Projet_SETI_RISC-V/riscv-gnu-toolchain/qemu/tests/qtest/adm1272-test.c

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2023-03-06 14:48:14 +01:00
/*
* QTests for the ADM1272 hotswap controller
*
* Copyright 2021 Google LLC
*
* SPDX-License-Identifier: GPL-2.0-or-later
*/
#include "qemu/osdep.h"
#include <math.h>
#include "hw/i2c/pmbus_device.h"
#include "libqtest-single.h"
#include "libqos/qgraph.h"
#include "libqos/i2c.h"
#include "qapi/qmp/qdict.h"
#include "qapi/qmp/qnum.h"
#include "qemu/bitops.h"
#define TEST_ID "adm1272-test"
#define TEST_ADDR (0x10)
#define ADM1272_RESTART_TIME 0xCC
#define ADM1272_MFR_PEAK_IOUT 0xD0
#define ADM1272_MFR_PEAK_VIN 0xD1
#define ADM1272_MFR_PEAK_VOUT 0xD2
#define ADM1272_MFR_PMON_CONTROL 0xD3
#define ADM1272_MFR_PMON_CONFIG 0xD4
#define ADM1272_MFR_ALERT1_CONFIG 0xD5
#define ADM1272_MFR_ALERT2_CONFIG 0xD6
#define ADM1272_MFR_PEAK_TEMPERATURE 0xD7
#define ADM1272_MFR_DEVICE_CONFIG 0xD8
#define ADM1272_MFR_POWER_CYCLE 0xD9
#define ADM1272_MFR_PEAK_PIN 0xDA
#define ADM1272_MFR_READ_PIN_EXT 0xDB
#define ADM1272_MFR_READ_EIN_EXT 0xDC
#define ADM1272_HYSTERESIS_LOW 0xF2
#define ADM1272_HYSTERESIS_HIGH 0xF3
#define ADM1272_STATUS_HYSTERESIS 0xF4
#define ADM1272_STATUS_GPIO 0xF5
#define ADM1272_STRT_UP_IOUT_LIM 0xF6
/* Defaults */
#define ADM1272_OPERATION_DEFAULT 0x80
#define ADM1272_CAPABILITY_DEFAULT 0xB0
#define ADM1272_CAPABILITY_NO_PEC 0x30
#define ADM1272_DIRECT_MODE 0x40
#define ADM1272_HIGH_LIMIT_DEFAULT 0x0FFF
#define ADM1272_PIN_OP_DEFAULT 0x7FFF
#define ADM1272_PMBUS_REVISION_DEFAULT 0x22
#define ADM1272_MFR_ID_DEFAULT "ADI"
#define ADM1272_MODEL_DEFAULT "ADM1272-A1"
#define ADM1272_MFR_DEFAULT_REVISION "25"
#define ADM1272_DEFAULT_DATE "160301"
#define ADM1272_RESTART_TIME_DEFAULT 0x64
#define ADM1272_PMON_CONTROL_DEFAULT 0x1
#define ADM1272_PMON_CONFIG_DEFAULT 0x3F35
#define ADM1272_DEVICE_CONFIG_DEFAULT 0x8
#define ADM1272_HYSTERESIS_HIGH_DEFAULT 0xFFFF
#define ADM1272_STRT_UP_IOUT_LIM_DEFAULT 0x000F
#define ADM1272_VOLT_DEFAULT 12000
#define ADM1272_IOUT_DEFAULT 25000
#define ADM1272_PWR_DEFAULT 300 /* 12V 25A */
#define ADM1272_SHUNT 300 /* micro-ohms */
#define ADM1272_VOLTAGE_COEFF_DEFAULT 1
#define ADM1272_CURRENT_COEFF_DEFAULT 3
#define ADM1272_PWR_COEFF_DEFAULT 7
#define ADM1272_IOUT_OFFSET 0x5000
#define ADM1272_IOUT_OFFSET 0x5000
static const PMBusCoefficients adm1272_coefficients[] = {
[0] = { 6770, 0, -2 }, /* voltage, vrange 60V */
[1] = { 4062, 0, -2 }, /* voltage, vrange 100V */
[2] = { 1326, 20480, -1 }, /* current, vsense range 15mV */
[3] = { 663, 20480, -1 }, /* current, vsense range 30mV */
[4] = { 3512, 0, -2 }, /* power, vrange 60V, irange 15mV */
[5] = { 21071, 0, -3 }, /* power, vrange 100V, irange 15mV */
[6] = { 17561, 0, -3 }, /* power, vrange 60V, irange 30mV */
[7] = { 10535, 0, -3 }, /* power, vrange 100V, irange 30mV */
[8] = { 42, 31871, -1 }, /* temperature */
};
uint16_t pmbus_data2direct_mode(PMBusCoefficients c, uint32_t value)
{
/* R is usually negative to fit large readings into 16 bits */
uint16_t y = (c.m * value + c.b) * pow(10, c.R);
return y;
}
uint32_t pmbus_direct_mode2data(PMBusCoefficients c, uint16_t value)
