>> For example, we don't care about concurrent SIGP SENSE. We only care >> about "lightweight" SIGP orders with concurrent "heavy weight" SIGP >> orders. > > I very much care about concurrent SIGP SENSE (a "lightweight" order > handled in-kernel) and how that interacts with the "heavy weight" SIGP > orders (handled in userspace). SIGP SENSE might return CC0 (accepted) > if a vcpu is operating normally, or CC1 (status stored) with status > bits indicating an external call is pending and/or the vcpu is stopped. > This means that the actual response will depend on whether userspace > has picked up the sigp order and processed it or not. Giving CC0 when > userspace is actively processing a SIGP STOP/STOP AND STORE STATUS > would be misleading for the SIGP SENSE. (Did the STOP order get lost? > Failed? Not yet dispatched? Blocked?) But that would only visible when concurrently SIGP STOP'ing from one VCPU and SIGP SENSE'ing from another VCPU. But in that case, there are already no guarantees, because it's inherently racy: VCPU #2: SIGP STOP #3 VCPU #1: SIGP SENSE #3 There is no guarantee who ends up first a) In the kernel b) On the final destination (SENSE -> kernel; STOP -> QEMU) They could be rescheduled/delayed in various ways. The important part is that orders from the *same* CPU are properly handled, right? VCPU #1: SIGP STOP #3 VCPU #1: SIGP SENSE #3 SENSE must return BUSY in case the STOP was not successful yet, correct? And that can be achieved by setting the VCPU #3 busy when landing in user space to trigger the SIGP STOP, before returning to the kernel and processing the SIGP SENSE. Or am I missing something important? > > Meanwhile, the Principles of Operation (SA22-7832-12) page 4-95 > describes a list of orders that would generate a CC2 (busy) when the > order is still "active" in userspace: > > """ > A previously issued start, stop, restart, stop- > and-store-status, set-prefix, store-status-at- > address order, or store-additional-status-at- > address has been accepted by the > addressed CPU, and execution of the func- > tion requested by the order has not yet been > completed. Right, but my take is that the order has not been accepted by the target CPU before we're actually in user space to e.g., trigger SIGP STOP. > ... > If the currently specified order is sense, external > call, emergency signal, start, stop, restart, stop > and store status, set prefix, store status at > address, set architecture, set multithreading, or > store additional status at address, then the order > is rejected, and condition code 2 is set. If the cur- > rently specified order is one of the reset orders, > or an unassigned or not-implemented order, the > order code is interpreted as described in “Status > Bits” on page 4-96. > """ > > (There is another entry for the reset orders; not copied here for sake > of keeping my novella manageable.) Yes, these have to be special because we can have CPUs that never stop (endless program interruption stream). > > So, you're right that I could be more precise in terms how QEMU handles > a SIGP order while it's already busy handling one, and only limit the > CC2 from the kernel to those in-kernel orders. But I did say I took > this simplified approach in the cover letter. :) > > Regardless, because of the above I really do want/need a way to give > the kernel a clue that userspace is doing something, without waiting > for userspace to say "hey, that order you kicked back to me? I'm > working on it now, I'll let you know when it's done!" Otherwise, SIGP > SENSE (and other lightweight friends) is still racing with the receipt > of a "start the sigp" ioctl. And my point is that it's only visible when two VCPUs are involved and there are absolutely no guarantees regarding that. (see my first reply) -- Thanks, David / dhildenb