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chromium / chromiumos / platform / update_engine / factory-2848.B / . / gpio_mock_udev_interface.cc
blob: 22c7b7fc9e57118deea33be130b95ac621892031 [file] [log] [blame]
// Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "update_engine/gpio_mock_udev_interface.h"
#include <string>
#include <base/stringprintf.h>
#include <gtest/gtest.h>
#include "gpio_handler_unittest.h"
namespace chromeos_update_engine {
const char* StandardGpioMockUdevInterface::kUdevGpioSubsystem = "gpio";
const char* StandardGpioMockUdevInterface::kUdevGpioChipSysname = "gpiochip*";
const StandardGpioMockUdevInterface::GpioDescriptor
StandardGpioMockUdevInterface::gpio_descriptors_[kMockGpioIdMax] = {
{ "ID_GPIO_DUTFLAGA", MOCK_DUTFLAGA_GPIO_ID },
{ "ID_GPIO_DUTFLAGB", MOCK_DUTFLAGB_GPIO_ID },
};
const char* StandardGpioMockUdevInterface::enum_gpio_chip_dev_list_[] = {
"gpiochip" MOCK_GPIO_CHIP_ID,
NULL
};
const char* StandardGpioMockUdevInterface::enum_dutflaga_gpio_dev_list_[] = {
"gpio" MOCK_DUTFLAGA_GPIO_ID,
NULL
};
const char* StandardGpioMockUdevInterface::enum_dutflagb_gpio_dev_list_[] = {
"gpio" MOCK_DUTFLAGB_GPIO_ID,
NULL
};
StandardGpioMockUdevInterface::StandardGpioMockUdevInterface()
: udev_id_(0), udev_enum_id_(0), num_discovered_(0) {
std::fill_n(used_udev_ids_, MAX_UDEV_OBJECTS, false);
std::fill_n(used_udev_enum_ids_, MAX_UDEV_ENUM_OBJECTS, false);
gpio_chip_dev_ = (MockDevice) {
MOCK_SYSFS_PREFIX "/gpiochip" MOCK_GPIO_CHIP_ID,
gpio_descriptors_, kMockGpioIdMax, false, false
};
dutflaga_gpio_dev_ = (MockDevice) {
MOCK_SYSFS_PREFIX "/gpio" MOCK_DUTFLAGA_GPIO_ID, NULL, 0, true, false
};
dutflagb_gpio_dev_ = (MockDevice) {
MOCK_SYSFS_PREFIX "/gpio" MOCK_DUTFLAGB_GPIO_ID, NULL, 0, true, false
};
}
// Device lists are simply null-terminated arrays of strings.
const char* StandardGpioMockUdevInterface::ListEntryGetName(
struct udev_list_entry* list_entry) {
const char** mock_list_entry = reinterpret_cast<const char**>(list_entry);
EXPECT_TRUE(mock_list_entry && *mock_list_entry);
if (!mock_list_entry)
return NULL;
// The mock list entry is the name string itself...
return *mock_list_entry;
}
struct udev_list_entry* StandardGpioMockUdevInterface::ListEntryGetNext(
struct udev_list_entry* list_entry) {
char** mock_list_entry = reinterpret_cast<char**>(list_entry);
EXPECT_TRUE(mock_list_entry && *mock_list_entry);
if (!mock_list_entry)
return NULL;
// Advance to the next element in the array.
mock_list_entry++;
return (*mock_list_entry ?
reinterpret_cast<struct udev_list_entry*>(mock_list_entry) : NULL);
}
struct udev_device* StandardGpioMockUdevInterface::DeviceNewFromSyspath(
struct udev* udev, const char* syspath) {
const size_t udev_id = UdevToId(udev);
if (udev_id >= MAX_UDEV_OBJECTS)
return NULL;
MockDevice* mock_dev;
// Generate the desired mock device based on the provided syspath.
