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flashrom/tests/init_shutdown.c
Peter Marheine 47f4c18260 tests: add init_shutdown test for realtek_mst_i2c_spi 
This can catch regressions like the earlier one in this programmer that
caused initialization to always fail. Requires support for mocking POSIX
file I/O functions because the programmer does ioctls on the opened
file.

TEST=ninja test

Signed-off-by: Peter Marheine <pmarheine@chromium.org>
Change-Id: I5a5c617d1ec35d2a3bbe622e5add82a65eb396f0
Reviewed-on: https://review.coreboot.org/c/flashrom/+/56911
Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
Reviewed-by: Anastasia Klimchuk <aklm@chromium.org>
Reviewed-by: Edward O'Callaghan <quasisec@chromium.org>
2021-08-19 03:53:41 +00:00

266 lines
6.7 KiB
C
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/*
* This file is part of the flashrom project.
*
* Copyright 2021 Google LLC
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#include <include/test.h>
#include <string.h>
#include "io_mock.h"
#include "programmer.h"
static void run_lifecycle(void **state, const struct programmer_entry *prog, const char *param)
{
(void) state; /* unused */
char *param_dup = strdup(param);
printf("Testing programmer_init for programmer=%s ...\n", prog->name);
assert_int_equal(0, programmer_init(prog, param_dup));
printf("... programmer_init for programmer=%s successful\n", prog->name);
printf("Testing programmer_shutdown for programmer=%s ...\n", prog->name);
assert_int_equal(0, programmer_shutdown());
printf("... programmer_shutdown for programmer=%s successful\n", prog->name);
free(param_dup);
}
void dummy_init_and_shutdown_test_success(void **state)
{
#if CONFIG_DUMMY == 1
run_lifecycle(state, &programmer_dummy, "bus=parallel+lpc+fwh+spi");
#else
skip();
#endif
}
struct mec1308_io_state {
unsigned char outb_val;
};
void mec1308_outb(void *state, unsigned char value, unsigned short port)
{
struct mec1308_io_state *io_state = state;
io_state->outb_val = value;
}
unsigned char mec1308_inb(void *state, unsigned short port)
{
struct mec1308_io_state *io_state = state;
return ((port == 0x2e /* MEC1308_SIO_PORT1 */
|| port == 0x4e /* MEC1308_SIO_PORT2 */)
? 0x20 /* MEC1308_DEVICE_ID_REG */
: ((io_state->outb_val == 0x84 /* MEC1308_MBX_DATA_START */)
? 0xaa /* MEC1308_CMD_PASSTHRU_SUCCESS */
: 0));
}
void mec1308_init_and_shutdown_test_success(void **state)
{
#if CONFIG_MEC1308 == 1
struct mec1308_io_state mec1308_io_state = { 0 };
const struct io_mock mec1308_io = {
.state = &mec1308_io_state,
.outb = mec1308_outb,
.inb = mec1308_inb,
};
io_mock_register(&mec1308_io);
will_return_always(__wrap_sio_read, 0x4d); /* MEC1308_DEVICE_ID_VAL */
run_lifecycle(state, &programmer_mec1308, "");
io_mock_register(NULL);
#else
skip();
#endif
}
void nicrealtek_init_and_shutdown_test_success(void **state)
{
#if CONFIG_NICREALTEK == 1
run_lifecycle(state, &programmer_nicrealtek, "");
#else
skip();
#endif
}
int dediprog_libusb_control_transfer(void *state,
libusb_device_handle *devh,
uint8_t bmRequestType,
uint8_t bRequest,
uint16_t wValue,
uint16_t wIndex,
unsigned char *data,
uint16_t wLength,
unsigned int timeout)
{
if (bRequest == 0x08 /* dediprog_cmds CMD_READ_PROG_INFO */) {
/* Provide dediprog Device String into data buffer */
memcpy(data, "SF600 V:7.2.2 ", wLength);
}
return wLength;
}
void dediprog_init_and_shutdown_test_success(void **state)
{
#if CONFIG_DEDIPROG == 1
const struct io_mock dediprog_io = {
.libusb_control_transfer = dediprog_libusb_control_transfer,
};
io_mock_register(&dediprog_io);
