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6a42939fcd
These were categorized as the following:
* Dead assignment 23
* Dead increment 4
* Dead initialization 6
* Dead nested assignment 18
Most of these are harmless, but since actual issues can hide among them,
we correct them.
That said, there were a few return values that were being ignored that
appeared to merit some correction:
* `destroy_callback()` in `cmd/zfs/zfs_main.c` ignored the error from
`destroy_batched()`. We handle it by returning -1 if there is an
error.
* `zfs_do_upgrade()` in `cmd/zfs/zfs_main.c` ignored the error from
`zfs_for_each()`. We handle it by doing a binary OR of the error
value from the subsequent `zfs_for_each()` call to the existing
value. This is how errors are mostly handled inside `zfs_for_each()`.
The error value here is passed to exit from the zfs command, so doing
a binary or on it is better than what we did previously.
* `get_zap_prop()` in `module/zfs/zcp_get.c` ignored the error from
`dsl_prop_get_ds()` when the property is not of type string. We
return an error when it does. There is a small concern that the
`zfs_get_temporary_prop()` call would handle things, but in the case
that it does not, we would be pushing an uninitialized numval onto
the lua stack. It is expected that `dsl_prop_get_ds()` will succeed
anytime that `zfs_get_temporary_prop()` does, so that not giving it a
chance to fix things is not a problem.
* `draid_merge_impl()` in `tests/zfs-tests/cmd/draid.c` used
`nvlist_add_nvlist()` twice in ways in which errors are expected to
be impossible, so we switch to `fnvlist_add_nvlist()`.
A few notable ones did not merit use of the return value, so we
suppressed it with `(void)`:
* `write_free_diffs()` in `lib/libzfs/libzfs_diff.c` ignored the error
value from `describe_free()`. A look through the commit history
revealed that this was intentional.
* `arc_evict_hdr()` in `module/zfs/arc.c` did not need to use the
returned handle from `arc_hdr_realloc()` because it is already
referenced in lists.
* `spa_vdev_detach()` in `module/zfs/spa.c` has a comment explicitly
saying not to use the error from `vdev_label_init()` because whatever
causes the error could be the reason why a detach is being done.
Unfortunately, I am not presently able to analyze the kernel modules
with Clang's static analyzer, so I could have missed some cases of this.
In cases where reports were present in code that is duplicated between
Linux and FreeBSD, I made a conscious effort to fix the FreeBSD version
too.
After this commit is merged, regressions like dee8934
should become
extremely obvious with Clang's static analyzer since a regression would
appear in the results as the only instance of unused code. That assumes
that Coverity does not catch the issue first.
My local branch with fixes from all of my outstanding non-draft pull
requests shows 118 reports from Clang's static anlayzer after this
patch. That is down by 51 from 169.
Reviewed-by: Brian Behlendorf <behlendorf1@llnl.gov>
Reviewed-by: Cedric Berger <cedric@precidata.com>
Signed-off-by: Richard Yao <richard.yao@alumni.stonybrook.edu>
Closes #13986
228 lines
5.9 KiB
C
228 lines
5.9 KiB
C
/*
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* CDDL HEADER START
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*
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* The contents of this file are subject to the terms of the
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* Common Development and Distribution License (the "License").
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* You may not use this file except in compliance with the License.
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*
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* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
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* or https://opensource.org/licenses/CDDL-1.0.
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* See the License for the specific language governing permissions
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* and limitations under the License.
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*
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* When distributing Covered Code, include this CDDL HEADER in each
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* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
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* If applicable, add the following below this CDDL HEADER, with the
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* fields enclosed by brackets "[]" replaced with your own identifying
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* information: Portions Copyright [yyyy] [name of copyright owner]
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*
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* CDDL HEADER END
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*/
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/*
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* Copyright 2008 Sun Microsystems, Inc. All rights reserved.
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* Use is subject to license terms.
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*/
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#include <sys/zfs_context.h>
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#include <modes/modes.h>
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#include <sys/crypto/common.h>
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#include <sys/crypto/impl.h>
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#include <sys/byteorder.h>
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/*
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* Encrypt and decrypt multiple blocks of data in counter mode.
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*/
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int
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ctr_mode_contiguous_blocks(ctr_ctx_t *ctx, char *data, size_t length,
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crypto_data_t *out, size_t block_size,
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int (*cipher)(const void *ks, const uint8_t *pt, uint8_t *ct),
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void (*xor_block)(uint8_t *, uint8_t *))
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{
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size_t remainder = length;
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size_t need = 0;
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uint8_t *datap = (uint8_t *)data;
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uint8_t *blockp;
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uint8_t *lastp;
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void *iov_or_mp;
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offset_t offset;
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uint8_t *out_data_1;
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uint8_t *out_data_2;
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size_t out_data_1_len;
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uint64_t lower_counter, upper_counter;
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if (length + ctx->ctr_remainder_len < block_size) {
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/* accumulate bytes here and return */
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memcpy((uint8_t *)ctx->ctr_remainder + ctx->ctr_remainder_len,
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datap,
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length);
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ctx->ctr_remainder_len += length;
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ctx->ctr_copy_to = datap;
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return (CRYPTO_SUCCESS);
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}
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crypto_init_ptrs(out, &iov_or_mp, &offset);
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do {
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/* Unprocessed data from last call. */
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if (ctx->ctr_remainder_len > 0) {
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need = block_size - ctx->ctr_remainder_len;
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if (need > remainder)
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return (CRYPTO_DATA_LEN_RANGE);
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memcpy(&((uint8_t *)ctx->ctr_remainder)
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[ctx->ctr_remainder_len], datap, need);
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blockp = (uint8_t *)ctx->ctr_remainder;
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} else {
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blockp = datap;
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}
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/* ctr_cb is the counter block */
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cipher(ctx->ctr_keysched, (uint8_t *)ctx->ctr_cb,
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(uint8_t *)ctx->ctr_tmp);
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lastp = (uint8_t *)ctx->ctr_tmp;
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/*
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* Increment Counter.
