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[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] Re: [PATCH v2 4/8] x86/mem-sharing: copy GADDR based shared guest areas
On Mon, Jan 23, 2023 at 11:24 AM Jan Beulich <jbeulich@xxxxxxxx> wrote: > > On 23.01.2023 17:09, Tamas K Lengyel wrote: > > On Mon, Jan 23, 2023 at 9:55 AM Jan Beulich <jbeulich@xxxxxxxx> wrote: > >> --- a/xen/arch/x86/mm/mem_sharing.c > >> +++ b/xen/arch/x86/mm/mem_sharing.c > >> @@ -1653,6 +1653,65 @@ static void copy_vcpu_nonreg_state(struc > >> hvm_set_nonreg_state(cd_vcpu, &nrs); > >> } > >> > >> +static int copy_guest_area(struct guest_area *cd_area, > >> + const struct guest_area *d_area, > >> + struct vcpu *cd_vcpu, > >> + const struct domain *d) > >> +{ > >> + mfn_t d_mfn, cd_mfn; > >> + > >> + if ( !d_area->pg ) > >> + return 0; > >> + > >> + d_mfn = page_to_mfn(d_area->pg); > >> + > >> + /* Allocate & map a page for the area if it hasn't been already. */ > >> + if ( !cd_area->pg ) > >> + { > >> + gfn_t gfn = mfn_to_gfn(d, d_mfn); > >> + struct p2m_domain *p2m = p2m_get_hostp2m(cd_vcpu->domain); > >> + p2m_type_t p2mt; > >> + p2m_access_t p2ma; > >> + unsigned int offset; > >> + int ret; > >> + > >> + cd_mfn = p2m->get_entry(p2m, gfn, &p2mt, &p2ma, 0, NULL, NULL); > >> + if ( mfn_eq(cd_mfn, INVALID_MFN) ) > >> + { > >> + struct page_info *pg = alloc_domheap_page(cd_vcpu->domain, > > 0); > >> + > >> + if ( !pg ) > >> + return -ENOMEM; > >> + > >> + cd_mfn = page_to_mfn(pg); > >> + set_gpfn_from_mfn(mfn_x(cd_mfn), gfn_x(gfn)); > >> + > >> + ret = p2m->set_entry(p2m, gfn, cd_mfn, PAGE_ORDER_4K, > > p2m_ram_rw, > >> + p2m->default_access, -1); > >> + if ( ret ) > >> + return ret; > >> + } > >> + else if ( p2mt != p2m_ram_rw ) > >> + return -EBUSY; > >> + > >> + /* > >> + * Simply specify the entire range up to the end of the page. > > All the > >> + * function uses it for is a check for not crossing page > > boundaries. > >> + */ > >> + offset = PAGE_OFFSET(d_area->map); > >> + ret = map_guest_area(cd_vcpu, gfn_to_gaddr(gfn) + offset, > >> + PAGE_SIZE - offset, cd_area, NULL); > >> + if ( ret ) > >> + return ret; > >> + } > >> + else > >> + cd_mfn = page_to_mfn(cd_area->pg); > > > > Everything to this point seems to be non mem-sharing/forking related. Could > > these live somewhere else? There must be some other place where allocating > > these areas happens already for non-fork VMs so it would make sense to just > > refactor that code to be callable from here. > > It is the "copy" aspect with makes this mem-sharing (or really fork) > specific. Plus in the end this is no different from what you have > there right now for copying the vCPU info area. In the final patch > that other code gets removed by re-using the code here.
Yes, the copy part is fork-specific. Arguably if there was a way to do
the allocation of the page for vcpu_info I would prefer that being
elsewhere, but while the only requirement is allocate-page and copy from
parent I'm OK with that logic being in here because it's really
straight forward. But now you also do extra sanity checks here which are
harder to comprehend in this context alone. What if extra sanity checks
will be needed in the future? Or the sanity checks in the future
diverge from where this happens for normal VMs because someone overlooks
this needing to be synched here too?
> out (and one might expect that if there was something, then the vCPU > info area copying should also already have used it). map_guest_area() > is all that is used for other purposes as well. Well, there must be a location where all this happens for normal VMs as well, no? Why not factor that code so that it can be called from here, so that we don't have to track sanity check requirements in two different locations? Or for normal VMs that sanity checking bit isn't required? If so, why? > >> + copy_domain_page(cd_mfn, d_mfn); > >> + > >> + return 0; > >> +} > >> + > >> static int copy_vpmu(struct vcpu *d_vcpu, struct vcpu *cd_vcpu) > >> { > >> struct vpmu_struct *d_vpmu = vcpu_vpmu(d_vcpu); > >> @@ -1745,6 +1804,16 @@ static int copy_vcpu_settings(struct dom > >> copy_domain_page(new_vcpu_info_mfn, vcpu_info_mfn); > >> } > >> > >> + /* Same for the (physically registered) runstate and time info > > areas. */ > >> + ret = copy_guest_area(&cd_vcpu->runstate_guest_area, > >> + &d_vcpu->runstate_guest_area, cd_vcpu, d); > >> + if ( ret ) > >> + return ret; > >> + ret = copy_guest_area(&cd_vcpu->arch.time_guest_area, > >> + &d_vcpu->arch.time_guest_area, cd_vcpu, d); > >> + if ( ret ) > >> + return ret; > >> + > >> ret = copy_vpmu(d_vcpu, cd_vcpu); > >> if ( ret ) > >> return ret; > >> @@ -1987,7 +2056,10 @@ int mem_sharing_fork_reset(struct domain > >> > >> state: > >> if ( reset_state ) > >> + { > >> rc = copy_settings(d, pd); > >> + /* TBD: What to do here with -ERESTART? */ > > > > Where does ERESTART coming from? > > From map_guest_area()'s attempt to acquire the hypercall deadlock mutex, > in order to then pause the subject vCPU. I suppose that in the forking > case it may already be paused, but then there's no way map_guest_area() > could know. Looking at the pause count is fragile, as there's no > guarantee that the vCPU may be unpaused while we're still doing work on > it. Hence I view such checks as only suitable for assertions. Since map_guest_area is only used to sanity check, and it only happens when the page is being setup for the fork, why can't the sanity check be done on the parent? The parent is guaranteed to be paused when forks are active so there is no ERESTART concern and from the looks of it if there is a concern the sanity check is looking for it would be visible on the parent just as well as the fork. But I would like to understand why that sanity checking is required in the first place. Thanks, Tamas
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