Power Management Scenarios: Difference between revisions
JordanCrouse (talk | contribs) (Initial draft) |
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=== On Demand === |
=== On Demand === |
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the XO enters STR on demand from some application or user input. This does not imply that the user will have a shiny button to press to enter the state, only that the state is not entered |
the XO enters STR on demand from some application or user input. This does not imply that the user will have a shiny button to press to enter the state, only that the state is not entered automatically by some hardware event or timer. Typically, the PMD would be notified through DBUS to enter the sleep state. The appropriate wakeup events for this mode would be the Power button, RTC and EC - possibly configurable by the requesting application. Enabling LID events will be complex, because presumably we don't want to wake up on the LID down event. |
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=== Lid down/up === |
=== Lid down/up === |
Revision as of 19:47, 4 April 2007
PMD
Power management on the XO will be controlled by a special application known as the Power Management Daemon (or PMD for short). This yet to be defined application will be responsible for processing power events from both Sugar and the kernel and managing the system accordingly. It will use these scenarios as a roadmap for designing the power management policy on the system.
Suspend to RAM
The following are the scenarios we wish to support for Suspend to RAM (STR):
On Demand
the XO enters STR on demand from some application or user input. This does not imply that the user will have a shiny button to press to enter the state, only that the state is not entered automatically by some hardware event or timer. Typically, the PMD would be notified through DBUS to enter the sleep state. The appropriate wakeup events for this mode would be the Power button, RTC and EC - possibly configurable by the requesting application. Enabling LID events will be complex, because presumably we don't want to wake up on the LID down event.
Lid down/up
THe XO enters STR when the LID is closed, and resumed when the LID is opened. Upon detecting a lid down event, the PMD enables the LID event as a wakeup event and enters the STR state through the /sys/power/state interface. LID up is configured to wake the system when the lid is lifted again. EC wakeups may be enabled to allow the system to process battery and WLAN events, but the PMD will have to be smart enough to realize that the LID is still down, and it should process the event and go back to sleep again. Since this mode has the LID down, it is not necessary to keep the DCON alive or the backlight enabled. The DCON should be put into a sleep mode before suspending.