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iw7-mod/deps/zstd/contrib/linux-kernel/test/test.c
Ahrimdon f0d2362fb5 maint: update deps
2024-08-13 05:15:34 -04:00

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/*
* Copyright (c) Meta Platforms, Inc. and affiliates.
* All rights reserved.
*
* This source code is licensed under both the BSD-style license (found in the
* LICENSE file in the root directory of this source tree) and the GPLv2 (found
* in the COPYING file in the root directory of this source tree).
* You may select, at your option, one of the above-listed licenses.
*/
#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <linux/zstd.h>
#define CONTROL(x) \
do { \
if (!(x)) { \
fprintf(stderr, "%s:%u: %s failed!\n", __FUNCTION__, __LINE__, #x); \
abort(); \
} \
} while (0)
typedef struct {
char *data;
char *data2;
size_t dataSize;
char *comp;
size_t compSize;
} test_data_t;
static test_data_t create_test_data(void) {
test_data_t data;
data.dataSize = 128 * 1024;
data.data = (char*)malloc(data.dataSize);
CONTROL(data.data != NULL);
data.data2 = (char*)malloc(data.dataSize);
CONTROL(data.data2 != NULL);
data.compSize = zstd_compress_bound(data.dataSize);
data.comp = (char*)malloc(data.compSize);
CONTROL(data.comp != NULL);
memset(data.data, 0, data.dataSize);
return data;
}
static void free_test_data(test_data_t const *data) {
free(data->data);
free(data->data2);
free(data->comp);
}
#define MIN(a, b) ((a) < (b) ? (a) : (b))
#define MAX(a, b) ((a) > (b) ? (a) : (b))
static void test_btrfs(test_data_t const *data) {
size_t const size = MIN(data->dataSize, 128 * 1024);
fprintf(stderr, "testing btrfs use cases... ");
for (int level = -1; level < 16; ++level) {
zstd_parameters params = zstd_get_params(level, size);
size_t const workspaceSize =
MAX(zstd_cstream_workspace_bound(&params.cParams),
zstd_dstream_workspace_bound(size));
void *workspace = malloc(workspaceSize);
char const *ip = data->data;
char const *iend = ip + size;
char *op = data->comp;
char *oend = op + data->compSize;
CONTROL(params.cParams.windowLog <= 17);
CONTROL(workspace != NULL);
{
zstd_cstream *cctx = zstd_init_cstream(&params, size, workspace, workspaceSize);
zstd_out_buffer out = {NULL, 0, 0};
zstd_in_buffer in = {NULL, 0, 0};
CONTROL(cctx != NULL);
for (;;) {
if (in.pos == in.size) {
in.src = ip;
in.size = MIN(4096, iend - ip);
in.pos = 0;
ip += in.size;
}
if (out.pos == out.size) {
out.dst = op;
out.size = MIN(4096, oend - op);
out.pos = 0;
op += out.size;
}
if (ip != iend || in.pos < in.size) {
CONTROL(!zstd_is_error(zstd_compress_stream(cctx, &out, &in)));
} else {
size_t const ret = zstd_end_stream(cctx, &out);
CONTROL(!zstd_is_error(ret));
if (ret == 0) {
break;
}
}
}
op += out.pos;
}
ip = data->comp;
iend = op;
op = data->data2;
oend = op + size;
{
zstd_dstream *dctx = zstd_init_dstream(1ULL << params.cParams.windowLog, workspace, workspaceSize);
zstd_out_buffer out = {NULL, 0, 0};
zstd_in_buffer in = {NULL, 0, 0};
CONTROL(dctx != NULL);
for (;;) {
if (in.pos == in.size) {
in.src = ip;
in.size = MIN(4096, iend - ip);
in.pos = 0;
ip += in.size;
}
if (out.pos == out.size) {
out.dst = op;
out.size = MIN(4096, oend - op);
out.pos = 0;
op += out.size;
}
{
size_t const ret = zstd_decompress_stream(dctx, &out, &in);
CONTROL(!zstd_is_error(ret));
if (ret == 0) {
break;
}
}
}
}
CONTROL((size_t)(op - data->data2) == data->dataSize);
CONTROL(!memcmp(data->data, data->data2, data->dataSize));
free(workspace);
}
fprintf(stderr, "Ok\n");
}
static void test_decompress_unzstd(test_data_t const *data) {
size_t cSize;
fprintf(stderr, "Testing decompress unzstd... ");
{
zstd_parameters params = zstd_get_params(19, 0);
size_t const wkspSize = zstd_cctx_workspace_bound(&params.cParams);
void* wksp = malloc(wkspSize);
zstd_cctx* cctx = zstd_init_cctx(wksp, wkspSize);
CONTROL(wksp != NULL);
CONTROL(cctx != NULL);
cSize = zstd_compress_cctx(cctx, data->comp, data->compSize, data->data, data->dataSize, &params);
CONTROL(!zstd_is_error(cSize));
free(wksp);
}
{
size_t const wkspSize = zstd_dctx_workspace_bound();
void* wksp = malloc(wkspSize);
zstd_dctx* dctx = zstd_init_dctx(wksp, wkspSize);
CONTROL(wksp != NULL);
CONTROL(dctx != NULL);
{
size_t const dSize = zstd_decompress_dctx(dctx, data->data2, data->dataSize, data->comp, cSize);
CONTROL(!zstd_is_error(dSize));
CONTROL(dSize == data->dataSize);
}
CONTROL(!memcmp(data->data, data->data2, data->dataSize));
free(wksp);
}
fprintf(stderr, "Ok\n");
}
static void test_f2fs(void) {
fprintf(stderr, "testing f2fs uses... ");
CONTROL(zstd_min_clevel() < 0);
CONTROL(zstd_max_clevel() == 22);
fprintf(stderr, "Ok\n");
}
static char *g_stack = NULL;
static void __attribute__((noinline)) use(void *x) {
asm volatile("" : "+r"(x));
}
static void __attribute__((noinline)) fill_stack(void) {
memset(g_stack, 0x33, 8192);
}
static void __attribute__((noinline)) set_stack(void) {
char stack[8192];
g_stack = stack;
use(g_stack);
}
static void __attribute__((noinline)) check_stack(void) {
size_t cleanStack = 0;
while (cleanStack < 8192 && g_stack[cleanStack] == 0x33) {
++cleanStack;
}
{
size_t const stackSize = 8192 - cleanStack;
fprintf(stderr, "Maximum stack size: %zu\n", stackSize);
CONTROL(stackSize <= 2048 + 512);
}
}
static void test_stack_usage(test_data_t const *data) {
set_stack();
fill_stack();
test_f2fs();
test_btrfs(data);
test_decompress_unzstd(data);
check_stack();
}
int main(void) {
test_data_t data = create_test_data();
test_f2fs();
test_btrfs(&data);
test_decompress_unzstd(&data);
test_stack_usage(&data);
free_test_data(&data);
return 0;
}
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