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zfs-builds-mm/zfs-0.8.1/module/zfs/qat_crypt.c
root 3aa59630cc first
2019-07-06 23:40:11 +02:00

632 lines
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/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* This file represents the QAT implementation of checksums and encryption.
* Internally, QAT shares the same cryptographic instances for both of these
* operations, so the code has been combined here. QAT data compression uses
* compression instances, so that code is separated into qat_compress.c
*/
#if defined(_KERNEL) && defined(HAVE_QAT)
#include <linux/slab.h>
#include <linux/vmalloc.h>
#include <linux/pagemap.h>
#include <linux/completion.h>
#include <linux/mod_compat.h>
#include <sys/zfs_context.h>
#include <sys/zio_crypt.h>
#include "lac/cpa_cy_im.h"
#include "lac/cpa_cy_common.h"
#include "qat.h"
/*
* Max instances in a QAT device, each instance is a channel to submit
* jobs to QAT hardware, this is only for pre-allocating instances
* and session arrays; the actual number of instances are defined in
* the QAT driver's configure file.
*/
#define QAT_CRYPT_MAX_INSTANCES 48
#define MAX_PAGE_NUM 1024
static Cpa32U inst_num = 0;
static Cpa16U num_inst = 0;
static CpaInstanceHandle cy_inst_handles[QAT_CRYPT_MAX_INSTANCES];
static boolean_t qat_cy_init_done = B_FALSE;
int zfs_qat_encrypt_disable = 0;
int zfs_qat_checksum_disable = 0;
typedef struct cy_callback {
CpaBoolean verify_result;
struct completion complete;
} cy_callback_t;
static void
symcallback(void *p_callback, CpaStatus status, const CpaCySymOp operation,
void *op_data, CpaBufferList *buf_list_dst, CpaBoolean verify)
{
cy_callback_t *cb = p_callback;
if (cb != NULL) {
/* indicate that the function has been called */
cb->verify_result = verify;
complete(&cb->complete);
}
}
boolean_t
qat_crypt_use_accel(size_t s_len)
{
return (!zfs_qat_encrypt_disable &&
qat_cy_init_done &&
s_len >= QAT_MIN_BUF_SIZE &&
s_len <= QAT_MAX_BUF_SIZE);
}
boolean_t
qat_checksum_use_accel(size_t s_len)
{
return (!zfs_qat_checksum_disable &&
qat_cy_init_done &&
s_len >= QAT_MIN_BUF_SIZE &&
s_len <= QAT_MAX_BUF_SIZE);
}
void
qat_cy_clean(void)
{
for (Cpa16U i = 0; i < num_inst; i++)
cpaCyStopInstance(cy_inst_handles[i]);
num_inst = 0;
qat_cy_init_done = B_FALSE;
}
int
qat_cy_init(void)
{
CpaStatus status = CPA_STATUS_FAIL;
if (qat_cy_init_done)
return (0);
status = cpaCyGetNumInstances(&num_inst);
if (status != CPA_STATUS_SUCCESS)
return (-1);
/* if the user has configured no QAT encryption units just return */
if (num_inst == 0)
return (0);
if (num_inst > QAT_CRYPT_MAX_INSTANCES)
num_inst = QAT_CRYPT_MAX_INSTANCES;
status = cpaCyGetInstances(num_inst, &cy_inst_handles[0]);