{
/* X = (Y * 10^-R - b) / m */
uint32_t x = (value / pow(10, c.R) - c.b) / c.m;
return x;
}
static uint16_t adm1272_millivolts_to_direct(uint32_t value)
{
PMBusCoefficients c = adm1272_coefficients[ADM1272_VOLTAGE_COEFF_DEFAULT];
c.b = c.b * 1000;
c.R = c.R - 3;
return pmbus_data2direct_mode(c, value);
}
static uint32_t adm1272_direct_to_millivolts(uint16_t value)
{
PMBusCoefficients c = adm1272_coefficients[ADM1272_VOLTAGE_COEFF_DEFAULT];
c.b = c.b * 1000;
c.R = c.R - 3;
return pmbus_direct_mode2data(c, value);
}
static uint16_t adm1272_milliamps_to_direct(uint32_t value)
{
PMBusCoefficients c = adm1272_coefficients[ADM1272_CURRENT_COEFF_DEFAULT];
/* Y = (m * r_sense * x - b) * 10^R */
c.m = c.m * ADM1272_SHUNT / 1000; /* micro-ohms */
c.b = c.b * 1000;
c.R = c.R - 3;
return pmbus_data2direct_mode(c, value);
}
static uint32_t adm1272_direct_to_milliamps(uint16_t value)
{
PMBusCoefficients c = adm1272_coefficients[ADM1272_CURRENT_COEFF_DEFAULT];
c.m = c.m * ADM1272_SHUNT / 1000;
c.b = c.b * 1000;
c.R = c.R - 3;
return pmbus_direct_mode2data(c, value);
}
static uint16_t adm1272_watts_to_direct(uint32_t value)
{
PMBusCoefficients c = adm1272_coefficients[ADM1272_PWR_COEFF_DEFAULT];
c.m = c.m * ADM1272_SHUNT / 1000;
return pmbus_data2direct_mode(c, value);
}
static uint32_t adm1272_direct_to_watts(uint16_t value)
{
PMBusCoefficients c = adm1272_coefficients[ADM1272_PWR_COEFF_DEFAULT];
c.m = c.m * ADM1272_SHUNT / 1000;
return pmbus_direct_mode2data(c, value);
}
static uint16_t qmp_adm1272_get(const char *id, const char *property)
{
QDict *response;
uint64_t ret;
response = qmp("{ 'execute': 'qom-get', 'arguments': { 'path': %s, "
"'property': %s } }", id, property);
g_assert(qdict_haskey(response, "return"));
ret = qnum_get_uint(qobject_to(QNum, qdict_get(response, "return")));
qobject_unref(response);
return ret;
}
static void qmp_adm1272_set(const char *id,
const char *property,
uint16_t value)
{
QDict *response;
response = qmp("{ 'execute': 'qom-set', 'arguments': { 'path': %s, "
"'property': %s, 'value': %u } }", id, property, value);
g_assert(qdict_haskey(response, "return"));
qobject_unref(response);
}
/* PMBus commands are little endian vs i2c_set16 in i2c.h which is big endian */
static uint16_t adm1272_i2c_get16(QI2CDevice *i2cdev, uint8_t reg)
{
uint8_t resp[2];
i2c_read_block(i2cdev, reg, resp, sizeof(resp));
return (resp[1] << 8) | resp[0];
}
/* PMBus commands are little endian vs i2c_set16 in i2c.h which is big endian */
static void adm1272_i2c_set16(QI2CDevice *i2cdev, uint8_t reg, uint16_t value)
{
uint8_t data[2];
data[0] = value & 255;
data[1] = value >> 8;
i2c_write_block(i2cdev, reg, data, sizeof(data));
}
static void test_defaults(void *obj, void *data, QGuestAllocator *alloc)
{
uint16_t value, i2c_value;
int16_t err;
QI2CDevice *i2cdev = (QI2CDevice *)obj;
value = qmp_adm1272_get(TEST_ID, "vout");
err = ADM1272_VOLT_DEFAULT - value;
g_assert_cmpuint(abs(err), <, ADM1272_VOLT_DEFAULT / 20);
i2c_value = i2c_get8(i2cdev, PMBUS_OPERATION);
g_assert_cmphex(i2c_value, ==, ADM1272_OPERATION_DEFAULT);
i2c_value = i2c_get8(i2cdev, PMBUS_VOUT_MODE);
