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flashrom/tests/dummyflasher.c
Anastasia Klimchuk 7d6a243779 tests: Use SPDX in headers 
Change-Id: I3a8a8e59cbed871e0ecf953e547de56c0656e112
Signed-off-by: Anastasia Klimchuk <aklm@flashrom.org>
Reviewed-on: https://review.coreboot.org/c/flashrom/+/89361
Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
Reviewed-by: Peter Marheine <pmarheine@chromium.org>
Reviewed-by: Antonio Vázquez Blanco <antoniovazquezblanco@gmail.com>
Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
2025-10-11 06:02:44 +00:00

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/*
* This file is part of the flashrom project.
*
* SPDX-License-Identifier: GPL-2.0-only
* SPDX-FileCopyrightText: 2021 Google LLC
*/
#include "lifecycle.h"
#if CONFIG_DUMMY == 1
void dummy_basic_lifecycle_test_success(void **state)
{
struct io_mock_fallback_open_state dummy_fallback_open_state = {
.noc = 0,
.paths = { NULL },
};
const struct io_mock dummy_io = {
.fallback_open_state = &dummy_fallback_open_state,
};
run_basic_lifecycle(state, &dummy_io, &programmer_dummy, "bus=parallel+lpc+fwh+spi+prog");
}
void dummy_probe_lifecycle_test_success(void **state)
{
struct io_mock_fallback_open_state dummy_fallback_open_state = {
.noc = 0,
.paths = { NULL },
};
const struct io_mock dummy_io = {
.fallback_open_state = &dummy_fallback_open_state,
};
const char *expected_matched_names[1] = {"W25Q128.V"};
run_probe_v2_lifecycle(state, &dummy_io, &programmer_dummy, "bus=spi,emulate=W25Q128FV", "W25Q128.V",
expected_matched_names, 1);
}
void dummy_probe_v2_one_match_for_W25Q128FV(void **state)
{
struct io_mock_fallback_open_state dummy_fallback_open_state = {
.noc = 0,
.paths = { NULL },
};
const struct io_mock dummy_io = {
.fallback_open_state = &dummy_fallback_open_state,
};
const char *expected_matched_names[1] = {"W25Q128.V"};
run_probe_v2_lifecycle(state, &dummy_io, &programmer_dummy, "bus=spi,emulate=W25Q128FV",
NULL, /* any chip name */
expected_matched_names, 1);
}
void dummy_probe_v2_six_matches_for_MX25L6436(void **state)
{
struct io_mock_fallback_open_state dummy_fallback_open_state = {
.noc = 0,
.paths = { NULL },
};
const struct io_mock dummy_io = {
.fallback_open_state = &dummy_fallback_open_state,
};
const char *expected_matched_names[6] = {"MX25L6405",
"MX25L6405D",
"MX25L6406E/MX25L6408E",
"MX25L6436E/MX25L6445E/MX25L6465E",
"MX25L6473E",
"MX25L6473F"};
run_probe_v2_lifecycle(state, &dummy_io, &programmer_dummy, "bus=spi,emulate=MX25L6436",
NULL, /* any chip name */
expected_matched_names, 6);
}
void dummy_probe_v2_no_matches_found(void **state)
{
struct io_mock_fallback_open_state dummy_fallback_open_state = {
.noc = 0,
.paths = { NULL },
};
const struct io_mock dummy_io = {
.fallback_open_state = &dummy_fallback_open_state,
};
run_probe_v2_lifecycle(state, &dummy_io, &programmer_dummy, "bus=spi,emulate=MX25L6436",
"NONEXISTENT", NULL /* no matched names */, 0);
}
void dummy_probe_variable_size_test_success(void **state)
{
struct io_mock_fallback_open_state dummy_fallback_open_state = {
.noc = 0,
.paths = { NULL },
};
const struct io_mock dummy_io = {
.fallback_open_state = &dummy_fallback_open_state,
};
const char *expected_matched_names[1] = {"Opaque flash chip"};
run_probe_v2_lifecycle(state, &dummy_io, &programmer_dummy, "size=8388608,emulate=VARIABLE_SIZE", "Opaque flash chip",
expected_matched_names, 1);
}
void dummy_init_fails_unhandled_param_test_success(void **state)
{
struct io_mock_fallback_open_state dummy_fallback_open_state = {
.noc = 0,
.paths = { NULL },
};
const struct io_mock dummy_io = {
.fallback_open_state = &dummy_fallback_open_state,
};
/*
* Programmer init should fail due to `dummy_init` failure caused by
* invalid value of `emulate` param. There is unhandled param left
* at the end of param string.