if (status != CPA_STATUS_SUCCESS)
return (-1);
for (Cpa16U i = 0; i < num_inst; i++) {
status = cpaCySetAddressTranslation(cy_inst_handles[i],
(void *)virt_to_phys);
if (status != CPA_STATUS_SUCCESS)
goto error;
status = cpaCyStartInstance(cy_inst_handles[i]);
if (status != CPA_STATUS_SUCCESS)
goto error;
}
qat_cy_init_done = B_TRUE;
return (0);
error:
qat_cy_clean();
return (-1);
}
void
qat_cy_fini(void)
{
if (!qat_cy_init_done)
return;
qat_cy_clean();
}
static CpaStatus
qat_init_crypt_session_ctx(qat_encrypt_dir_t dir, CpaInstanceHandle inst_handle,
CpaCySymSessionCtx **cy_session_ctx, crypto_key_t *key,
Cpa64U crypt, Cpa32U aad_len)
{
CpaStatus status = CPA_STATUS_SUCCESS;
Cpa32U ctx_size;
Cpa32U ciper_algorithm;
Cpa32U hash_algorithm;
CpaCySymSessionSetupData sd = { 0 };
if (zio_crypt_table[crypt].ci_crypt_type == ZC_TYPE_CCM) {
return (CPA_STATUS_FAIL);
} else {
ciper_algorithm = CPA_CY_SYM_CIPHER_AES_GCM;
hash_algorithm = CPA_CY_SYM_HASH_AES_GCM;
}
sd.cipherSetupData.cipherAlgorithm = ciper_algorithm;
sd.cipherSetupData.pCipherKey = key->ck_data;
sd.cipherSetupData.cipherKeyLenInBytes = key->ck_length / 8;
sd.hashSetupData.hashAlgorithm = hash_algorithm;
sd.hashSetupData.hashMode = CPA_CY_SYM_HASH_MODE_AUTH;
sd.hashSetupData.digestResultLenInBytes = ZIO_DATA_MAC_LEN;
sd.hashSetupData.authModeSetupData.aadLenInBytes = aad_len;
sd.sessionPriority = CPA_CY_PRIORITY_NORMAL;
sd.symOperation = CPA_CY_SYM_OP_ALGORITHM_CHAINING;
sd.digestIsAppended = CPA_FALSE;
sd.verifyDigest = CPA_FALSE;
if (dir == QAT_ENCRYPT) {
sd.cipherSetupData.cipherDirection =
CPA_CY_SYM_CIPHER_DIRECTION_ENCRYPT;
sd.algChainOrder =
CPA_CY_SYM_ALG_CHAIN_ORDER_HASH_THEN_CIPHER;
} else {
ASSERT3U(dir, ==, QAT_DECRYPT);
sd.cipherSetupData.cipherDirection =
CPA_CY_SYM_CIPHER_DIRECTION_DECRYPT;
sd.algChainOrder =
CPA_CY_SYM_ALG_CHAIN_ORDER_CIPHER_THEN_HASH;
}
status = cpaCySymSessionCtxGetSize(inst_handle, &sd, &ctx_size);
if (status != CPA_STATUS_SUCCESS)
return (status);
status = QAT_PHYS_CONTIG_ALLOC(cy_session_ctx, ctx_size);
if (status != CPA_STATUS_SUCCESS)
return (status);
status = cpaCySymInitSession(inst_handle, symcallback, &sd,
*cy_session_ctx);
if (status != CPA_STATUS_SUCCESS) {
QAT_PHYS_CONTIG_FREE(*cy_session_ctx);
return (status);
}
return (CPA_STATUS_SUCCESS);
}
static CpaStatus
qat_init_checksum_session_ctx(CpaInstanceHandle inst_handle,
CpaCySymSessionCtx **cy_session_ctx, Cpa64U cksum)
{
CpaStatus status = CPA_STATUS_SUCCESS;
Cpa32U ctx_size;
Cpa32U hash_algorithm;
CpaCySymSessionSetupData sd = { 0 };
/*
* ZFS's SHA512 checksum is actually SHA512/256, which uses
* a different IV from standard SHA512. QAT does not support
* SHA512/256, so we can only support SHA256.
