/*
* Copyright (c) 2017-2019, Intel Corporation
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* * Neither the name of Intel Corporation nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include "ptunit.h"
#include "pt_msec_cache.h"
#include "intel-pt.h"
int pt_section_get(struct pt_section *section)
{
uint16_t ucount;
if (!section)
return -pte_internal;
ucount = section->ucount + 1;
if (!ucount)
return -pte_overflow;
section->ucount = ucount;
return 0;
}
int pt_section_put(struct pt_section *section)
{
uint16_t ucount;
if (!section)
return -pte_internal;
ucount = section->ucount;
if (!ucount)
return -pte_overflow;
section->ucount = ucount - 1;
return 0;
}
int pt_section_map(struct pt_section *section)
{
uint16_t ucount, mcount;
if (!section)
return -pte_internal;
ucount = section->ucount;
if (!ucount)
return -pte_internal;
mcount = section->mcount + 1;
if (!mcount)
return -pte_overflow;
section->mcount = mcount;
return 0;
}
int pt_section_unmap(struct pt_section *section)
{
uint16_t ucount, mcount;
if (!section)
return -pte_internal;
ucount = section->ucount;
if (!ucount)
return -pte_internal;
mcount = section->mcount;
if (!mcount)
return -pte_overflow;
section->mcount = mcount - 1;
return 0;
}
/* A mock image. */
struct pt_image {
/* The section stored in the image.
*
* This is either the fixture's section or NULL.
*/
struct pt_section *section;
};
extern int pt_image_validate(struct pt_image *, struct pt_mapped_section *,
uint64_t, int);
extern int pt_image_find(struct pt_image *, struct pt_mapped_section *,
const struct pt_asid *, uint64_t);
int pt_image_validate(struct pt_image *image, struct pt_mapped_section *msec,
uint64_t vaddr, int isid)
{
struct pt_section *section;
(void) vaddr;
(void) isid;
if (!image || !msec)
return -pte_internal;
section = image->section;
if (!section)
return -pte_nomap;
if (section != msec->section)
return -pte_nomap;
return 0;
}
int pt_image_find(struct pt_image *image, struct pt_mapped_section *msec,
const struct pt_asid *asid, uint64_t vaddr)
{
struct pt_section *section;
(void) vaddr;
if (!image || !msec || !asid)
return -pte_internal;
section = image->section;
if (!section)
return -pte_nomap;
if (msec->section)
return -pte_internal;
msec->section = section;
return pt_section_get(section);
}
/* A test fixture providing a section and checking the use and map count. */
struct test_fixture {
/* A test section. */
struct pt_section section;
/* A test cache. */
struct pt_msec_cache mcache;
/* A test image. */
struct pt_image image;
/* The test fixture initialization and finalization functions. */
struct ptunit_result (*init)(struct test_fixture *);
struct ptunit_result (*fini)(struct test_fixture *);
};
static struct ptunit_result init_null(void)
{
int status;
status = pt_msec_cache_init(NULL);
ptu_int_eq(status, -pte_internal);
return ptu_passed();
}
static struct ptunit_result fini_null(void)
{
pt_msec_cache_fini(NULL);
return ptu_passed();
}
static struct ptunit_result invalidate_null(void)
{
int status;
status = pt_msec_cache_invalidate(NULL);
ptu_int_eq(status, -pte_internal);
return ptu_passed();
}
static struct ptunit_result read_null(void)
{
const struct pt_mapped_section *msec;
struct pt_msec_cache mcache;
struct pt_image image;
int status;
status = pt_msec_cache_read(NULL, &msec, &image, 0ull);
ptu_int_eq(status, -pte_internal);
status = pt_msec_cache_read(&mcache, NULL, &image, 0ull);
ptu_int_eq(status, -pte_internal);
status = pt_msec_cache_read(&mcache, &msec, NULL, 0ull);
ptu_int_eq(status, -pte_internal);
return ptu_passed();
}
static struct ptunit_result fill_null(void)
{
const struct pt_mapped_section *msec;
struct pt_msec_cache mcache;
struct pt_image image;
struct pt_asid asid;
int status;
memset(&mcache, 0, sizeof(mcache));
status = pt_msec_cache_fill(NULL, &msec, &image, &asid, 0ull);
ptu_int_eq(status, -pte_internal);