if (!strcmp(syspath, enum_gpio_chip_dev_list_[0])) {
mock_dev = const_cast<MockDevice*>(&gpio_chip_dev_);
} else if (!strcmp(syspath, enum_dutflaga_gpio_dev_list_[0])) {
mock_dev = const_cast<MockDevice*>(&dutflaga_gpio_dev_);
} else if (!strcmp(syspath, enum_dutflagb_gpio_dev_list_[0])) {
mock_dev = const_cast<MockDevice*>(&dutflagb_gpio_dev_);
} else {
ADD_FAILURE();
return NULL;
}
EXPECT_FALSE(mock_dev->is_used);
if (mock_dev->is_used)
return NULL;
mock_dev->is_used = true;
return reinterpret_cast<struct udev_device*>(mock_dev);
}
const char* StandardGpioMockUdevInterface::DeviceGetPropertyValue(
struct udev_device* udev_device, const char* key) {
const MockDevice* mock_dev = UdevDeviceToMock(udev_device);
EXPECT_TRUE(mock_dev->properties);
if (!mock_dev->properties)
return NULL;
for (size_t i = 0; i < mock_dev->num_properties; i++)
if (!strcmp(key, mock_dev->properties[i].property))
return mock_dev->properties[i].value;
return NULL;
}
const char* StandardGpioMockUdevInterface::DeviceGetSyspath(
struct udev_device* udev_device) {
const MockDevice* mock_dev = UdevDeviceToMock(udev_device);
if (mock_dev->is_gpio)
num_discovered_++;
return mock_dev->syspath;
}
void StandardGpioMockUdevInterface::DeviceUnref(
struct udev_device* udev_device) {
MockDevice* mock_dev = UdevDeviceToMock(udev_device);
mock_dev->is_used = false;
}
struct udev_enumerate* StandardGpioMockUdevInterface::EnumerateNew(
struct udev* udev) {
const size_t udev_id = UdevToId(udev);
if (udev_id >= MAX_UDEV_OBJECTS)
return NULL;
// A new enumeration "pointer" is cast for an integer identifier.
EXPECT_LT(udev_enum_id_, MAX_UDEV_ENUM_OBJECTS);
if (udev_enum_id_ >= MAX_UDEV_ENUM_OBJECTS)
return NULL;
used_udev_enum_ids_[udev_enum_id_] = true;
return reinterpret_cast<struct udev_enumerate*>(++udev_enum_id_);
}
int StandardGpioMockUdevInterface::EnumerateAddMatchSubsystem(
struct udev_enumerate* udev_enum, const char* subsystem) {
const size_t udev_enum_id = UdevEnumToId(udev_enum);
if (udev_enum_id >= MAX_UDEV_ENUM_OBJECTS)
return -1;
// Ensure client is correctly requesting the GPIO subsystem.
EXPECT_STREQ(subsystem, kUdevGpioSubsystem);
if (strcmp(subsystem, kUdevGpioSubsystem))
return -1;
return 0;
}
int StandardGpioMockUdevInterface::EnumerateAddMatchSysname(
struct udev_enumerate* udev_enum, const char* sysname) {
const size_t udev_enum_id = UdevEnumToId(udev_enum);
if (udev_enum_id >= MAX_UDEV_ENUM_OBJECTS)
return -1;
// Ensure client is requesting the correct sysnamem, depending on the correct
// phase in the detection process.