*/
if (cksum == ZIO_CHECKSUM_SHA256)
hash_algorithm = CPA_CY_SYM_HASH_SHA256;
else
return (CPA_STATUS_FAIL);
sd.sessionPriority = CPA_CY_PRIORITY_NORMAL;
sd.symOperation = CPA_CY_SYM_OP_HASH;
sd.hashSetupData.hashAlgorithm = hash_algorithm;
sd.hashSetupData.hashMode = CPA_CY_SYM_HASH_MODE_PLAIN;
sd.hashSetupData.digestResultLenInBytes = sizeof (zio_cksum_t);
sd.digestIsAppended = CPA_FALSE;
sd.verifyDigest = CPA_FALSE;
status = cpaCySymSessionCtxGetSize(inst_handle, &sd, &ctx_size);
if (status != CPA_STATUS_SUCCESS)
return (status);
status = QAT_PHYS_CONTIG_ALLOC(cy_session_ctx, ctx_size);
if (status != CPA_STATUS_SUCCESS)
return (status);
status = cpaCySymInitSession(inst_handle, symcallback, &sd,
*cy_session_ctx);
if (status != CPA_STATUS_SUCCESS) {
QAT_PHYS_CONTIG_FREE(*cy_session_ctx);
return (status);
}
return (CPA_STATUS_SUCCESS);
}
static CpaStatus
qat_init_cy_buffer_lists(CpaInstanceHandle inst_handle, uint32_t nr_bufs,
CpaBufferList *src, CpaBufferList *dst)
{
CpaStatus status = CPA_STATUS_SUCCESS;
Cpa32U meta_size = 0;
status = cpaCyBufferListGetMetaSize(inst_handle, nr_bufs, &meta_size);
if (status != CPA_STATUS_SUCCESS)
return (status);
status = QAT_PHYS_CONTIG_ALLOC(&src->pPrivateMetaData, meta_size);
if (status != CPA_STATUS_SUCCESS)
goto error;
if (src != dst) {
status = QAT_PHYS_CONTIG_ALLOC(&dst->pPrivateMetaData,
meta_size);
if (status != CPA_STATUS_SUCCESS)
goto error;
}
return (CPA_STATUS_SUCCESS);
error:
QAT_PHYS_CONTIG_FREE(src->pPrivateMetaData);
if (src != dst)
QAT_PHYS_CONTIG_FREE(dst->pPrivateMetaData);
return (status);
}
int
qat_crypt(qat_encrypt_dir_t dir, uint8_t *src_buf, uint8_t *dst_buf,
uint8_t *aad_buf, uint32_t aad_len, uint8_t *iv_buf, uint8_t *digest_buf,
crypto_key_t *key, uint64_t crypt, uint32_t enc_len)
{
CpaStatus status = CPA_STATUS_SUCCESS;
Cpa16U i;
CpaInstanceHandle cy_inst_handle;
Cpa16U nr_bufs = (enc_len >> PAGE_SHIFT) + 2;
Cpa32U bytes_left = 0;
Cpa8S *data = NULL;
CpaCySymSessionCtx *cy_session_ctx = NULL;
cy_callback_t cb;
CpaCySymOpData op_data = { 0 };
CpaBufferList src_buffer_list = { 0 };
CpaBufferList dst_buffer_list = { 0 };
CpaFlatBuffer *flat_src_buf_array = NULL;
CpaFlatBuffer *flat_src_buf = NULL;
CpaFlatBuffer *flat_dst_buf_array = NULL;
CpaFlatBuffer *flat_dst_buf = NULL;
struct page *in_pages[MAX_PAGE_NUM];
struct page *out_pages[MAX_PAGE_NUM];
Cpa32U in_page_num = 0;
Cpa32U out_page_num = 0;
Cpa32U in_page_off = 0;
Cpa32U out_page_off = 0;
if (dir == QAT_ENCRYPT) {
QAT_STAT_BUMP(encrypt_requests);
QAT_STAT_INCR(encrypt_total_in_bytes, enc_len);
} else {
QAT_STAT_BUMP(decrypt_requests);
QAT_STAT_INCR(decrypt_total_in_bytes, enc_len);
}
i = (Cpa32U)atomic_inc_32_nv(&inst_num) % num_inst;
cy_inst_handle = cy_inst_handles[i];
status = qat_init_crypt_session_ctx(dir, cy_inst_handle,
&cy_session_ctx, key, crypt, aad_len);
if (status != CPA_STATUS_SUCCESS) {
/* don't count CCM as a failure since it's not supported */
if (zio_crypt_table[crypt].ci_crypt_type == ZC_TYPE_GCM)
QAT_STAT_BUMP(crypt_fails);
return (status);
}
/*
* We increment nr_bufs by 2 to allow us to handle non
* page-aligned buffer addresses and buffers whose sizes
* are not divisible by PAGE_SIZE.
