blob: 1e87824fad4e081289a63ef1a44a45852c5bfa67 [file] [log] [blame]
#include "inband_code_update.hpp"
#include "libpldmresponder/pdr.hpp"
#include "oem_ibm_handler.hpp"
#include "xyz/openbmc_project/Common/error.hpp"
#include <arpa/inet.h>
#include <libpldm/entity.h>
#include <phosphor-logging/lg2.hpp>
#include <sdbusplus/server.hpp>
#include <xyz/openbmc_project/Dump/NewDump/server.hpp>
#include <exception>
#include <fstream>
PHOSPHOR_LOG2_USING;
namespace pldm
{
using namespace utils;
namespace responder
{
using namespace oem_ibm_platform;
/** @brief Directory where the lid files without a header are stored */
auto lidDirPath = fs::path(LID_STAGING_DIR) / "lid";
/** @brief Directory where the image files are stored as they are built */
auto imageDirPath = fs::path(LID_STAGING_DIR) / "image";
/** @brief Directory where the code update tarball files are stored */
auto updateDirPath = fs::path(LID_STAGING_DIR) / "update";
/** @brief The file name of the code update tarball */
constexpr auto tarImageName = "image.tar";
/** @brief The file name of the hostfw image */
constexpr auto hostfwImageName = "image-hostfw";
/** @brief The path to the code update tarball file */
auto tarImagePath = fs::path(imageDirPath) / tarImageName;
/** @brief The path to the hostfw image */
auto hostfwImagePath = fs::path(imageDirPath) / hostfwImageName;
/** @brief The path to the tarball file expected by the phosphor software
* manager */
auto updateImagePath = fs::path("/tmp/images") / tarImageName;
std::string CodeUpdate::fetchCurrentBootSide()
{
return currBootSide;
}
std::string CodeUpdate::fetchNextBootSide()
{
return nextBootSide;
}
int CodeUpdate::setCurrentBootSide(const std::string& currSide)
{
currBootSide = currSide;
return PLDM_SUCCESS;
}
int CodeUpdate::setNextBootSide(const std::string& nextSide)
{
nextBootSide = nextSide;
std::string objPath{};
if (nextBootSide == currBootSide)
{
objPath = runningVersion;
}
else
{
objPath = nonRunningVersion;
}
if (objPath.empty())
{
error("no nonRunningVersion present");
return PLDM_PLATFORM_INVALID_STATE_VALUE;
}
pldm::utils::DBusMapping dbusMapping{objPath, redundancyIntf, "Priority",
"uint8_t"};
uint8_t val = 0;
pldm::utils::PropertyValue value = static_cast<uint8_t>(val);
try
{
dBusIntf->setDbusProperty(dbusMapping, value);
}
catch (const std::exception& e)
{
error(
"failed to set the next boot side to {OBJ_PATH} ERROR={ERR_EXCEP}",
"OBJ_PATH", objPath.c_str(), "ERR_EXCEP", e.what());
return PLDM_ERROR;
}
return PLDM_SUCCESS;
}
int CodeUpdate::setRequestedApplyTime()
{
int rc = PLDM_SUCCESS;
pldm::utils::PropertyValue value =
"xyz.openbmc_project.Software.ApplyTime.RequestedApplyTimes.OnReset";
DBusMapping dbusMapping;
dbusMapping.objectPath = "/xyz/openbmc_project/software/apply_time";
dbusMapping.interface = "xyz.openbmc_project.Software.ApplyTime";
dbusMapping.propertyName = "RequestedApplyTime";
dbusMapping.propertyType = "string";
try
{
pldm::utils::DBusHandler().setDbusProperty(dbusMapping, value);
}
catch (const std::exception& e)
{
error("Failed To set RequestedApplyTime property ERROR={ERR_EXCEP}",
"ERR_EXCEP", e.what());
rc = PLDM_ERROR;
}
return rc;
}
int CodeUpdate::setRequestedActivation()
{
int rc = PLDM_SUCCESS;
pldm::utils::PropertyValue value =