switch (udev_enum_id) {
case 0: // looking for a GPIO chip
EXPECT_STREQ(sysname, kUdevGpioChipSysname);
if (strcmp(sysname, kUdevGpioChipSysname))
return -1;
break;
case 1: // looking for dut_flaga/b
case 2: {
const int gpio_id = udev_enum_id - 1;
const std::string gpio_pattern =
StringPrintf("*%s", gpio_descriptors_[gpio_id].value);
EXPECT_STREQ(sysname, gpio_pattern.c_str());
if (strcmp(sysname, gpio_pattern.c_str()))
return -1;
break;
}
default:
ADD_FAILURE(); // can't get here
return -1;
}
return 0;
}
int StandardGpioMockUdevInterface::EnumerateScanDevices(
struct udev_enumerate* udev_enum) {
const size_t udev_enum_id = UdevEnumToId(udev_enum);
if (udev_enum_id >= MAX_UDEV_ENUM_OBJECTS)
return -1;
return 0; // nothing to do, really
}
struct udev_list_entry* StandardGpioMockUdevInterface::EnumerateGetListEntry(
struct udev_enumerate* udev_enum) {
const size_t udev_enum_id = UdevEnumToId(udev_enum);
if (udev_enum_id >= MAX_UDEV_ENUM_OBJECTS)
return NULL;
// Return a list of devices corresponding to the provided enumeration.
switch (udev_enum_id) {
case 0:
return reinterpret_cast<struct udev_list_entry*>(
enum_gpio_chip_dev_list_);
case 1:
return reinterpret_cast<struct udev_list_entry*>(
enum_dutflaga_gpio_dev_list_);
case 2:
return reinterpret_cast<struct udev_list_entry*>(
enum_dutflagb_gpio_dev_list_);
}
ADD_FAILURE(); // can't get here
return NULL;
}
void StandardGpioMockUdevInterface::EnumerateUnref(
struct udev_enumerate* udev_enum) {
const size_t udev_enum_id = UdevEnumToId(udev_enum);
if (udev_enum_id >= MAX_UDEV_ENUM_OBJECTS)
return;
used_udev_enum_ids_[udev_enum_id] = false; // make sure it's freed just once
}
struct udev* StandardGpioMockUdevInterface::New() {
// The returned "pointer" is cast from an integer identifier.
EXPECT_LT(udev_id_, MAX_UDEV_OBJECTS);
if (udev_id_ >= MAX_UDEV_OBJECTS)
return NULL;
used_udev_ids_[udev_id_] = true;
return reinterpret_cast<struct udev*>(++udev_id_);
}
void StandardGpioMockUdevInterface::Unref(struct udev* udev) {
// Convert to object identifier, ensuring the object has been "allocated".
const size_t udev_id = UdevToId(udev);
if (udev_id >= MAX_UDEV_OBJECTS)
return;
used_udev_ids_[udev_id] = false; // make sure it's freed just once
}
void StandardGpioMockUdevInterface::ExpectAllResourcesDeallocated() const {
// Make sure that all handles were released.
for (size_t i = 0; i < MAX_UDEV_OBJECTS; i++)
EXPECT_FALSE(used_udev_ids_[i]);
for (size_t i = 0; i < MAX_UDEV_ENUM_OBJECTS; i++)
EXPECT_FALSE(used_udev_enum_ids_[i]);
EXPECT_FALSE(gpio_chip_dev_.is_used);
EXPECT_FALSE(dutflaga_gpio_dev_.is_used);
EXPECT_FALSE(dutflagb_gpio_dev_.is_used);
}
void StandardGpioMockUdevInterface::ExpectDiscoverySuccess() const {
EXPECT_EQ(num_discovered_, kMockGpioIdMax);
}
void StandardGpioMockUdevInterface::ExpectDiscoveryFail() const {
EXPECT_LT(num_discovered_, kMockGpioIdMax);
}
StandardGpioMockUdevInterface::MockDevice*
StandardGpioMockUdevInterface::UdevDeviceToMock(
struct udev_device* udev_dev) const {
EXPECT_TRUE(udev_dev);
if (!udev_dev)