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*/
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lower_counter = ntohll(ctx->ctr_cb[1] & ctx->ctr_lower_mask);
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lower_counter = htonll(lower_counter + 1);
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lower_counter &= ctx->ctr_lower_mask;
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ctx->ctr_cb[1] = (ctx->ctr_cb[1] & ~(ctx->ctr_lower_mask)) |
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lower_counter;
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/* wrap around */
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if (lower_counter == 0) {
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upper_counter =
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ntohll(ctx->ctr_cb[0] & ctx->ctr_upper_mask);
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upper_counter = htonll(upper_counter + 1);
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upper_counter &= ctx->ctr_upper_mask;
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ctx->ctr_cb[0] =
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(ctx->ctr_cb[0] & ~(ctx->ctr_upper_mask)) |
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upper_counter;
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}
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/*
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* XOR encrypted counter block with the current clear block.
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*/
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xor_block(blockp, lastp);
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crypto_get_ptrs(out, &iov_or_mp, &offset, &out_data_1,
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&out_data_1_len, &out_data_2, block_size);
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/* copy block to where it belongs */
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memcpy(out_data_1, lastp, out_data_1_len);
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if (out_data_2 != NULL) {
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memcpy(out_data_2, lastp + out_data_1_len,
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block_size - out_data_1_len);
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}
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/* update offset */
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out->cd_offset += block_size;
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/* Update pointer to next block of data to be processed. */
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if (ctx->ctr_remainder_len != 0) {
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datap += need;
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ctx->ctr_remainder_len = 0;
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} else {
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datap += block_size;
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}
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remainder = (size_t)&data[length] - (size_t)datap;
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/* Incomplete last block. */
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if (remainder > 0 && remainder < block_size) {
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memcpy(ctx->ctr_remainder, datap, remainder);
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ctx->ctr_remainder_len = remainder;
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ctx->ctr_copy_to = datap;
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goto out;
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}
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ctx->ctr_copy_to = NULL;
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} while (remainder > 0);
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out:
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return (CRYPTO_SUCCESS);
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}
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int
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ctr_mode_final(ctr_ctx_t *ctx, crypto_data_t *out,
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int (*encrypt_block)(const void *, const uint8_t *, uint8_t *))
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{
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uint8_t *lastp;
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void *iov_or_mp;
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offset_t offset;
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uint8_t *out_data_1;
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uint8_t *out_data_2;
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size_t out_data_1_len;
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uint8_t *p;
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int i;
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if (out->cd_length < ctx->ctr_remainder_len)
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return (CRYPTO_DATA_LEN_RANGE);
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encrypt_block(ctx->ctr_keysched, (uint8_t *)ctx->ctr_cb,
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(uint8_t *)ctx->ctr_tmp);
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lastp = (uint8_t *)ctx->ctr_tmp;
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p = (uint8_t *)ctx->ctr_remainder;
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for (i = 0; i < ctx->ctr_remainder_len; i++) {
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p[i] ^= lastp[i];
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}
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crypto_init_ptrs(out, &iov_or_mp, &offset);
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crypto_get_ptrs(out, &iov_or_mp, &offset, &out_data_1,
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&out_data_1_len, &out_data_2, ctx->ctr_remainder_len);
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memcpy(out_data_1, p, out_data_1_len);
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if (out_data_2 != NULL) {
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memcpy(out_data_2,
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(uint8_t *)p + out_data_1_len,
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ctx->ctr_remainder_len - out_data_1_len);
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}
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out->cd_offset += ctx->ctr_remainder_len;
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ctx->ctr_remainder_len = 0;
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return (CRYPTO_SUCCESS);
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}
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int
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ctr_init_ctx(ctr_ctx_t *ctr_ctx, ulong_t count, uint8_t *cb,
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void (*copy_block)(uint8_t *, uint8_t *))
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{
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uint64_t upper_mask = 0;
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uint64_t lower_mask = 0;
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if (count == 0 || count > 128) {
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return (CRYPTO_MECHANISM_PARAM_INVALID);
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}
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/* upper 64 bits of the mask */
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if (count >= 64) {
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count -= 64;
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upper_mask = (count == 64) ? UINT64_MAX : (1ULL << count) - 1;
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lower_mask = UINT64_MAX;
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} else {
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/* now the lower 63 bits */
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lower_mask = (1ULL << count) - 1;
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}
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ctr_ctx->ctr_lower_mask = htonll(lower_mask);
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ctr_ctx->ctr_upper_mask = htonll(upper_mask);
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copy_block(cb, (uchar_t *)ctr_ctx->ctr_cb);
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ctr_ctx->ctr_lastp = (uint8_t *)&ctr_ctx->ctr_cb[0];
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ctr_ctx->ctr_flags |= CTR_MODE;
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return (CRYPTO_SUCCESS);
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}
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void *
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ctr_alloc_ctx(int kmflag)
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{
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ctr_ctx_t *ctr_ctx;
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if ((ctr_ctx = kmem_zalloc(sizeof (ctr_ctx_t), kmflag)) == NULL)
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return (NULL);
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ctr_ctx->ctr_flags = CTR_MODE;
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return (ctr_ctx);
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}
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