// Copyright 2018 Google LLC // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package mm import ( "fmt" "sync/atomic" "gvisor.googlesource.com/gvisor/pkg/atomicbitops" "gvisor.googlesource.com/gvisor/pkg/sentry/platform" "gvisor.googlesource.com/gvisor/pkg/sentry/usermem" ) // AddressSpace returns the platform.AddressSpace bound to mm. // // Preconditions: The caller must have called mm.Activate(). func (mm *MemoryManager) AddressSpace() platform.AddressSpace { if atomic.LoadInt32(&mm.active) == 0 { panic("trying to use inactive address space?") } return mm.as } // Activate ensures this MemoryManager has a platform.AddressSpace. // // The caller must not hold any locks when calling Activate. // // When this MemoryManager is no longer needed by a task, it should call // Deactivate to release the reference. func (mm *MemoryManager) Activate() error { // Fast path: the MemoryManager already has an active // platform.AddressSpace, and we just need to indicate that we need it too. if atomicbitops.IncUnlessZeroInt32(&mm.active) { return nil } for { // Slow path: may need to synchronize with other goroutines changing // mm.active to or from zero. mm.activeMu.Lock() // Inline Unlock instead of using a defer for performance since this // method is commonly in the hot-path. // Check if we raced with another goroutine performing activation. if atomic.LoadInt32(&mm.active) > 0 { // This can't race; Deactivate can't decrease mm.active from 1 to 0 // without holding activeMu. atomic.AddInt32(&mm.active, 1) mm.activeMu.Unlock() return nil } // Do we have a context? If so, then we never unmapped it. This can // only be the case if !mm.p.CooperativelySchedulesAddressSpace(). if mm.as != nil { atomic.StoreInt32(&mm.active, 1) mm.activeMu.Unlock() return nil } // Get a new address space. We must force unmapping by passing nil to // NewAddressSpace if requested. (As in the nil interface object, not a // typed nil.) mappingsID := (interface{})(mm) if mm.unmapAllOnActivate { mappingsID = nil } as, c, err := mm.p.NewAddressSpace(mappingsID) if err != nil { mm.activeMu.Unlock() return err } if as == nil { // AddressSpace is unavailable, we must wait. // // activeMu must not be held while waiting, as the user // of the address space we are waiting on may attempt // to take activeMu. // // Don't call UninterruptibleSleepStart to register the // wait to allow the watchdog stuck task to trigger in // case a process is starved waiting for the address // space. mm.activeMu.Unlock() <-c continue } // Okay, we could restore all mappings at this point. // But forget that. Let's just let them fault in. mm.as = as // Unmapping is done, if necessary. mm.unmapAllOnActivate = false // Now that m.as has been assigned, we can set m.active to a non-zero value // to enable the fast path. atomic.StoreInt32(&mm.active, 1) mm.activeMu.Unlock() return nil } } // Deactivate releases a reference to the MemoryManager. func (mm *MemoryManager) Deactivate() { // Fast path: this is not the last goroutine to deactivate the // MemoryManager. if atomicbitops.DecUnlessOneInt32(&mm.active) { return } mm.activeMu.Lock() // Same as Activate. // Still active? if atomic.AddInt32(&mm.active, -1) > 0 { mm.activeMu.Unlock() return } // Can we hold on to the address space? if !mm.p.CooperativelySchedulesAddressSpace() { mm.activeMu.Unlock() return } // Release the address space. mm.as.Release() // Lost it. mm.as = nil mm.activeMu.Unlock() } // mapASLocked maps addresses in ar into mm.as. If precommit is true, mappings // for all addresses in ar should be precommitted. // // Preconditions: mm.activeMu must be locked. mm.as != nil. ar.Length() != 0. // ar must be page-aligned. pseg == mm.pmas.LowerBoundSegment(ar.Start). func (mm *MemoryManager) mapASLocked(pseg pmaIterator, ar usermem.AddrRange, precommit bool) error { // By default, map entire pmas at a time, under the assumption that there // is no cost to mapping more of a pma than necessary. mapAR := usermem.AddrRange{0, ^usermem.Addr(usermem.PageSize - 1)} if precommit { // When explicitly precommitting, only map ar, since overmapping may // incur unexpected resource usage. mapAR = ar } else if mapUnit := mm.p.MapUnit(); mapUnit != 0 { // Limit the range we map to ar, aligned to mapUnit. mapMask := usermem.Addr(mapUnit - 1) mapAR.Start = ar.Start &^ mapMask // If rounding ar.End up overflows, just keep the existing mapAR.End. if end := (ar.End + mapMask) &^ mapMask; end >= ar.End { mapAR.End = end } } if checkInvariants { if !mapAR.IsSupersetOf(ar) { panic(fmt.Sprintf("mapAR %#v is not a superset of ar %#v", mapAR, ar)) } } // Since this checks ar.End and not mapAR.End, we will never map a pma that // is not required. for pseg.Ok() && pseg.Start() < ar.End { pma := pseg.ValuePtr() pmaAR := pseg.Range() pmaMapAR := pmaAR.Intersect(mapAR) perms := pma.effectivePerms if pma.needCOW { perms.Write = false } if err := mm.as.MapFile(pmaMapAR.Start, pma.file, pseg.fileRangeOf(pmaMapAR), perms, precommit); err != nil { return err } pseg = pseg.NextSegment() } return nil } // unmapASLocked removes all AddressSpace mappings for addresses in ar. // // Preconditions: mm.activeMu must be locked. func (mm *MemoryManager) unmapASLocked(ar usermem.AddrRange) { if mm.as == nil { // No AddressSpace? Force all mappings to be unmapped on the next // Activate. mm.unmapAllOnActivate = true return } // unmapASLocked doesn't require vmas or pmas to exist for ar, so it can be // passed ranges that include addresses that can't be mapped by the // application. ar = ar.Intersect(mm.applicationAddrRange()) // Note that this AddressSpace may or may not be active. If the // platform does not require cooperative sharing of AddressSpaces, they // are retained between Deactivate/Activate calls. Despite not being // active, it is still valid to perform operations on these address // spaces. mm.as.Unmap(ar.Start, uint64(ar.Length())) }