"xyz.openbmc_project.Software.Activation.RequestedActivations.Active";
DBusMapping dbusMapping;
dbusMapping.objectPath = newImageId;
dbusMapping.interface = "xyz.openbmc_project.Software.Activation";
dbusMapping.propertyName = "RequestedActivation";
dbusMapping.propertyType = "string";
try
{
pldm::utils::DBusHandler().setDbusProperty(dbusMapping, value);
}
catch (const std::exception& e)
{
error("Failed To set RequestedActivation property ERROR={ERR_EXCEP}",
"ERR_EXCEP", e.what());
rc = PLDM_ERROR;
}
return rc;
}
void CodeUpdate::setVersions()
{
static constexpr auto mapperService = "xyz.openbmc_project.ObjectMapper";
static constexpr auto functionalObjPath =
"/xyz/openbmc_project/software/functional";
static constexpr auto activeObjPath =
"/xyz/openbmc_project/software/active";
static constexpr auto propIntf = "org.freedesktop.DBus.Properties";
auto& bus = dBusIntf->getBus();
try
{
auto method = bus.new_method_call(mapperService, functionalObjPath,
propIntf, "Get");
method.append("xyz.openbmc_project.Association", "endpoints");
std::variant<std::vector<std::string>> paths;
auto reply = bus.call(
method,
std::chrono::duration_cast<microsec>(sec(DBUS_TIMEOUT)).count());
reply.read(paths);
runningVersion = std::get<std::vector<std::string>>(paths)[0];
auto method1 = bus.new_method_call(mapperService, activeObjPath,
propIntf, "Get");
method1.append("xyz.openbmc_project.Association", "endpoints");
auto reply1 = bus.call(
method1,
std::chrono::duration_cast<microsec>(sec(DBUS_TIMEOUT)).count());
reply1.read(paths);
for (const auto& path : std::get<std::vector<std::string>>(paths))
{
if (path != runningVersion)
{
nonRunningVersion = path;
break;
}
}
}
catch (const std::exception& e)
{
error(
"failed to make a d-bus call to Object Mapper Association, ERROR={ERR_EXCEP}",
"ERR_EXCEP", e.what());
return;
}
using namespace sdbusplus::bus::match::rules;
captureNextBootSideChange.push_back(
std::make_unique<sdbusplus::bus::match_t>(
pldm::utils::DBusHandler::getBus(),
propertiesChanged(runningVersion, redundancyIntf),
[this](sdbusplus::message_t& msg) {
DbusChangedProps props;
std::string iface;
msg.read(iface, props);
processPriorityChangeNotification(props);
}));
fwUpdateMatcher.push_back(std::make_unique<sdbusplus::bus::match_t>(
pldm::utils::DBusHandler::getBus(),
"interface='org.freedesktop.DBus.ObjectManager',type='signal',"
"member='InterfacesAdded',path='/xyz/openbmc_project/software'",
[this](sdbusplus::message_t& msg) {
DBusInterfaceAdded interfaces;
sdbusplus::message::object_path path;
msg.read(path, interfaces);
for (auto& interface : interfaces)
{
if (interface.first == "xyz.openbmc_project.Software.Activation")
{
auto imageInterface = "xyz.openbmc_project.Software.Activation";
auto imageObjPath = path.str.c_str();
try
{
auto propVal = dBusIntf->getDbusPropertyVariant(
imageObjPath, "Activation", imageInterface);
const auto& imageProp = std::get<std::string>(propVal);
if (imageProp == "xyz.openbmc_project.Software."
"Activation.Activations.Ready" &&
isCodeUpdateInProgress())
{
newImageId = path.str;
if (!imageActivationMatch)
{
imageActivationMatch =
std::make_unique<sdbusplus::bus::match_t>(
pldm::utils::DBusHandler::getBus(),
propertiesChanged(newImageId,
"xyz.openbmc_project."