g_assert_cmphex(i2c_value, ==, ADM1272_DIRECT_MODE);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_VOUT_OV_WARN_LIMIT);
g_assert_cmphex(i2c_value, ==, ADM1272_HIGH_LIMIT_DEFAULT);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_VOUT_UV_WARN_LIMIT);
g_assert_cmphex(i2c_value, ==, 0);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_IOUT_OC_WARN_LIMIT);
g_assert_cmphex(i2c_value, ==, ADM1272_HIGH_LIMIT_DEFAULT);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_OT_FAULT_LIMIT);
g_assert_cmphex(i2c_value, ==, ADM1272_HIGH_LIMIT_DEFAULT);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_OT_WARN_LIMIT);
g_assert_cmphex(i2c_value, ==, ADM1272_HIGH_LIMIT_DEFAULT);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_VIN_OV_WARN_LIMIT);
g_assert_cmphex(i2c_value, ==, ADM1272_HIGH_LIMIT_DEFAULT);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_VIN_UV_WARN_LIMIT);
g_assert_cmphex(i2c_value, ==, 0);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_PIN_OP_WARN_LIMIT);
g_assert_cmphex(i2c_value, ==, ADM1272_PIN_OP_DEFAULT);
i2c_value = i2c_get8(i2cdev, PMBUS_REVISION);
g_assert_cmphex(i2c_value, ==, ADM1272_PMBUS_REVISION_DEFAULT);
i2c_value = i2c_get8(i2cdev, ADM1272_MFR_PMON_CONTROL);
g_assert_cmphex(i2c_value, ==, ADM1272_PMON_CONTROL_DEFAULT);
i2c_value = adm1272_i2c_get16(i2cdev, ADM1272_MFR_PMON_CONFIG);
g_assert_cmphex(i2c_value, ==, ADM1272_PMON_CONFIG_DEFAULT);
i2c_value = adm1272_i2c_get16(i2cdev, ADM1272_MFR_DEVICE_CONFIG);
g_assert_cmphex(i2c_value, ==, ADM1272_DEVICE_CONFIG_DEFAULT);
i2c_value = adm1272_i2c_get16(i2cdev, ADM1272_HYSTERESIS_HIGH);
g_assert_cmphex(i2c_value, ==, ADM1272_HYSTERESIS_HIGH_DEFAULT);
i2c_value = adm1272_i2c_get16(i2cdev, ADM1272_STRT_UP_IOUT_LIM);
g_assert_cmphex(i2c_value, ==, ADM1272_STRT_UP_IOUT_LIM_DEFAULT);
}
/* test qmp access */
static void test_tx_rx(void *obj, void *data, QGuestAllocator *alloc)
{
uint16_t i2c_value, value, i2c_voltage, i2c_pwr, lossy_value;
QI2CDevice *i2cdev = (QI2CDevice *)obj;
/* converting to direct mode is lossy - we generate the same loss here */
lossy_value =
adm1272_direct_to_millivolts(adm1272_millivolts_to_direct(1000));
qmp_adm1272_set(TEST_ID, "vin", 1000);
value = qmp_adm1272_get(TEST_ID, "vin");
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_READ_VIN);
i2c_voltage = adm1272_direct_to_millivolts(i2c_value);
g_assert_cmpuint(value, ==, i2c_voltage);
g_assert_cmpuint(i2c_voltage, ==, lossy_value);
lossy_value =
adm1272_direct_to_millivolts(adm1272_millivolts_to_direct(1500));
qmp_adm1272_set(TEST_ID, "vout", 1500);
value = qmp_adm1272_get(TEST_ID, "vout");
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_READ_VOUT);
i2c_voltage = adm1272_direct_to_millivolts(i2c_value);
g_assert_cmpuint(value, ==, i2c_voltage);
g_assert_cmpuint(i2c_voltage, ==, lossy_value);
lossy_value =
adm1272_direct_to_milliamps(adm1272_milliamps_to_direct(1600));
qmp_adm1272_set(TEST_ID, "iout", 1600);
value = qmp_adm1272_get(TEST_ID, "iout");
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_READ_IOUT);
i2c_value = adm1272_direct_to_milliamps(i2c_value);
g_assert_cmphex(value, ==, i2c_value);
g_assert_cmphex(i2c_value, ==, lossy_value);