*/
run_init_error_path(state, &dummy_io, &programmer_dummy, "bus=spi,emulate=INVALID,unhandled=value", 1);
}
void dummy_init_success_invalid_param_test_success(void **state)
{
struct io_mock_fallback_open_state dummy_fallback_open_state = {
.noc = 0,
.paths = { NULL },
};
const struct io_mock dummy_io = {
.fallback_open_state = &dummy_fallback_open_state,
};
/*
* Programmer init should fail despite of the fact that `dummy_init`
* is successful, due to invalid param at the end of param string.
*/
run_init_error_path(state, &dummy_io, &programmer_dummy,
"bus=spi,emulate=W25Q128FV,invalid=value", ERROR_FLASHROM_FATAL);
}
void dummy_init_success_unhandled_param_test_success(void **state)
{
struct io_mock_fallback_open_state dummy_fallback_open_state = {
.noc = 0,
.paths = { NULL },
};
const struct io_mock dummy_io = {
.fallback_open_state = &dummy_fallback_open_state,
};
/*
* Programmer init should fail despite of the fact that `dummy_init`
* is successful, due to unhandled param at the end of param string.
* Unhandled param `voltage` is not used for dummyflasher.
*/
run_init_error_path(state, &dummy_io, &programmer_dummy,
"bus=spi,emulate=W25Q128FV,voltage=3.5V", ERROR_FLASHROM_FATAL);
}
void dummy_null_prog_param_test_success(void **state)
{
struct io_mock_fallback_open_state dummy_fallback_open_state = {
.noc = 0,
.paths = { NULL },
};
const struct io_mock dummy_io = {
.fallback_open_state = &dummy_fallback_open_state,
};
run_basic_lifecycle(state, &dummy_io, &programmer_dummy, NULL);
}
void dummy_all_buses_test_success(void **state)
{
struct io_mock_fallback_open_state dummy_fallback_open_state = {
.noc = 0,
.paths = { NULL },
};
const struct io_mock dummy_io = {
.fallback_open_state = &dummy_fallback_open_state,
};
run_basic_lifecycle(state, &dummy_io, &programmer_dummy, "bus=lpc+fwh");
run_basic_lifecycle(state, &dummy_io, &programmer_dummy, "bus=spi");
run_basic_lifecycle(state, &dummy_io, &programmer_dummy, "bus=prog");
run_basic_lifecycle(state, &dummy_io, &programmer_dummy, "bus=parallel+fwh+prog");
run_basic_lifecycle(state, &dummy_io, &programmer_dummy, "bus=spi+prog");
run_basic_lifecycle(state, &dummy_io, &programmer_dummy, "bus=parallel+lpc+spi");
}
void dummy_freq_param_init(void **state)
{
struct io_mock_fallback_open_state dummy_fallback_open_state = {
.noc = 0,
.paths = { NULL },
};
const struct io_mock dummy_io = {
.fallback_open_state = &dummy_fallback_open_state,
};
run_basic_lifecycle(state, &dummy_io, &programmer_dummy, "bus=spi,freq=12Hz");
run_basic_lifecycle(state, &dummy_io, &programmer_dummy, "bus=spi,freq=123KHz");
run_basic_lifecycle(state, &dummy_io, &programmer_dummy, "bus=spi,freq=345MHz");
run_basic_lifecycle(state, &dummy_io, &programmer_dummy, "bus=spi,freq=8000MHz");
/* Valid values for freq param are within the range [1Hz, 8000Mhz] */
run_init_error_path(state, &dummy_io, &programmer_dummy, "bus=spi,freq=0Hz", 0x1);
run_init_error_path(state, &dummy_io, &programmer_dummy, "bus=spi,freq=8001Mhz", 0x1);
}
/*
* Initialize the programmer and probe, failing the test if either step returns an error,
* the probed chip is not the expected one, or its size is not the expected size.