return NULL;
MockDevice* mock_dev = reinterpret_cast<MockDevice*>(udev_dev);
EXPECT_TRUE(mock_dev->is_used);
if (!mock_dev->is_used)
return NULL;
return mock_dev;
}
size_t StandardGpioMockUdevInterface::UdevEnumToId(
struct udev_enumerate* udev_enum) const {
EXPECT_TRUE(udev_enum);
size_t udev_enum_id = reinterpret_cast<size_t>(udev_enum) - 1;
EXPECT_LT(udev_enum_id, MAX_UDEV_ENUM_OBJECTS);
EXPECT_TRUE(used_udev_enum_ids_[udev_enum_id]);
if (!(udev_enum && udev_enum_id < MAX_UDEV_ENUM_OBJECTS &&
used_udev_enum_ids_[udev_enum_id]))
return MAX_UDEV_ENUM_OBJECTS;
return udev_enum_id;
}
size_t StandardGpioMockUdevInterface::UdevToId(struct udev* udev) const {
EXPECT_TRUE(udev);
size_t udev_id = reinterpret_cast<size_t>(udev) - 1;
EXPECT_LT(udev_id, MAX_UDEV_OBJECTS);
EXPECT_TRUE(used_udev_ids_[udev_id]);
if (!(udev && udev_id < MAX_UDEV_OBJECTS && used_udev_ids_[udev_id]))
return MAX_UDEV_OBJECTS;
return udev_id;
}
#define MOCK_GPIO_CHIP1_ID "200"
#define MOCK_GPIO_CHIP2_ID "201"
const char* MultiChipGpioMockUdevInterface::enum_gpio_chip_dev_list_[] = {
"gpiochip" MOCK_GPIO_CHIP1_ID,
"gpiochip" MOCK_GPIO_CHIP2_ID,
NULL
};
MultiChipGpioMockUdevInterface::MultiChipGpioMockUdevInterface() {
gpio_chip1_dev_ = (MockDevice) {
MOCK_SYSFS_PREFIX "/gpiochip" MOCK_GPIO_CHIP1_ID,
gpio_descriptors_, kMockGpioIdMax, false, false
};
gpio_chip2_dev_ = (MockDevice) {
MOCK_SYSFS_PREFIX "/gpiochip" MOCK_GPIO_CHIP2_ID,
gpio_descriptors_, kMockGpioIdMax, false, false
};
}
struct udev_device* MultiChipGpioMockUdevInterface::DeviceNewFromSyspath(
struct udev* udev, const char* syspath) {
const size_t udev_id = UdevToId(udev);
if (udev_id >= MAX_UDEV_OBJECTS)
return NULL;
MockDevice* mock_dev;
// Generate the desired mock device based on the provided syspath.
if (!strcmp(syspath, enum_gpio_chip_dev_list_[0])) {
mock_dev = const_cast<MockDevice*>(&gpio_chip1_dev_);
} else if (!strcmp(syspath, enum_gpio_chip_dev_list_[1])) {
mock_dev = const_cast<MockDevice*>(&gpio_chip2_dev_);
} else if (!strcmp(syspath, enum_dutflaga_gpio_dev_list_[0])) {
mock_dev = const_cast<MockDevice*>(&dutflaga_gpio_dev_);
} else if (!strcmp(syspath, enum_dutflagb_gpio_dev_list_[0])) {
mock_dev = const_cast<MockDevice*>(&dutflagb_gpio_dev_);
} else {
ADD_FAILURE();
return NULL;
}
EXPECT_FALSE(mock_dev->is_used);
if (mock_dev->is_used)
return NULL;
mock_dev->is_used = true;
return reinterpret_cast<struct udev_device*>(mock_dev);
}
struct udev_list_entry* MultiChipGpioMockUdevInterface::EnumerateGetListEntry(
struct udev_enumerate* udev_enum) {
const size_t udev_enum_id = UdevEnumToId(udev_enum);
// Return a list of devices corresponding to the provided enumeration.
switch (udev_enum_id) {
case 0:
return reinterpret_cast<struct udev_list_entry*>(
enum_gpio_chip_dev_list_);
case 1:
return reinterpret_cast<struct udev_list_entry*>(
enum_dutflaga_gpio_dev_list_);
case 2:
return reinterpret_cast<struct udev_list_entry*>(
enum_dutflagb_gpio_dev_list_);
}
ADD_FAILURE(); // can't get here
return NULL;
}
} // namespace chromeos_update_engine