lossy_value =
adm1272_direct_to_watts(adm1272_watts_to_direct(320));
qmp_adm1272_set(TEST_ID, "pin", 320);
value = qmp_adm1272_get(TEST_ID, "pin");
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_READ_PIN);
i2c_pwr = adm1272_direct_to_watts(i2c_value);
g_assert_cmphex(value, ==, i2c_pwr);
g_assert_cmphex(i2c_pwr, ==, lossy_value);
}
/* test r/w registers */
static void test_rw_regs(void *obj, void *data, QGuestAllocator *alloc)
{
uint16_t i2c_value;
QI2CDevice *i2cdev = (QI2CDevice *)obj;
adm1272_i2c_set16(i2cdev, PMBUS_VOUT_OV_WARN_LIMIT, 0xABCD);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_VOUT_OV_WARN_LIMIT);
g_assert_cmphex(i2c_value, ==, 0xABCD);
adm1272_i2c_set16(i2cdev, PMBUS_VOUT_UV_WARN_LIMIT, 0xCDEF);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_VOUT_UV_WARN_LIMIT);
g_assert_cmphex(i2c_value, ==, 0xCDEF);
adm1272_i2c_set16(i2cdev, PMBUS_IOUT_OC_WARN_LIMIT, 0x1234);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_IOUT_OC_WARN_LIMIT);
g_assert_cmphex(i2c_value, ==, 0x1234);
adm1272_i2c_set16(i2cdev, PMBUS_OT_FAULT_LIMIT, 0x5678);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_OT_FAULT_LIMIT);
g_assert_cmphex(i2c_value, ==, 0x5678);
adm1272_i2c_set16(i2cdev, PMBUS_OT_WARN_LIMIT, 0xABDC);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_OT_WARN_LIMIT);
g_assert_cmphex(i2c_value, ==, 0xABDC);
adm1272_i2c_set16(i2cdev, PMBUS_VIN_OV_WARN_LIMIT, 0xCDEF);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_VIN_OV_WARN_LIMIT);
g_assert_cmphex(i2c_value, ==, 0xCDEF);
adm1272_i2c_set16(i2cdev, PMBUS_VIN_UV_WARN_LIMIT, 0x2345);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_VIN_UV_WARN_LIMIT);
g_assert_cmphex(i2c_value, ==, 0x2345);
i2c_set8(i2cdev, ADM1272_RESTART_TIME, 0xF8);
i2c_value = i2c_get8(i2cdev, ADM1272_RESTART_TIME);
g_assert_cmphex(i2c_value, ==, 0xF8);
i2c_set8(i2cdev, ADM1272_MFR_PMON_CONTROL, 0);
i2c_value = i2c_get8(i2cdev, ADM1272_MFR_PMON_CONTROL);
g_assert_cmpuint(i2c_value, ==, 0);
adm1272_i2c_set16(i2cdev, ADM1272_MFR_PMON_CONFIG, 0xDEF0);
i2c_value = adm1272_i2c_get16(i2cdev, ADM1272_MFR_PMON_CONFIG);
g_assert_cmphex(i2c_value, ==, 0xDEF0);
adm1272_i2c_set16(i2cdev, ADM1272_MFR_ALERT1_CONFIG, 0x0123);
i2c_value = adm1272_i2c_get16(i2cdev, ADM1272_MFR_ALERT1_CONFIG);
g_assert_cmphex(i2c_value, ==, 0x0123);
adm1272_i2c_set16(i2cdev, ADM1272_MFR_ALERT2_CONFIG, 0x9876);
i2c_value = adm1272_i2c_get16(i2cdev, ADM1272_MFR_ALERT2_CONFIG);
g_assert_cmphex(i2c_value, ==, 0x9876);
adm1272_i2c_set16(i2cdev, ADM1272_MFR_DEVICE_CONFIG, 0x3456);
i2c_value = adm1272_i2c_get16(i2cdev, ADM1272_MFR_DEVICE_CONFIG);
g_assert_cmphex(i2c_value, ==, 0x3456);
adm1272_i2c_set16(i2cdev, ADM1272_HYSTERESIS_LOW, 0xCABA);
i2c_value = adm1272_i2c_get16(i2cdev, ADM1272_HYSTERESIS_LOW);
g_assert_cmphex(i2c_value, ==, 0xCABA);
adm1272_i2c_set16(i2cdev, ADM1272_HYSTERESIS_HIGH, 0x6789);
i2c_value = adm1272_i2c_get16(i2cdev, ADM1272_HYSTERESIS_HIGH);
g_assert_cmphex(i2c_value, ==, 0x6789);
adm1272_i2c_set16(i2cdev, ADM1272_STRT_UP_IOUT_LIM, 0x9876);
i2c_value = adm1272_i2c_get16(i2cdev, ADM1272_STRT_UP_IOUT_LIM);
g_assert_cmphex(i2c_value, ==, 0x9876);
