tree: c58aca8be94fd34fe71e7a238249a898c8426cc8 [path history] [tgz]
  1. Boot/
  2. Decorator/
  3. OperatingSystem/
  4. Shutdown/
  5. BMC.errors.yaml
  6. BMC.interface.yaml
  7. BMC.metadata.yaml
  8. BMCRedundancy.interface.yaml
  9. Chassis.errors.yaml
  10. Chassis.interface.yaml
  11. Chassis.metadata.yaml
  12. Drive.interface.yaml
  13. Host.errors.yaml
  14. Host.interface.yaml
  15. Host.metadata.yaml
  16. PowerOnHours.interface.yaml
  17. README.md
  18. ScheduledHostTransition.interface.yaml
  19. SystemdTarget.errors.yaml
  20. SystemdTarget.metadata.yaml
  21. Watchdog.interface.yaml
xyz/openbmc_project/State/README.md

BMC, Host, and Chassis State Management

Overview

The goal of the phosphor-state-manager repository is to control and track the states of the different software entities in a system. All users will usually implement the BMC state interfaces, and some, when creating servers will do the Host and Chassis state interfaces. These interfaces will be the mechanism by which you determine the state of their corresponding instances, as well as reboot the BMC and hosts, and turn on and off power to the chassis. The interfaces are designed in a way to support a many to many mappings of each interface.

There are three states to track and control on a BMC based server. The states below in () represent the actual parameter name as found in /xyz/openbmc_project/state/+/bmcX,/hostY,/chassisZ where X,Y,Z are the instances (in most cases 0). For all three states, the software tracks a current state, and a requested transition.

  1. BMC : The BMC has either started all required systemd services and reached it's required target (Ready) or it's on it's way there (NotReady). Users can request a (Reboot).

  2. Host : The host is either (Off), (Running), or it's (Quiesced). Running simply implies that the processors are executing instructions. Users can request the host be in a (Off), (On), or (Reboot) state. More details on different Reboot options below. Quiesced means the host OS is in a quiesce state and the system should be checked for errors. For more information refer to Error Handling of systemd

  3. Chassis : The chassis is either (Off) or (On) This represents the state of power to the chassis. The Chassis being on is a pre-req to the Host being running. Users can request for the chassis to be (Off) or (On). A transition to one or the other is implied by the transition not matching the current state.

A simple system design would be to include a single BMC, Host, and Chassis.

Details of the properties and their valid settings can be found in the state manager dbus interface specification

BMC

The BMC would provide interfaces at /xyz/openbmc_project/state/bmc<instance>

Host

The Host would provide interfaces at /xyz/openbmc_project/state/host<instance>

Chassis

The Chassis would provide interfaces at /xyz/openbmc_project/state/chassis<instance>

Chassis System

This is an instance under Chassis and provide interface at /xyz/openbmc_project/state/chassis_system<instance>

Instance 0 (chassis_system0) will be treated as a complete chassis system which will include BMC, host and chassis. This will support hard power cycle of complete system.

In multi-host or multi-chassis system, instance number can be used from 1-N, as 0 is reserved for complete system. In multi chassis system this can be named as chassis_system1 to chassis_systemN

BMC to Host to Chassis Mapping

In the future, OpenBMC will provide an association API, which allows one to programmatically work out the mapping between BMCs, Chassis and Hosts.

In order to not introduce subtle bugs with existing API users, bmc0, chassis0 and host0 are special. If they exist, they are guaranteed to talk to the system as a whole as if it was a system with one BMC, one chassis and one host. If there are multiple hosts, then bmc0/chassis0/host0 will not exist. In the event of multiple BMCs or Chassis, bmc0 and chassis0 will act on all entities as if they are one (if at all possible).

This behaviour means that existing code will continue to work, or error out if the request would be ambiguous and probably not what the user wanted.

For example, if a system has two chassis, only powering off the first chassis (while leaving the second chassis on) is certainly not what the API user had in mind as they likely desired to hard power off the system. In such a multi-chassis system, starting counting from 1 rather than 0 would avoid this problem, while allowing an API user to intentionally only power off one chassis. With chassis0 being special, it would allow existing code to continue to function on this multi-chassis system.

For example, a system with multiple hosts would have BMCs, Chassis and Hosts all start numbering from 1 rather than 0. This is because multiple hosts could be in the same chassis, or controlled by the same BMC, so taking action against them would not be what the API user intended.

It is safe to continue to write code referencing bmc0, host0 and chassis0 and that code will continue to function, or error out rather than doing something undesirable.

Hard vs. Soft Power Off

A hard power off is where you simply cut power to a chassis. You don't give the software running on that chassis any chance to cleanly shut down. A soft power off is where you send a notification to the host that is running on that chassis that a shutdown is requested, and wait for that host firmware to indicate it has shut itself down. Once complete, power is then removed from the chassis. By default, a host off or reboot request does the soft power off. If a user desires a cold reboot then they should simply issue a power off transition request to the chassis, and then issue an on transition request to the host.

Operating System State and Boot Progress Properties

OperatingSystemState property is used to track different progress states of the OS or the hypervisor boot, while the BootProgress property is used mainly for indicating system firmware boot progress. The enumerations used in both the cases are influenced by standard interfaces like IPMI 2.0 (Section 42.2, Sensor Type Codes and Data, Table 42, Base OS boot status) and PLDM state spec (DSP0249, Section 6.3, State Sets Tables, Table 7 – Boot-Related State Sets, Set ID - 196 Boot Progress).