"Software.Activation"),
[this](sdbusplus::message_t& msg) {
DbusChangedProps props;
std::string iface;
msg.read(iface, props);
const auto itr = props.find("Activation");
if (itr != props.end())
{
PropertyValue value = itr->second;
auto propVal = std::get<std::string>(value);
if (propVal ==
"xyz.openbmc_project.Software."
"Activation.Activations.Active")
{
CodeUpdateState state =
CodeUpdateState::END;
setCodeUpdateProgress(false);
auto sensorId =
getFirmwareUpdateSensor();
sendStateSensorEvent(
sensorId, PLDM_STATE_SENSOR_STATE,
0, uint8_t(state),
uint8_t(CodeUpdateState::START));
newImageId.clear();
}
else if (propVal == "xyz.openbmc_project."
"Software.Activation."
"Activations.Failed" ||
propVal == "xyz.openbmc_"
"project.Software."
"Activation."
"Activations."
"Invalid")
{
CodeUpdateState state =
CodeUpdateState::FAIL;
setCodeUpdateProgress(false);
auto sensorId =
getFirmwareUpdateSensor();
sendStateSensorEvent(
sensorId, PLDM_STATE_SENSOR_STATE,
0, uint8_t(state),
uint8_t(CodeUpdateState::START));
newImageId.clear();
}
}
});
}
auto rc = setRequestedActivation();
if (rc != PLDM_SUCCESS)
{
CodeUpdateState state = CodeUpdateState::FAIL;
setCodeUpdateProgress(false);
auto sensorId = getFirmwareUpdateSensor();
sendStateSensorEvent(
sensorId, PLDM_STATE_SENSOR_STATE, 0,
uint8_t(state),
uint8_t(CodeUpdateState::START));
error("could not set RequestedActivation");
}
break;
}
}
catch (const sdbusplus::exception_t& e)
{
error(
"Error in getting Activation status,ERROR= {ERR_EXCEP}, INTERFACE={IMG_INTERFACE}, OBJECT PATH={OBJ_PATH}",
"ERR_EXCEP", e.what(), "IMG_INTERFACE", imageInterface,
"OBJ_PATH", imageObjPath);
}
}
}
}));
}
void CodeUpdate::processPriorityChangeNotification(
const DbusChangedProps& chProperties)
{
static constexpr auto propName = "Priority";
const auto it = chProperties.find(propName);
if (it == chProperties.end())
{
return;
}
uint8_t newVal = std::get<uint8_t>(it->second);
nextBootSide = (newVal == 0) ? currBootSide
: ((currBootSide == Tside) ? Pside : Tside);
}
void CodeUpdate::setOemPlatformHandler(
pldm::responder::oem_platform::Handler* handler)
{
oemPlatformHandler = handler;
}
void CodeUpdate::clearDirPath(const std::string& dirPath)
{
if (!fs::is_directory(dirPath))
{
error("The directory does not exist, dirPath = {DIR_PATH}", "DIR_PATH",
dirPath.c_str());
return;
}
for (const auto& iter : fs::directory_iterator(dirPath))
{
fs::remove_all(iter);
}
}
void CodeUpdate::sendStateSensorEvent(
uint16_t sensorId, enum sensor_event_class_states sensorEventClass,
uint8_t sensorOffset, uint8_t eventState, uint8_t prevEventState)
{
pldm::responder::oem_ibm_platform::Handler* oemIbmPlatformHandler =
dynamic_cast<pldm::responder::oem_ibm_platform::Handler*>(
oemPlatformHandler);
oemIbmPlatformHandler->sendStateSensorEvent(
sensorId, sensorEventClass, sensorOffset, eventState, prevEventState);
}
void CodeUpdate::deleteImage()
{
static constexpr auto UPDATER_SERVICE =
"xyz.openbmc_project.Software.BMC.Updater";
static constexpr auto SW_OBJ_PATH = "/xyz/openbmc_project/software";