run_lifecycle(state, &programmer_dediprog, "voltage=3.5V");
io_mock_register(NULL);
#else
skip();
#endif
}
struct ene_lpc_io_state {
unsigned char outb_val;
int pause_cmd;
};
void ene_lpc_outb_kb932(void *state, unsigned char value, unsigned short port)
{
struct ene_lpc_io_state *io_state = state;
io_state->outb_val = value;
if (value == 0x59 /* ENE_KB932.ec_pause_cmd */)
io_state->pause_cmd = 1;
}
unsigned char ene_lpc_inb_kb932(void *state, unsigned short port)
{
struct ene_lpc_io_state *io_state = state;
unsigned char ene_hwver_offset = 0; /* REG_EC_HWVER & 0xff */
unsigned char ene_ediid_offset = 0x24; /* REG_EC_EDIID & 0xff */
unsigned char ec_status_buf_offset = 0x54; /* ENE_KB932.ec_status_buf & 0xff */
if (port == 0xfd63 /* ENE_KB932.port_io_base + port_ene_data */) {
if (io_state->outb_val == ene_hwver_offset)
return 0xa2; /* ENE_KB932.hwver */
if (io_state->outb_val == ene_ediid_offset)
return 0x02; /* ENE_KB932.ediid */
if (io_state->outb_val == ec_status_buf_offset) {
if (io_state->pause_cmd == 1) {
io_state->pause_cmd = 0;
return 0x33; /* ENE_KB932.ec_is_pausing mask */
} else {
return 0x00; /* ENE_KB932.ec_is_running mask */
}
}
}
return 0;
}
void ene_lpc_init_and_shutdown_test_success(void **state)
{
#if CONFIG_ENE_LPC == 1
/*
* Current implementation tests for chip ENE_KB932.
* Another chip which is not tested here is ENE_KB94X.
*/
struct ene_lpc_io_state ene_lpc_io_state = { 0, 0 };
const struct io_mock ene_lpc_io = {
.state = &ene_lpc_io_state,
.outb = ene_lpc_outb_kb932,
.inb = ene_lpc_inb_kb932,
};
io_mock_register(&ene_lpc_io);
run_lifecycle(state, &programmer_ene_lpc, "");
io_mock_register(NULL);
#else
skip();
#endif
}
void linux_spi_init_and_shutdown_test_success(void **state)
{
/*
* Current implementation tests a particular path of the init procedure.
* There are two ways for it to succeed: reading the buffer size from sysfs
* and the fallback to getpagesize(). This test does the latter (fallback to
* getpagesize).
*/
#if CONFIG_LINUX_SPI == 1
run_lifecycle(state, &programmer_linux_spi, "dev=/dev/null");
#else
skip();
#endif
}
#define REALTEK_MST_MOCK_FD 0x10ec
static int realtek_mst_open(void *state, const char *pathname, int flags)
{
assert_string_equal(pathname, "/dev/i2c-254");
assert_int_equal(flags & O_RDWR, O_RDWR);
return REALTEK_MST_MOCK_FD;
}
static int realtek_mst_ioctl(void *state, int fd, unsigned long request, va_list args)
{
assert_int_equal(fd, REALTEK_MST_MOCK_FD);
assert_int_equal(request, I2C_SLAVE);
/* Only access to I2C address 0x4a is expected */
unsigned long addr = va_arg(args, unsigned long);
assert_int_equal(addr, 0x4a);
return 0;
}
static int realtek_mst_read(void *state, int fd, void *buf, size_t sz)
{
assert_int_equal(fd, REALTEK_MST_MOCK_FD);
assert_int_equal(sz, 1);
return sz;
}
static int realtek_mst_write(void *state, int fd, const void *buf, size_t sz)
{
assert_int_equal(fd, REALTEK_MST_MOCK_FD);
const LargestIntegralType accepted_sizes[] = {1, 2};
assert_in_set(sz, accepted_sizes, ARRAY_SIZE(accepted_sizes));
return sz;
}
void realtek_mst_init_and_shutdown_test_success(void **state)
{
#if CONFIG_REALTEK_MST_I2C_SPI == 1
const struct io_mock realtek_mst_io = {
.open = realtek_mst_open,
.ioctl = realtek_mst_ioctl,
.read = realtek_mst_read,
.write = realtek_mst_write,
};
io_mock_register(&realtek_mst_io);
run_lifecycle(state, &programmer_realtek_mst_i2c_spi, "bus=254,enter-isp=0");
io_mock_register(NULL);
#else
skip();
#endif /* CONFIG_REALTEK_I2C_SPI */
}
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