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// SPDX-License-Identifier: GPL-2.0
/* Copyright (c) 2024 Meta Platforms, Inc. and affiliates. */
#include <argp.h>
#include "bench.h"
#include "crypto_bench.skel.h"
#define MAX_CIPHER_LEN 32
static char *input;
static struct crypto_ctx {
struct crypto_bench *skel;
int pfd;
} ctx;
static struct crypto_args {
u32 crypto_len;
char *crypto_cipher;
} args = {
.crypto_len = 16,
.crypto_cipher = "ecb(aes)",
};
enum {
ARG_CRYPTO_LEN = 5000,
ARG_CRYPTO_CIPHER = 5001,
};
static const struct argp_option opts[] = {
{ "crypto-len", ARG_CRYPTO_LEN, "CRYPTO_LEN", 0,
"Set the length of crypto buffer" },
{ "crypto-cipher", ARG_CRYPTO_CIPHER, "CRYPTO_CIPHER", 0,
"Set the cipher to use (default:ecb(aes))" },
{},
};
static error_t crypto_parse_arg(int key, char *arg, struct argp_state *state)
{
switch (key) {
case ARG_CRYPTO_LEN:
args.crypto_len = strtoul(arg, NULL, 10);
if (!args.crypto_len ||
args.crypto_len > sizeof(ctx.skel->bss->dst)) {
fprintf(stderr, "Invalid crypto buffer len (limit %zu)\n",
sizeof(ctx.skel->bss->dst));
argp_usage(state);
}
break;
case ARG_CRYPTO_CIPHER:
args.crypto_cipher = strdup(arg);
if (!strlen(args.crypto_cipher) ||
strlen(args.crypto_cipher) > MAX_CIPHER_LEN) {
fprintf(stderr, "Invalid crypto cipher len (limit %d)\n",
MAX_CIPHER_LEN);
argp_usage(state);
}
break;
default:
return ARGP_ERR_UNKNOWN;
}
return 0;
}
const struct argp bench_crypto_argp = {
.options = opts,
.parser = crypto_parse_arg,
};
static void crypto_validate(void)
{
if (env.consumer_cnt != 0) {
fprintf(stderr, "bpf crypto benchmark doesn't support consumer!\n");
exit(1);
}
}
static void crypto_setup(void)
{
LIBBPF_OPTS(bpf_test_run_opts, opts);
int err, pfd;
size_t i, sz;
sz = args.crypto_len;
if (!sz || sz > sizeof(ctx.skel->bss->dst)) {
fprintf(stderr, "invalid encrypt buffer size (source %zu, target %zu)\n",
sz, sizeof(ctx.skel->bss->dst));
exit(1);
}
setup_libbpf();
ctx.skel = crypto_bench__open();
if (!ctx.skel) {
fprintf(stderr, "failed to open skeleton\n");
exit(1);
}
snprintf(ctx.skel->bss->cipher, 128, "%s", args.crypto_cipher);
memcpy(ctx.skel->bss->key, "12345678testtest", 16);
ctx.skel->bss->key_len = 16;
ctx.skel->bss->authsize = 0;
srandom(time(NULL));
input = malloc(sz);
for (i = 0; i < sz - 1; i++)
input[i] = '1' + random() % 9;
input[sz - 1] = '\0';
ctx.skel->rodata->len = args.crypto_len;
err = crypto_bench__load(ctx.skel);
if (err) {
fprintf(stderr, "failed to load skeleton\n");
crypto_bench__destroy(ctx.skel);
exit(1);
}
pfd = bpf_program__fd(ctx.skel->progs.crypto_setup);
if (pfd < 0) {
fprintf(stderr, "failed to get fd for setup prog\n");
crypto_bench__destroy(ctx.skel);
exit(1);
}
err = bpf_prog_test_run_opts(pfd, &opts);
if (err || ctx.skel->bss->status) {
fprintf(stderr, "failed to run setup prog: err %d, status %d\n",
err, ctx.skel->bss->status);
crypto_bench__destroy(ctx.skel);
exit(1);
}
}
static void crypto_encrypt_setup(void)
{
crypto_setup();
ctx.pfd = bpf_program__fd(ctx.skel->progs.crypto_encrypt);
}
static void crypto_decrypt_setup(void)
{
crypto_setup();
ctx.pfd = bpf_program__fd(ctx.skel->progs.crypto_decrypt);
}
static void crypto_measure(struct bench_res *res)
{
res->hits = atomic_swap(&ctx.skel->bss->hits, 0);
}
static void *crypto_producer(void *unused)
{
LIBBPF_OPTS(bpf_test_run_opts, opts,
.repeat = 64,
.data_in = input,
.data_size_in = args.crypto_len,
);
while (true)
(void)bpf_prog_test_run_opts(ctx.pfd, &opts);
return NULL;
}
const struct bench bench_crypto_encrypt = {
.name = "crypto-encrypt",
.argp = &bench_crypto_argp,
.validate = crypto_validate,
.setup = crypto_encrypt_setup,
.producer_thread = crypto_producer,
.measure = crypto_measure,
.report_progress = hits_drops_report_progress,
.report_final = hits_drops_report_final,
};
const struct bench bench_crypto_decrypt = {
.name = "crypto-decrypt",
.argp = &bench_crypto_argp,
.validate = crypto_validate,
.setup = crypto_decrypt_setup,
.producer_thread = crypto_producer,
.measure = crypto_measure,
.report_progress = hits_drops_report_progress,
.report_final = hits_drops_report_final,
};
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