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71d30297ff
This cleans up the syscalls that are mainly used to control the scheduling readiness of a thread. The different use cases and requirements were somehow mixed together in the previous interface. The new syscall set is: 1) pause_thread and resume_thread They don't affect the state of the thread (IPC, signalling, etc.) but merely decide wether the thread is allowed for scheduling or not, the so-called pause state. The pause state is orthogonal to the thread state and masks it when it comes to scheduling. In contrast to the stopped state, which is described in "stop_thread and restart_thread", the thread state and the UTCB content of a thread may change while in the paused state. However, the register state of a thread doesn't change while paused. The "pause" and "resume" syscalls are both core-restricted and may target any thread. They are used as back end for the CPU session calls "pause" and "resume". The "pause/resume" feature is made for applications like the GDB monitor that transparently want to stop and continue the execution of a thread no matter what state the thread is in. 2) stop_thread and restart_thread The stop syscall can only be used on a thread in the non-blocking ("active") thread state. The thread then switches to the "stopped" thread state in wich it explicitely waits for a restart. The restart syscall can only be used on a thread in the "stopped" or the "active" thread state. The thread then switches back to the "active" thread state and the syscall returns whether the thread was stopped. Both syscalls are not core-restricted. "Stop" always targets the calling thread while "restart" may target any thread in the same PD as the caller. Thread state and UTCB content of a thread don't change while in the stopped state. The "stop/restart" feature is used when an active thread wants to wait for an event that is not known to the kernel. Actually the syscalls are used when waiting for locks and on thread exit. 3) cancel_thread_blocking Does cleanly cancel a cancelable blocking thread state (IPC, signalling, stopped). The thread whose blocking was cancelled goes back to the "active" thread state. It may receive a syscall return value that reflects the cancellation. This syscall doesn't affect the pause state of the thread which means that it may still not get scheduled. The syscall is core-restricted and may target any thread. 4) yield_thread Does its best that a thread is scheduled as few as possible in the current scheduling super-period without touching the thread or pause state. In the next superperiod, however, the thread is scheduled "normal" again. The syscall is not core-restricted and always targets the caller. Fixes #2104 |
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interface.h | ||
types.h |