*/
status = qat_init_cy_buffer_lists(cy_inst_handle, nr_bufs,
&src_buffer_list, &dst_buffer_list);
if (status != CPA_STATUS_SUCCESS)
goto fail;
status = QAT_PHYS_CONTIG_ALLOC(&flat_src_buf_array,
nr_bufs * sizeof (CpaFlatBuffer));
if (status != CPA_STATUS_SUCCESS)
goto fail;
status = QAT_PHYS_CONTIG_ALLOC(&flat_dst_buf_array,
nr_bufs * sizeof (CpaFlatBuffer));
if (status != CPA_STATUS_SUCCESS)
goto fail;
status = QAT_PHYS_CONTIG_ALLOC(&op_data.pDigestResult,
ZIO_DATA_MAC_LEN);
if (status != CPA_STATUS_SUCCESS)
goto fail;
status = QAT_PHYS_CONTIG_ALLOC(&op_data.pIv,
ZIO_DATA_IV_LEN);
if (status != CPA_STATUS_SUCCESS)
goto fail;
if (aad_len > 0) {
status = QAT_PHYS_CONTIG_ALLOC(&op_data.pAdditionalAuthData,
aad_len);
if (status != CPA_STATUS_SUCCESS)
goto fail;
bcopy(aad_buf, op_data.pAdditionalAuthData, aad_len);
}
bytes_left = enc_len;
data = src_buf;
flat_src_buf = flat_src_buf_array;
while (bytes_left > 0) {
in_page_off = ((long)data & ~PAGE_MASK);
in_pages[in_page_num] = qat_mem_to_page(data);
flat_src_buf->pData = kmap(in_pages[in_page_num]) + in_page_off;
flat_src_buf->dataLenInBytes =
min((long)PAGE_SIZE - in_page_off, (long)bytes_left);
data += flat_src_buf->dataLenInBytes;
bytes_left -= flat_src_buf->dataLenInBytes;
flat_src_buf++;
in_page_num++;
}
src_buffer_list.pBuffers = flat_src_buf_array;
src_buffer_list.numBuffers = in_page_num;
bytes_left = enc_len;
data = dst_buf;
flat_dst_buf = flat_dst_buf_array;
while (bytes_left > 0) {
out_page_off = ((long)data & ~PAGE_MASK);
out_pages[out_page_num] = qat_mem_to_page(data);
flat_dst_buf->pData = kmap(out_pages[out_page_num]) +
out_page_off;
flat_dst_buf->dataLenInBytes =
min((long)PAGE_SIZE - out_page_off, (long)bytes_left);
data += flat_dst_buf->dataLenInBytes;
bytes_left -= flat_dst_buf->dataLenInBytes;
flat_dst_buf++;
out_page_num++;
}
dst_buffer_list.pBuffers = flat_dst_buf_array;
dst_buffer_list.numBuffers = out_page_num;
op_data.sessionCtx = cy_session_ctx;
op_data.packetType = CPA_CY_SYM_PACKET_TYPE_FULL;
op_data.cryptoStartSrcOffsetInBytes = 0;
op_data.messageLenToCipherInBytes = 0;
op_data.hashStartSrcOffsetInBytes = 0;
op_data.messageLenToHashInBytes = 0;
op_data.messageLenToCipherInBytes = enc_len;
op_data.ivLenInBytes = ZIO_DATA_IV_LEN;
bcopy(iv_buf, op_data.pIv, ZIO_DATA_IV_LEN);
cb.verify_result = CPA_FALSE;
init_completion(&cb.complete);
