blob: f6ba8175d213dd346f5b656f905ffbb7d094e804 [file] [log] [blame]
#include "config.h"
#include "host-interface.hpp"
#include "systemintfcmds.hpp"
#include <ipmid-host/cmd-utils.hpp>
#include <ipmid-host/cmd.hpp>
#include <ipmid/api.hpp>
#include <ipmid/utils.hpp>
#include <phosphor-logging/log.hpp>
#include <functional>
#include <memory>
#include <optional>
namespace phosphor
{
namespace host
{
namespace command
{
using namespace phosphor::logging;
// When you see Base:: you know we're referencing our base class
namespace Base = sdbusplus::server::xyz::openbmc_project::control;
// IPMI OEM command.
// https://github.com/openbmc/openbmc/issues/2082 for handling
// Non-OEM commands that need to send SMS_ATN
using OEMCmd = uint8_t;
// Map of IPMI OEM command to its equivalent interface command.
// This is needed when invoking the callback handler to indicate
// the status of the executed command.
static const std::map<OEMCmd, Host::Command> intfCommand = {
{CMD_HEARTBEAT, Base::Host::Command::Heartbeat},
{CMD_POWER, Base::Host::Command::SoftOff}};
// Map of Interface command to its corresponding IPMI OEM command.
// This is needed when pushing IPMI commands to command manager's
// queue. The same pair will be returned when IPMI asks us
// why a SMS_ATN was sent
static const std::map<Host::Command, IpmiCmdData> ipmiCommand = {
{Base::Host::Command::Heartbeat, std::make_pair(CMD_HEARTBEAT, 0x00)},
{Base::Host::Command::SoftOff, std::make_pair(CMD_POWER, SOFT_OFF)}};
// Called at user request
void Host::execute(Base::Host::Command command)
{
log<level::DEBUG>(
"Pushing cmd on to queue",
entry("CONTROL_HOST_CMD=%s", convertForMessage(command).c_str()));
auto cmd = std::make_tuple(ipmiCommand.at(command),
std::bind(&Host::commandStatusHandler, this,
std::placeholders::_1,
std::placeholders::_2));
ipmid_send_cmd_to_host(std::move(cmd));
}
// Called into by Command Manager
void Host::commandStatusHandler(IpmiCmdData cmd, bool status)
{
// Need to convert <cmd> to the equivalent one mentioned in spec
auto value = status ? Result::Success : Result::Failure;
// Fire a signal
this->commandComplete(intfCommand.at(std::get<0>(cmd)), value);
}
Host::FirmwareCondition Host::currentFirmwareCondition() const
{
// shared object used to wait for host response
auto hostCondition =
std::make_shared<std::optional<Host::FirmwareCondition>>();
// callback for command to host
auto hostAckCallback = [hostCondition](IpmiCmdData, bool status) {
auto value = status ? Host::FirmwareCondition::Running
: Host::FirmwareCondition::Off;
log<level::DEBUG>("currentFirmwareCondition:hostAckCallback fired",
entry("CONTROL_HOST_CMD=%i", value));
*(hostCondition.get()) = value;
return;
};
auto cmd = phosphor::host::command::CommandHandler(
ipmiCommand.at(Base::Host::Command::Heartbeat),
std::move(hostAckCallback));
ipmid_send_cmd_to_host(std::move(cmd));
// Timer to ensure this function returns something within a reasonable time
phosphor::Timer hostAckTimer([hostCondition]() {
log<level::DEBUG>("currentFirmwareCondition: timer expired!");
*(hostCondition.get()) = Host::FirmwareCondition::Off;
});
// Wait 1 second past the ATN_ACK timeout to ensure we wait for as
// long as the timeout
hostAckTimer.start(std::chrono::seconds(IPMI_SMS_ATN_ACK_TIMEOUT_SECS + 1));
auto io = getIoContext();
while (!hostCondition.get()->has_value())
{
log<level::DEBUG>(
"currentFirmwareCondition: waiting for host response");
io->run_for(std::chrono::milliseconds(100));
}
hostAckTimer.stop();
log<level::DEBUG>("currentFirmwareCondition: hostCondition is ready!");
return hostCondition.get()->value();
}
} // namespace command
} // namespace host
} // namespace phosphor