status = pt_msec_cache_fill(&mcache, NULL, &image, &asid, 0ull);
ptu_int_eq(status, -pte_internal);
status = pt_msec_cache_fill(&mcache, &msec, NULL, &asid, 0ull);
ptu_int_eq(status, -pte_internal);
status = pt_msec_cache_fill(&mcache, &msec, &image, NULL, 0ull);
ptu_int_eq(status, -pte_internal);
return ptu_passed();
}
static struct ptunit_result invalidate(struct test_fixture *tfix)
{
struct pt_section *section;
int status;
status = pt_msec_cache_invalidate(&tfix->mcache);
ptu_int_eq(status, 0);
section = pt_msec_section(&tfix->mcache.msec);
ptu_null(section);
ptu_uint_eq(tfix->section.mcount, 0);
ptu_uint_eq(tfix->section.ucount, 0);
return ptu_passed();
}
static struct ptunit_result read_nomap(struct test_fixture *tfix)
{
const struct pt_mapped_section *msec;
int status;
msec = NULL;
status = pt_msec_cache_read(&tfix->mcache, &msec, &tfix->image, 0ull);
ptu_int_eq(status, -pte_nomap);
ptu_null(msec);
return ptu_passed();
}
static struct ptunit_result read(struct test_fixture *tfix)
{
const struct pt_mapped_section *msec;
struct pt_section *section;
int status;
status = pt_msec_cache_read(&tfix->mcache, &msec, &tfix->image, 0ull);
ptu_int_eq(status, 0);
ptu_ptr_eq(msec, &tfix->mcache.msec);
section = pt_msec_section(msec);
ptu_ptr_eq(section, &tfix->section);
return ptu_passed();
}
static struct ptunit_result fill_nomap(struct test_fixture *tfix)
{
const struct pt_mapped_section *msec;
struct pt_asid asid;
struct pt_section *section;
int status;
msec = NULL;
status = pt_msec_cache_fill(&tfix->mcache, &msec, &tfix->image, &asid,
0ull);
ptu_int_eq(status, -pte_nomap);
section = pt_msec_section(&tfix->mcache.msec);
ptu_null(section);
ptu_null(msec);
ptu_uint_eq(tfix->section.mcount, 0);
ptu_uint_eq(tfix->section.ucount, 0);
return ptu_passed();
}
static struct ptunit_result fill(struct test_fixture *tfix)
{
const struct pt_mapped_section *msec;
struct pt_section *section;
struct pt_asid asid;
int status;
status = pt_msec_cache_fill(&tfix->mcache, &msec, &tfix->image, &asid,
0ull);
ptu_int_eq(status, 0);
ptu_ptr_eq(msec, &tfix->mcache.msec);
section = pt_msec_section(msec);
ptu_ptr_eq(section, &tfix->section);
ptu_uint_eq(section->mcount, 1);
ptu_uint_eq(section->ucount, 1);
return ptu_passed();
}
static struct ptunit_result sfix_init(struct test_fixture *tfix)
{
memset(&tfix->section, 0, sizeof(tfix->section));
memset(&tfix->mcache, 0, sizeof(tfix->mcache));
memset(&tfix->image, 0, sizeof(tfix->image));
return ptu_passed();
}
static struct ptunit_result ifix_init(struct test_fixture *tfix)
{
ptu_test(sfix_init, tfix);
tfix->image.section = &tfix->section;
return ptu_passed();
}
static struct ptunit_result cfix_init(struct test_fixture *tfix)
{
ptu_test(sfix_init, tfix);
tfix->mcache.msec.section = &tfix->section;
tfix->section.ucount = 1;
tfix->section.mcount = 1;
return ptu_passed();
}
static struct ptunit_result cifix_init(struct test_fixture *tfix)
{
ptu_test(cfix_init, tfix);
tfix->image.section = &tfix->section;
return ptu_passed();
}
int main(int argc, char **argv)
{
struct ptunit_suite suite;
struct test_fixture sfix, ifix, cfix, cifix;
sfix.init = sfix_init;
sfix.fini = NULL;
ifix.init = ifix_init;
ifix.fini = NULL;
cfix.init = cfix_init;
cfix.fini = NULL;
cifix.init = cifix_init;
cifix.fini = NULL;
suite = ptunit_mk_suite(argc, argv);
ptu_run(suite, init_null);
ptu_run(suite, fini_null);
ptu_run(suite, invalidate_null);
ptu_run(suite, read_null);
ptu_run(suite, fill_null);
ptu_run_f(suite, invalidate, sfix);
ptu_run_f(suite, invalidate, cfix);
ptu_run_f(suite, read_nomap, sfix);
ptu_run_f(suite, read_nomap, ifix);
ptu_run_f(suite, read_nomap, cfix);
ptu_run_f(suite, read, cifix);
ptu_run_f(suite, fill_nomap, sfix);
ptu_run_f(suite, fill_nomap, cfix);
ptu_run_f(suite, fill, ifix);
ptu_run_f(suite, fill, cifix);
return ptunit_report(&suite);
}