common.h source code [compiler-rt/lib/scudo/standalone/common.h]

1	//===-- common.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_COMMON_H_
10	#define SCUDO_COMMON_H_
11
12	#include "internal_defs.h"
13
14	#include "fuchsia.h"
15	#include "linux.h"
16	#include "trusty.h"
17
18	#include <stddef.h>
19	#include <string.h>
20	#include <unistd.h>
21
22	namespace scudo {
23
24	template <class Dest, class Source> inline Dest bit_cast(const Source &S) {
25	static_assert(sizeof(Dest) == sizeof(Source), "");
26	Dest D;
27	memcpy(&D, &S, sizeof(D));
28	return D;
29	}
30
31	inline constexpr bool isPowerOfTwo(uptr X) {
32	if (X == `0`)
33	return false;
34	return (X & (X - `1`)) == `0`;
35	}
36
37	inline constexpr uptr roundUp(uptr X, uptr Boundary) {
38	DCHECK(isPowerOfTwo(Boundary));
39	return (X + Boundary - `1`) & ~(Boundary - `1`);
40	}
41	inline constexpr uptr roundUpSlow(uptr X, uptr Boundary) {
42	return ((X + Boundary - `1`) / Boundary) * Boundary;
43	}
44
45	inline constexpr uptr roundDown(uptr X, uptr Boundary) {
46	DCHECK(isPowerOfTwo(Boundary));
47	return X & ~(Boundary - `1`);
48	}
49	inline constexpr uptr roundDownSlow(uptr X, uptr Boundary) {
50	return (X / Boundary) * Boundary;
51	}
52
53	inline constexpr bool isAligned(uptr X, uptr Alignment) {
54	DCHECK(isPowerOfTwo(Alignment));
55	return (X & (Alignment - `1`)) == `0`;
56	}
57	inline constexpr bool isAlignedSlow(uptr X, uptr Alignment) {
58	return X % Alignment == `0`;
59	}
60
61	template <class T> constexpr T Min(T A, T B) { return A < B ? A : B; }
62
63	template <class T> constexpr T Max(T A, T B) { return A > B ? A : B; }
64
65	template <class T> void Swap(T &A, T &B) {
66	T Tmp = A;
67	A = B;
68	B = Tmp;
69	}
70
71	inline uptr getMostSignificantSetBitIndex(uptr X) {
72	DCHECK_NE(X, `0U`);
73	return SCUDO_WORDSIZE - `1U` - static_cast<uptr>(__builtin_clzl(X));
74	}
75
76	inline uptr roundUpPowerOfTwo(uptr Size) {
77	DCHECK(Size);
78	if (isPowerOfTwo(X: Size))
79	return Size;
80	const uptr Up = getMostSignificantSetBitIndex(X: Size);
81	DCHECK_LT(Size, (`1UL` << (Up + `1`)));
82	DCHECK_GT(Size, (`1UL` << Up));
83	return `1UL` << (Up + `1`);
84	}
85
86	inline uptr getLeastSignificantSetBitIndex(uptr X) {
87	DCHECK_NE(X, `0U`);
88	return static_cast<uptr>(__builtin_ctzl(X));
89	}
90
91	inline uptr getLog2(uptr X) {
92	DCHECK(isPowerOfTwo(X));
93	return getLeastSignificantSetBitIndex(X);
94	}
95
96	inline u32 getRandomU32(u32 *State) {
97	// ANSI C linear congruential PRNG (16-bit output).
98	// return (State = State 1103515245 + 12345) >> 16;*
99	// XorShift (32-bit output).
100	State ^= State << `13`;
101	State ^= State >> `17`;
102	State ^= State << `5`;
103	return *State;
104	}
105
106	inline u32 getRandomModN(u32 *State, u32 N) {
107	return getRandomU32(State) % N; // [0, N)
108	}
109
110	template <typename T> inline void shuffle(T A, u32 N, u32 RandState) {
111	if (N <= `1`)
112	return;
113	u32 State = *RandState;
114	for (u32 I = N - `1`; I > `0`; I--)
115	Swap(A[I], A[getRandomModN(State: &State, N: I + `1`)]);
116	*RandState = State;
117	}
118
119	inline void computePercentage(uptr Numerator, uptr Denominator, uptr *Integral,
120	uptr *Fractional) {
121	constexpr uptr Digits = `100`;
122	if (Denominator == `0`) {
123	*Integral = `100`;
124	*Fractional = `0`;
125	return;
126	}
127
128	Integral = Numerator Digits / Denominator;
129	*Fractional =
130	(((Numerator * Digits) % Denominator) * Digits + Denominator / `2`) /
131	Denominator;
132	}
133
134	// Platform specific functions.
