xref: /freebsd/contrib/llvm-project/compiler-rt/lib/scudo/standalone/mem_map_base.h (revision f5f40dd63bc7acbb5312b26ac1ea1103c12352a6)
1 //===-- mem_map_base.h ------------------------------------------*- C++ -*-===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 
9 #ifndef SCUDO_MEM_MAP_BASE_H_
10 #define SCUDO_MEM_MAP_BASE_H_
11 
12 #include "common.h"
13 
14 namespace scudo {
15 
16 // In Scudo, every memory operation will be fulfilled through a
17 // platform-specific `MemMap` instance. The essential APIs are listed in the
18 // `MemMapBase` below. This is implemented in CRTP, so for each implementation,
19 // it has to implement all of the 'Impl' named functions.
20 template <class Derived> class MemMapBase {
21 public:
22   constexpr MemMapBase() = default;
23 
24   // This is used to map a new set of contiguous pages. Note that the `Addr` is
25   // only a suggestion to the system.
26   bool map(uptr Addr, uptr Size, const char *Name, uptr Flags = 0) {
27     DCHECK(!isAllocated());
28     return invokeImpl(&Derived::mapImpl, Addr, Size, Name, Flags);
29   }
30 
31   // This is used to unmap partial/full pages from the beginning or the end.
32   // I.e., the result pages are expected to be still contiguous.
33   void unmap(uptr Addr, uptr Size) {
34     DCHECK(isAllocated());
35     DCHECK((Addr == getBase()) || (Addr + Size == getBase() + getCapacity()));
36     invokeImpl(&Derived::unmapImpl, Addr, Size);
37   }
38 
39   // This is used to remap a mapped range (either from map() or dispatched from
40   // ReservedMemory). For example, we have reserved several pages and then we
41   // want to remap them with different accessibility.
42   bool remap(uptr Addr, uptr Size, const char *Name, uptr Flags = 0) {
43     DCHECK(isAllocated());
44     DCHECK((Addr >= getBase()) && (Addr + Size <= getBase() + getCapacity()));
45     return invokeImpl(&Derived::remapImpl, Addr, Size, Name, Flags);
46   }
47 
48   // This is used to update the pages' access permission. For example, mark
49   // pages as no read/write permission.
50   void setMemoryPermission(uptr Addr, uptr Size, uptr Flags) {
51     DCHECK(isAllocated());
52     DCHECK((Addr >= getBase()) && (Addr + Size <= getBase() + getCapacity()));
53     return invokeImpl(&Derived::setMemoryPermissionImpl, Addr, Size, Flags);
54   }
55 
56   // Suggest releasing a set of contiguous physical pages back to the OS. Note
57   // that only physical pages are supposed to be released. Any release of
58   // virtual pages may lead to undefined behavior.
59   void releasePagesToOS(uptr From, uptr Size) {
60     DCHECK(isAllocated());
61     DCHECK((From >= getBase()) && (From + Size <= getBase() + getCapacity()));
62     invokeImpl(&Derived::releasePagesToOSImpl, From, Size);
63   }
64   // This is similar to the above one except that any subsequent access to the
65   // released pages will return with zero-filled pages.
66   void releaseAndZeroPagesToOS(uptr From, uptr Size) {
67     DCHECK(isAllocated());
68     DCHECK((From >= getBase()) && (From + Size <= getBase() + getCapacity()));
69     invokeImpl(&Derived::releaseAndZeroPagesToOSImpl, From, Size);
70   }
71 
72   uptr getBase() { return invokeImpl(&Derived::getBaseImpl); }
73   uptr getCapacity() { return invokeImpl(&Derived::getCapacityImpl); }
74 
75   bool isAllocated() { return getBase() != 0U; }
76 
77 protected:
78   template <typename R, typename... Args>
79   R invokeImpl(R (Derived::*MemFn)(Args...), Args... args) {
80     return (static_cast<Derived *>(this)->*MemFn)(args...);
81   }
82 };
83 
84 // `ReservedMemory` is a special memory handle which can be viewed as a page
85 // allocator. `ReservedMemory` will reserve a contiguous pages and the later
86 // page request can be fulfilled at the designated address. This is used when
87 // we want to ensure the virtual address of the MemMap will be in a known range.
88 // This is implemented in CRTP, so for each
89 // implementation, it has to implement all of the 'Impl' named functions.
90 template <class Derived, typename MemMapTy> class ReservedMemory {
91 public:
92   using MemMapT = MemMapTy;
93   constexpr ReservedMemory() = default;
94 
95   // Reserve a chunk of memory at a suggested address.
96   bool create(uptr Addr, uptr Size, const char *Name, uptr Flags = 0) {
97     DCHECK(!isCreated());
98     return invokeImpl(&Derived::createImpl, Addr, Size, Name, Flags);
99   }
100 
101   // Release the entire reserved memory.
102   void release() {
103     DCHECK(isCreated());
104     invokeImpl(&Derived::releaseImpl);
105   }
106 
107   // Dispatch a sub-range of reserved memory. Note that any fragmentation of
108   // the reserved pages is managed by each implementation.
109   MemMapT dispatch(uptr Addr, uptr Size) {
110     DCHECK(isCreated());
111     DCHECK((Addr >= getBase()) && (Addr + Size <= getBase() + getCapacity()));
112     return invokeImpl(&Derived::dispatchImpl, Addr, Size);
113   }
114 
115   uptr getBase() { return invokeImpl(&Derived::getBaseImpl); }
116   uptr getCapacity() { return invokeImpl(&Derived::getCapacityImpl); }
117 
118   bool isCreated() { return getBase() != 0U; }
119 
120 protected:
121   template <typename R, typename... Args>
122   R invokeImpl(R (Derived::*MemFn)(Args...), Args... args) {
123     return (static_cast<Derived *>(this)->*MemFn)(args...);
124   }
125 };
126 
127 } // namespace scudo
128 
129 #endif // SCUDO_MEM_MAP_BASE_H_
130