*/
static void dummy_test_init_and_probe(struct flashrom_flashctx *flashctx,
struct flashrom_programmer *flashprog)
{
struct io_mock_fallback_open_state dummy_fallback_open_state = {
.noc = 0,
.paths = { NULL },
};
const struct io_mock dummy_io = {
.fallback_open_state = &dummy_fallback_open_state,
};
io_mock_register(&dummy_io);
const char *param = "bus=spi,emulate=W25Q128FV";
const unsigned long chip_size = 16384 * KiB; // emulated chip size
const char **all_matched_names = NULL;
printf("Testing flashrom_programmer_init for programmer=%s with param=%s ...\n",
programmer_dummy.name, param);
assert_int_equal(0, flashrom_programmer_init(&flashprog, programmer_dummy.name, param));
printf("... flashrom_programmer_init for programmer=%s with param=%s successful\n",
programmer_dummy.name, param);
printf("Testing flashrom_flash_probe_v2 for programmer=%s ... \n", programmer_dummy.name);
assert_int_equal(1, flashrom_flash_probe_v2(flashctx, &all_matched_names,
flashprog, NULL));
assert_int_equal(0, strcmp("W25Q128.V", all_matched_names[0]));
assert_int_equal(chip_size, flashrom_flash_getsize(flashctx));
printf("... flashrom_flash_probe_v2 for programmer=%s successful\n", programmer_dummy.name);
flashrom_data_free(all_matched_names);
}
/*
* Shuts down the programmer and frees memory for layout and chip in flash context.
*/
static void dummy_test_shutdown(struct flashrom_flashctx *flashctx,
struct flashrom_programmer *flashprog)
{
printf("Testing flashrom_programmer_shutdown for programmer=%s ...\n", programmer_dummy.name);
assert_int_equal(0, flashrom_programmer_shutdown(flashprog));
printf("... flashrom_programmer_shutdown for programmer=%s successful\n", programmer_dummy.name);
io_mock_register(NULL);
flashrom_layout_release(flashctx->default_layout);
free(flashctx->chip);
}
void dummy_probe_and_read(void **state)
{
(void) state; /* unused */
struct flashrom_programmer *flashprog = NULL;
struct flashrom_flashctx flashctx = { 0 };
dummy_test_init_and_probe(&flashctx, flashprog);
const unsigned long image_size = 16384 * KiB;
unsigned char *buf = calloc(image_size, sizeof(unsigned char));
assert_non_null(buf);
printf("Testing flashrom_image_read ...\n");
assert_int_equal(0, flashrom_image_read(&flashctx, buf, image_size));
printf("... flashrom_image_read is successful.\n");
free(buf);
dummy_test_shutdown(&flashctx, flashprog);
}
void dummy_probe_and_write(void **state)
{
(void) state; /* unused */
struct flashrom_programmer *flashprog = NULL;
struct flashrom_flashctx flashctx = { 0 };
dummy_test_init_and_probe(&flashctx, flashprog);
const unsigned long image_size = 16384 * KiB;
uint8_t *const newcontents = malloc(image_size);
assert_non_null(newcontents);
printf("Testing flashrom_image_write ...\n");
assert_int_equal(0, flashrom_image_write(&flashctx, newcontents, image_size, NULL));
printf("... flashrom_image_write is successful.\n");
free(newcontents);
dummy_test_shutdown(&flashctx, flashprog);
}
void dummy_probe_and_erase(void **state)
{
(void) state; /* unused */
struct flashrom_programmer *flashprog = NULL;
struct flashrom_flashctx flashctx = { 0 };
dummy_test_init_and_probe(&flashctx, flashprog);
printf("Testing flashrom_flash_erase ...\n");
assert_int_equal(0, flashrom_flash_erase(&flashctx));
printf("... flashrom_flash_erase is successful.\n");
dummy_test_shutdown(&flashctx, flashprog);
}
#else
SKIP_TEST(dummy_basic_lifecycle_test_success)
SKIP_TEST(dummy_probe_lifecycle_test_success)
SKIP_TEST(dummy_probe_v2_one_match_for_W25Q128FV)
SKIP_TEST(dummy_probe_v2_six_matches_for_MX25L6436)
SKIP_TEST(dummy_probe_v2_no_matches_found)
SKIP_TEST(dummy_probe_variable_size_test_success)
SKIP_TEST(dummy_init_fails_unhandled_param_test_success)
SKIP_TEST(dummy_init_success_invalid_param_test_success)
SKIP_TEST(dummy_init_success_unhandled_param_test_success)
SKIP_TEST(dummy_null_prog_param_test_success)
SKIP_TEST(dummy_all_buses_test_success)
SKIP_TEST(dummy_freq_param_init)
SKIP_TEST(dummy_probe_and_read)
SKIP_TEST(dummy_probe_and_write)
SKIP_TEST(dummy_probe_and_erase)
#endif /* CONFIG_DUMMY */
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