status = cpaCySymPerformOp(cy_inst_handle, &cb, &op_data,
&src_buffer_list, &dst_buffer_list, NULL);
if (status != CPA_STATUS_SUCCESS)
goto fail;
if (!wait_for_completion_interruptible_timeout(&cb.complete,
QAT_TIMEOUT_MS)) {
status = CPA_STATUS_FAIL;
goto fail;
}
if (cb.verify_result == CPA_FALSE) {
status = CPA_STATUS_FAIL;
goto fail;
}
/* save digest result to digest_buf */
bcopy(op_data.pDigestResult, digest_buf, ZIO_DATA_MAC_LEN);
if (dir == QAT_ENCRYPT)
QAT_STAT_INCR(encrypt_total_out_bytes, enc_len);
else
QAT_STAT_INCR(decrypt_total_out_bytes, enc_len);
fail:
if (status != CPA_STATUS_SUCCESS)
QAT_STAT_BUMP(crypt_fails);
for (i = 0; i < in_page_num; i++)
kunmap(in_pages[i]);
for (i = 0; i < out_page_num; i++)
kunmap(out_pages[i]);
cpaCySymRemoveSession(cy_inst_handle, cy_session_ctx);
if (aad_len > 0)
QAT_PHYS_CONTIG_FREE(op_data.pAdditionalAuthData);
QAT_PHYS_CONTIG_FREE(op_data.pIv);
QAT_PHYS_CONTIG_FREE(op_data.pDigestResult);
QAT_PHYS_CONTIG_FREE(src_buffer_list.pPrivateMetaData);
QAT_PHYS_CONTIG_FREE(dst_buffer_list.pPrivateMetaData);
QAT_PHYS_CONTIG_FREE(cy_session_ctx);
QAT_PHYS_CONTIG_FREE(flat_src_buf_array);
QAT_PHYS_CONTIG_FREE(flat_dst_buf_array);
return (status);
}
int
qat_checksum(uint64_t cksum, uint8_t *buf, uint64_t size, zio_cksum_t *zcp)
{
CpaStatus status;
Cpa16U i;
CpaInstanceHandle cy_inst_handle;
Cpa16U nr_bufs = (size >> PAGE_SHIFT) + 2;
Cpa32U bytes_left = 0;
Cpa8S *data = NULL;
CpaCySymSessionCtx *cy_session_ctx = NULL;
cy_callback_t cb;
Cpa8U *digest_buffer = NULL;
CpaCySymOpData op_data = { 0 };
CpaBufferList src_buffer_list = { 0 };
CpaFlatBuffer *flat_src_buf_array = NULL;
CpaFlatBuffer *flat_src_buf = NULL;
struct page *in_pages[MAX_PAGE_NUM];
Cpa32U page_num = 0;
Cpa32U page_off = 0;
QAT_STAT_BUMP(cksum_requests);
QAT_STAT_INCR(cksum_total_in_bytes, size);
i = (Cpa32U)atomic_inc_32_nv(&inst_num) % num_inst;
cy_inst_handle = cy_inst_handles[i];
status = qat_init_checksum_session_ctx(cy_inst_handle,
&cy_session_ctx, cksum);
if (status != CPA_STATUS_SUCCESS) {
/* don't count unsupported checksums as a failure */
if (cksum == ZIO_CHECKSUM_SHA256 ||
cksum == ZIO_CHECKSUM_SHA512)
QAT_STAT_BUMP(cksum_fails);
return (status);
}
/*
* We increment nr_bufs by 2 to allow us to handle non
* page-aligned buffer addresses and buffers whose sizes
* are not divisible by PAGE_SIZE.
