller
parent 6502f8562a
commit 4e6d47206c
2 changed files with 74 additions and 18 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

1
include/net/tls.h
View File

@ -101,6 +101,7 @@ struct tls_rec {
struct list_head list;
int tx_ready;
int tx_flags;
int inplace_crypto;
/* AAD | sg_plaintext_data | sg_tag */
struct scatterlist sg_plaintext_data[MAX_SKB_FRAGS + 1];

91
net/tls/tls_sw.c
View File

@ -281,24 +281,72 @@ static int alloc_encrypted_sg(struct sock *sk, int len)
return rc;
}
static int alloc_plaintext_sg(struct sock *sk, int len)
static int move_to_plaintext_sg(struct sock *sk, int required_size)
{
struct tls_context *tls_ctx = tls_get_ctx(sk);
struct tls_sw_context_tx *ctx = tls_sw_ctx_tx(tls_ctx);
struct tls_rec *rec = ctx->open_rec;
int rc = 0;
struct scatterlist *plain_sg = &rec->sg_plaintext_data[1];
struct scatterlist *enc_sg = &rec->sg_encrypted_data[1];
int enc_sg_idx = 0;
int skip, len;
rc = sk_alloc_sg(sk, len,
&rec->sg_plaintext_data[1], 0,
&rec->sg_plaintext_num_elem,
&rec->sg_plaintext_size,
tls_ctx->pending_open_record_frags);
if (rec->sg_plaintext_num_elem == MAX_SKB_FRAGS)
return -ENOSPC;
if (rc == -ENOSPC)
rec->sg_plaintext_num_elem =
ARRAY_SIZE(rec->sg_plaintext_data) - 1;
/* We add page references worth len bytes from enc_sg at the
* end of plain_sg. It is guaranteed that sg_encrypted_data
* has enough required room (ensured by caller).
*/
len = required_size - rec->sg_plaintext_size;
return rc;
/* Skip initial bytes in sg_encrypted_data to be able
* to use same offset of both plain and encrypted data.
*/
skip = tls_ctx->tx.prepend_size + rec->sg_plaintext_size;
while (enc_sg_idx < rec->sg_encrypted_num_elem) {
if (enc_sg[enc_sg_idx].length > skip)
break;
skip -= enc_sg[enc_sg_idx].length;
enc_sg_idx++;
}
/* unmark the end of plain_sg*/
sg_unmark_end(plain_sg + rec->sg_plaintext_num_elem - 1);
while (len) {
struct page *page = sg_page(&enc_sg[enc_sg_idx]);
int bytes = enc_sg[enc_sg_idx].length - skip;
int offset = enc_sg[enc_sg_idx].offset + skip;
if (bytes > len)
bytes = len;
else
enc_sg_idx++;
/* Skipping is required only one time */
skip = 0;
/* Increment page reference */
get_page(page);
sg_set_page(&plain_sg[rec->sg_plaintext_num_elem], page,
bytes, offset);
sk_mem_charge(sk, bytes);
len -= bytes;
rec->sg_plaintext_size += bytes;
rec->sg_plaintext_num_elem++;
if (rec->sg_plaintext_num_elem == MAX_SKB_FRAGS)
return -ENOSPC;
}
return 0;
}
static void free_sg(struct sock *sk, struct scatterlist *sg,
@ -459,16 +507,21 @@ static int tls_do_encryption(struct sock *sk,
size_t data_len)
{
struct tls_rec *rec = ctx->open_rec;
struct scatterlist *plain_sg = rec->sg_plaintext_data;
struct scatterlist *enc_sg = rec->sg_encrypted_data;
int rc;
/* Skip the first index as it contains AAD data */
rec->sg_encrypted_data[1].offset += tls_ctx->tx.prepend_size;
rec->sg_encrypted_data[1].length -= tls_ctx->tx.prepend_size;
/* If it is inplace crypto, then pass same SG list as both src, dst */
if (rec->inplace_crypto)
plain_sg = enc_sg;
aead_request_set_tfm(aead_req, ctx->aead_send);
aead_request_set_ad(aead_req, TLS_AAD_SPACE_SIZE);
aead_request_set_crypt(aead_req, rec->sg_plaintext_data,
rec->sg_encrypted_data,
aead_request_set_crypt(aead_req, plain_sg, enc_sg,
data_len, tls_ctx->tx.iv);
aead_request_set_callback(aead_req, CRYPTO_TFM_REQ_MAY_BACKLOG,
@ -666,6 +719,7 @@ static struct tls_rec *get_rec(struct sock *sk)
sizeof(rec->aad_space));
ctx->open_rec = rec;
rec->inplace_crypto = 1;
return rec;
}
@ -763,6 +817,8 @@ alloc_encrypted:
if (ret)
goto fallback_to_reg_send;
rec->inplace_crypto = 0;
num_zc++;
copied += try_to_copy;
ret = tls_push_record(sk, msg->msg_flags, record_type);
@ -782,11 +838,11 @@ fallback_to_reg_send:
}
required_size = rec->sg_plaintext_size + try_to_copy;
alloc_plaintext:
ret = alloc_plaintext_sg(sk, required_size);
ret = move_to_plaintext_sg(sk, required_size);
if (ret) {
if (ret != -ENOSPC)
goto wait_for_memory;
goto send_end;
/* Adjust try_to_copy according to the amount that was
* actually allocated. The difference is due
@ -831,8 +887,6 @@ trim_sgl:
if (rec->sg_encrypted_size < required_size)
goto alloc_encrypted;
goto alloc_plaintext;
}
if (!num_async) {
@ -958,6 +1012,7 @@ alloc_payload:
if (full_record || eor ||
rec->sg_plaintext_num_elem ==
ARRAY_SIZE(rec->sg_plaintext_data) - 1) {
rec->inplace_crypto = 0;
ret = tls_push_record(sk, flags, record_type);
if (ret) {
if (ret == -EINPROGRESS)