static constexpr auto DELETE_INTF =
"xyz.openbmc_project.Collection.DeleteAll";
auto& bus = dBusIntf->getBus();
try
{
auto method = bus.new_method_call(UPDATER_SERVICE, SW_OBJ_PATH,
DELETE_INTF, "DeleteAll");
bus.call_noreply(method);
}
catch (const std::exception& e)
{
error("Failed to delete image, ERROR={ERR_EXCEP}", "ERR_EXCEP",
e.what());
return;
}
}
uint8_t fetchBootSide(uint16_t entityInstance, CodeUpdate* codeUpdate)
{
uint8_t sensorOpState = tSideNum;
if (entityInstance == 0)
{
auto currSide = codeUpdate->fetchCurrentBootSide();
if (currSide == Pside)
{
sensorOpState = pSideNum;
}
}
else if (entityInstance == 1)
{
auto nextSide = codeUpdate->fetchNextBootSide();
if (nextSide == Pside)
{
sensorOpState = pSideNum;
}
}
else
{
sensorOpState = PLDM_SENSOR_UNKNOWN;
}
return sensorOpState;
}
int setBootSide(uint16_t entityInstance, uint8_t currState,
const std::vector<set_effecter_state_field>& stateField,
CodeUpdate* codeUpdate)
{
int rc = PLDM_SUCCESS;
auto side = (stateField[currState].effecter_state == pSideNum) ? "P" : "T";
if (entityInstance == 0)
{
rc = codeUpdate->setCurrentBootSide(side);
}
else if (entityInstance == 1)
{
rc = codeUpdate->setNextBootSide(side);
}
else
{
rc = PLDM_PLATFORM_INVALID_STATE_VALUE;
}
return rc;
}
template <typename... T>
int executeCmd(const T&... t)
{
std::stringstream cmd;
((cmd << t << " "), ...) << std::endl;
FILE* pipe = popen(cmd.str().c_str(), "r");
if (!pipe)
{
throw std::runtime_error("popen() failed!");
}
int rc = pclose(pipe);
if (WEXITSTATUS(rc))
{
std::cerr << "Error executing: ";
((std::cerr << " " << t), ...);
std::cerr << "\n";
return -1;
}
return 0;
}
int processCodeUpdateLid(const std::string& filePath)
{
struct LidHeader
{
uint16_t magicNumber;
uint16_t headerVersion;
uint32_t lidNumber;
uint32_t lidDate;
uint16_t lidTime;
uint16_t lidClass;
uint32_t lidCrc;
uint32_t lidSize;
uint32_t headerSize;
};
LidHeader header;
std::ifstream ifs(filePath, std::ios::in | std::ios::binary);
if (!ifs)
{
error("ifstream open error: {DIR_PATH}", "DIR_PATH", filePath.c_str());
return PLDM_ERROR;
}
ifs.seekg(0);
ifs.read(reinterpret_cast<char*>(&header), sizeof(header));
// File size should be the value of lid size minus the header size
auto fileSize = fs::file_size(filePath);
fileSize -= htonl(header.headerSize);
if (fileSize < htonl(header.lidSize))
{
// File is not completely written yet
ifs.close();
return PLDM_SUCCESS;
}
constexpr auto magicNumber = 0x0222;
if (htons(header.magicNumber) != magicNumber)
{
error("Invalid magic number: {DIR_PATH}", "DIR_PATH", filePath.c_str());
ifs.close();
return PLDM_ERROR;
}
fs::create_directories(imageDirPath);
fs::create_directories(lidDirPath);
constexpr auto bmcClass = 0x2000;
if (htons(header.lidClass) == bmcClass)
{
// Skip the header and concatenate the BMC LIDs into a tar file
std::ofstream ofs(tarImagePath,
std::ios::out | std::ios::binary | std::ios::app);
ifs.seekg(htonl(header.headerSize));
ofs << ifs.rdbuf();
ofs.flush();
ofs.close();
}
else
{
std::stringstream lidFileName;