*/
status = qat_init_cy_buffer_lists(cy_inst_handle, nr_bufs,
&src_buffer_list, &src_buffer_list);
if (status != CPA_STATUS_SUCCESS)
goto fail;
status = QAT_PHYS_CONTIG_ALLOC(&flat_src_buf_array,
nr_bufs * sizeof (CpaFlatBuffer));
if (status != CPA_STATUS_SUCCESS)
goto fail;
status = QAT_PHYS_CONTIG_ALLOC(&digest_buffer,
sizeof (zio_cksum_t));
if (status != CPA_STATUS_SUCCESS)
goto fail;
bytes_left = size;
data = buf;
flat_src_buf = flat_src_buf_array;
while (bytes_left > 0) {
page_off = ((long)data & ~PAGE_MASK);
in_pages[page_num] = qat_mem_to_page(data);
flat_src_buf->pData = kmap(in_pages[page_num]) + page_off;
flat_src_buf->dataLenInBytes =
min((long)PAGE_SIZE - page_off, (long)bytes_left);
data += flat_src_buf->dataLenInBytes;
bytes_left -= flat_src_buf->dataLenInBytes;
flat_src_buf++;
page_num++;
}
src_buffer_list.pBuffers = flat_src_buf_array;
src_buffer_list.numBuffers = page_num;
op_data.sessionCtx = cy_session_ctx;
op_data.packetType = CPA_CY_SYM_PACKET_TYPE_FULL;
op_data.hashStartSrcOffsetInBytes = 0;
op_data.messageLenToHashInBytes = size;
op_data.pDigestResult = digest_buffer;
cb.verify_result = CPA_FALSE;
init_completion(&cb.complete);
status = cpaCySymPerformOp(cy_inst_handle, &cb, &op_data,
&src_buffer_list, &src_buffer_list, NULL);
if (status != CPA_STATUS_SUCCESS)
goto fail;
if (!wait_for_completion_interruptible_timeout(&cb.complete,
QAT_TIMEOUT_MS)) {
status = CPA_STATUS_FAIL;
goto fail;
}
if (cb.verify_result == CPA_FALSE) {
status = CPA_STATUS_FAIL;
goto fail;
}
bcopy(digest_buffer, zcp, sizeof (zio_cksum_t));
fail:
if (status != CPA_STATUS_SUCCESS)
QAT_STAT_BUMP(cksum_fails);
for (i = 0; i < page_num; i++)
kunmap(in_pages[i]);
cpaCySymRemoveSession(cy_inst_handle, cy_session_ctx);
QAT_PHYS_CONTIG_FREE(digest_buffer);
QAT_PHYS_CONTIG_FREE(src_buffer_list.pPrivateMetaData);
QAT_PHYS_CONTIG_FREE(cy_session_ctx);
QAT_PHYS_CONTIG_FREE(flat_src_buf_array);
return (status);
}
static int
param_set_qat_encrypt(const char *val, struct kernel_param *kp)
{
int ret;
int *pvalue = kp->arg;
ret = param_set_int(val, kp);
if (ret)
return (ret);
/*
* zfs_qat_encrypt_disable = 0: enable qat encrypt
* try to initialize qat instance if it has not been done
*/
if (*pvalue == 0 && !qat_cy_init_done) {
ret = qat_cy_init();
if (ret != 0) {
zfs_qat_encrypt_disable = 1;
return (ret);
}
}
return (ret);
}
static int
param_set_qat_checksum(const char *val, struct kernel_param *kp)
{
int ret;
int *pvalue = kp->arg;
ret = param_set_int(val, kp);
if (ret)
return (ret);
/*
* set_checksum_param_ops = 0: enable qat checksum
* try to initialize qat instance if it has not been done
*/
if (*pvalue == 0 && !qat_cy_init_done) {
ret = qat_cy_init();
if (ret != 0) {
zfs_qat_checksum_disable = 1;
return (ret);
}
}
return (ret);
}
module_param_call(zfs_qat_encrypt_disable, param_set_qat_encrypt,
param_get_int, &zfs_qat_encrypt_disable, 0644);
MODULE_PARM_DESC(zfs_qat_encrypt_disable, "Enable/Disable QAT encryption");
module_param_call(zfs_qat_checksum_disable, param_set_qat_checksum,
param_get_int, &zfs_qat_checksum_disable, 0644);
MODULE_PARM_DESC(zfs_qat_checksum_disable, "Enable/Disable QAT checksumming");
#endif
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