adm1272_i2c_set16(i2cdev, PMBUS_OPERATION, 0xA);
i2c_value = i2c_get8(i2cdev, PMBUS_OPERATION);
g_assert_cmphex(i2c_value, ==, 0xA);
}
/* test read-only registers */
static void test_ro_regs(void *obj, void *data, QGuestAllocator *alloc)
{
uint16_t i2c_init_value, i2c_value;
QI2CDevice *i2cdev = (QI2CDevice *)obj;
i2c_init_value = adm1272_i2c_get16(i2cdev, PMBUS_READ_VIN);
adm1272_i2c_set16(i2cdev, PMBUS_READ_VIN, 0xBEEF);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_READ_VIN);
g_assert_cmphex(i2c_init_value, ==, i2c_value);
i2c_init_value = adm1272_i2c_get16(i2cdev, PMBUS_READ_VOUT);
adm1272_i2c_set16(i2cdev, PMBUS_READ_VOUT, 0x1234);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_READ_VOUT);
g_assert_cmphex(i2c_init_value, ==, i2c_value);
i2c_init_value = adm1272_i2c_get16(i2cdev, PMBUS_READ_IOUT);
adm1272_i2c_set16(i2cdev, PMBUS_READ_IOUT, 0x6547);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_READ_IOUT);
g_assert_cmphex(i2c_init_value, ==, i2c_value);
i2c_init_value = adm1272_i2c_get16(i2cdev, PMBUS_READ_TEMPERATURE_1);
adm1272_i2c_set16(i2cdev, PMBUS_READ_TEMPERATURE_1, 0x1597);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_READ_TEMPERATURE_1);
g_assert_cmphex(i2c_init_value, ==, i2c_value);
i2c_init_value = adm1272_i2c_get16(i2cdev, PMBUS_READ_PIN);
adm1272_i2c_set16(i2cdev, PMBUS_READ_PIN, 0xDEAD);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_READ_PIN);
g_assert_cmphex(i2c_init_value, ==, i2c_value);
}
/* test voltage fault handling */
static void test_voltage_faults(void *obj, void *data, QGuestAllocator *alloc)
{
uint16_t i2c_value;
uint8_t i2c_byte;
QI2CDevice *i2cdev = (QI2CDevice *)obj;
adm1272_i2c_set16(i2cdev, PMBUS_VOUT_OV_WARN_LIMIT,
adm1272_millivolts_to_direct(5000));
qmp_adm1272_set(TEST_ID, "vout", 5100);
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_STATUS_WORD);
i2c_byte = i2c_get8(i2cdev, PMBUS_STATUS_VOUT);
g_assert_true((i2c_value & PB_STATUS_VOUT) != 0);
g_assert_true((i2c_byte & PB_STATUS_VOUT_OV_WARN) != 0);
qmp_adm1272_set(TEST_ID, "vout", 4500);
i2c_set8(i2cdev, PMBUS_CLEAR_FAULTS, 0);
i2c_byte = i2c_get8(i2cdev, PMBUS_STATUS_VOUT);
g_assert_true((i2c_byte & PB_STATUS_VOUT_OV_WARN) == 0);
adm1272_i2c_set16(i2cdev, PMBUS_VOUT_UV_WARN_LIMIT,
adm1272_millivolts_to_direct(4600));
i2c_value = adm1272_i2c_get16(i2cdev, PMBUS_STATUS_WORD);
i2c_byte = i2c_get8(i2cdev, PMBUS_STATUS_VOUT);
g_assert_true((i2c_value & PB_STATUS_VOUT) != 0);
g_assert_true((i2c_byte & PB_STATUS_VOUT_UV_WARN) != 0);
}
static void adm1272_register_nodes(void)
{
QOSGraphEdgeOptions opts = {
.extra_device_opts = "id=" TEST_ID ",address=0x10"
};
add_qi2c_address(&opts, &(QI2CAddress) { TEST_ADDR });
qos_node_create_driver("adm1272", i2c_device_create);
qos_node_consumes("adm1272", "i2c-bus", &opts);
qos_add_test("test_defaults", "adm1272", test_defaults, NULL);
qos_add_test("test_tx_rx", "adm1272", test_tx_rx, NULL);
qos_add_test("test_rw_regs", "adm1272", test_rw_regs, NULL);
qos_add_test("test_ro_regs", "adm1272", test_ro_regs, NULL);
qos_add_test("test_ov_faults", "adm1272", test_voltage_faults, NULL);
}
libqos_init(adm1272_register_nodes);