lidFileName << std::hex << htonl(header.lidNumber) << ".lid";
auto lidNoHeaderPath = fs::path(lidDirPath) / lidFileName.str();
std::ofstream ofs(lidNoHeaderPath,
std::ios::out | std::ios::binary | std::ios::trunc);
ifs.seekg(htonl(header.headerSize));
ofs << ifs.rdbuf();
ofs.flush();
ofs.close();
}
ifs.close();
fs::remove(filePath);
return PLDM_SUCCESS;
}
int CodeUpdate::assembleCodeUpdateImage()
{
pid_t pid = fork();
if (pid == 0)
{
pid_t nextPid = fork();
if (nextPid == 0)
{
// Create the hostfw squashfs image from the LID files without
// header
auto rc = executeCmd("/usr/sbin/mksquashfs", lidDirPath.c_str(),
hostfwImagePath.c_str(), "-all-root",
"-no-recovery");
if (rc < 0)
{
error("Error occurred during the mksqusquashfs call");
setCodeUpdateProgress(false);
auto sensorId = getFirmwareUpdateSensor();
sendStateSensorEvent(sensorId, PLDM_STATE_SENSOR_STATE, 0,
uint8_t(CodeUpdateState::FAIL),
uint8_t(CodeUpdateState::START));
exit(EXIT_FAILURE);
}
fs::create_directories(updateDirPath);
// Extract the BMC tarball content
rc = executeCmd("/bin/tar", "-xf", tarImagePath.c_str(), "-C",
updateDirPath);
if (rc < 0)
{
setCodeUpdateProgress(false);
auto sensorId = getFirmwareUpdateSensor();
sendStateSensorEvent(sensorId, PLDM_STATE_SENSOR_STATE, 0,
uint8_t(CodeUpdateState::FAIL),
uint8_t(CodeUpdateState::START));
exit(EXIT_FAILURE);
}
// Add the hostfw image to the directory where the contents were
// extracted
fs::copy_file(hostfwImagePath,
fs::path(updateDirPath) / hostfwImageName,
fs::copy_options::overwrite_existing);
// Remove the tarball file, then re-generate it with so that the
// hostfw image becomes part of the tarball
fs::remove(tarImagePath);
rc = executeCmd("/bin/tar", "-cf", tarImagePath, ".", "-C",
updateDirPath);
if (rc < 0)
{
error("Error occurred during the generation of the tarball");
setCodeUpdateProgress(false);
auto sensorId = getFirmwareUpdateSensor();
sendStateSensorEvent(sensorId, PLDM_STATE_SENSOR_STATE, 0,
uint8_t(CodeUpdateState::FAIL),
uint8_t(CodeUpdateState::START));
exit(EXIT_FAILURE);
}
// Copy the tarball to the update directory to trigger the phosphor
// software manager to create a version interface
fs::copy_file(tarImagePath, updateImagePath,
fs::copy_options::overwrite_existing);
// Cleanup
fs::remove_all(updateDirPath);
fs::remove_all(lidDirPath);
fs::remove_all(imageDirPath);
exit(EXIT_SUCCESS);
}
else if (nextPid < 0)
{
error("Error occurred during fork. ERROR={ERR}", "ERR", errno);
exit(EXIT_FAILURE);
}
// Do nothing as parent. When parent exits, child will be reparented
// under init and be reaped properly.
exit(0);
}
else if (pid > 0)
{
int status;
if (waitpid(pid, &status, 0) < 0)
{
error("Error occurred during waitpid. ERROR={ERR}", "ERR", errno);
return PLDM_ERROR;
}
else if (WEXITSTATUS(status) != 0)
{
error(
"Failed to execute the assembling of the image. STATUS={IMG_STATUS}",
"IMG_STATUS", status);
return PLDM_ERROR;
}
}
else
{
error("Error occurred during fork. ERROR={ERR}", "ERR", errno);
return PLDM_ERROR;
}
return PLDM_SUCCESS;
}
} // namespace responder
} // namespace pldm