135
136	extern uptr PageSizeCached;
137	uptr getPageSizeSlow();
138	inline uptr getPageSizeCached() {
139	#if SCUDO_ANDROID && defined(PAGE_SIZE)
140	// Most Android builds have a build-time constant page size.
141	return PAGE_SIZE;
142	#endif
143	if (LIKELY(PageSizeCached))
144	return PageSizeCached;
145	return getPageSizeSlow();
146	}
147
148	// Returns 0 if the number of CPUs could not be determined.
149	u32 getNumberOfCPUs();
150
151	const char getEnv(const* char *Name);
152
153	u64 getMonotonicTime();
154	// Gets the time faster but with less accuracy. Can call getMonotonicTime
155	// if no fast version is available.
156	u64 getMonotonicTimeFast();
157
158	u32 getThreadID();
159
160	// Our randomness gathering function is limited to 256 bytes to ensure we get
161	// as many bytes as requested, and avoid interruptions (on Linux).
162	constexpr uptr MaxRandomLength = `256U`;
163	bool getRandom(void Buffer, uptr Length, bool* Blocking = false);
164
165	// Platform memory mapping functions.
166
167	#define MAP_ALLOWNOMEM (1U << 0)
168	#define MAP_NOACCESS (1U << 1)
169	#define MAP_RESIZABLE (1U << 2)
170	#define MAP_MEMTAG (1U << 3)
171	#define MAP_PRECOMMIT (1U << 4)
172
173	// Our platform memory mapping use is restricted to 3 scenarios:
174	// - reserve memory at a random address (MAP_NOACCESS);
175	// - commit memory in a previously reserved space;
176	// - commit memory at a random address.
177	// As such, only a subset of parameters combinations is valid, which is checked
178	// by the function implementation. The Data parameter allows to pass opaque
179	// platform specific data to the function.
180	// Returns nullptr on error or dies if MAP_ALLOWNOMEM is not specified.
181	void map(void* Addr, uptr Size, const* char *Name, uptr Flags = `0`,
182	MapPlatformData Data = nullptr*);
183
184	// Indicates that we are getting rid of the whole mapping, which might have
185	// further consequences on Data, depending on the platform.
186	#define UNMAP_ALL (1U << 0)
187
188	void unmap(void *Addr, uptr Size, uptr Flags = `0`,
189	MapPlatformData Data = nullptr*);
190
191	void setMemoryPermission(uptr Addr, uptr Size, uptr Flags,
192	MapPlatformData Data = nullptr*);
193
194	void releasePagesToOS(uptr BaseAddress, uptr Offset, uptr Size,
195	MapPlatformData Data = nullptr*);
196
197	// Logging related functions.
198
199	void setAbortMessage(const char *Message);
200
201	struct BlockInfo {
202	uptr BlockBegin;
203	uptr BlockSize;
204	uptr RegionBegin;
205	uptr RegionEnd;
206	};
207
208	enum class Option : u8 {
209	ReleaseInterval, // Release to OS interval in milliseconds.
210	MemtagTuning, // Whether to tune tagging for UAF or overflow.
211	ThreadDisableMemInit, // Whether to disable automatic heap initialization and,
212	// where possible, memory tagging, on this thread.
213	MaxCacheEntriesCount, // Maximum number of blocks that can be cached.
214	MaxCacheEntrySize, // Maximum size of a block that can be cached.
215	MaxTSDsCount, // Number of usable TSDs for the shared registry.
216	};
217
218	enum class ReleaseToOS : u8 {
219	Normal, // Follow the normal rules for releasing pages to the OS
220	Force, // Force release pages to the OS, but avoid cases that take too long.
221	ForceAll, // Force release every page possible regardless of how long it will
222	// take.
223	};
224
225	constexpr unsigned char PatternFillByte = `0xAB`;
226
227	enum FillContentsMode {
228	NoFill = `0`,
229	ZeroFill = `1`,
230	PatternOrZeroFill = `2` // Pattern fill unless the memory is known to be
231	// zero-initialized already.
232	};
233
234	} // namespace scudo
235
236	#endif // SCUDO_COMMON_H_
237

source code of compiler-rt/lib/scudo/standalone/common.h