sanitizer_flag_parser.h source code [compiler-rt/lib/sanitizer_common/sanitizer_flag_parser.h]

1	//===-- sanitizer_flag_parser.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	// This file is a part of ThreadSanitizer/AddressSanitizer runtime.
10	//
11	//===----------------------------------------------------------------------===//
12
13	#ifndef SANITIZER_FLAG_REGISTRY_H
14	#define SANITIZER_FLAG_REGISTRY_H
15
16	#include "sanitizer_common.h"
17	#include "sanitizer_internal_defs.h"
18	#include "sanitizer_libc.h"
19
20	namespace __sanitizer {
21
22	class FlagHandlerBase {
23	public:
24	virtual bool Parse(const char value) { return* false; }
25	// Write the C string representation of the current value (truncated to fit)
26	// into the buffer of size `size`. Returns false if truncation occurred and
27	// returns true otherwise.
28	virtual bool Format(char *buffer, uptr size) {
29	if (size > `0`)
30	buffer[`0`] = `'\0'`;
31	return false;
32	}
33
34	protected:
35	~FlagHandlerBase() {}
36
37	inline bool FormatString(char buffer, uptr size, const* char *str_to_use) {
38	uptr num_symbols_should_write =
39	internal_snprintf(buffer, length: size, format: "%s", str_to_use);
40	return num_symbols_should_write < size;
41	}
42	};
43
44	template <typename T>
45	class FlagHandler final : public FlagHandlerBase {
46	T *t_;
47
48	public:
49	explicit FlagHandler(T *t) : t_(t) {}
50	bool Parse(const char *value) final;
51	bool Format(char *buffer, uptr size) final;
52	};
53
54	inline bool ParseBool(const char value, bool* *b) {
55	if (internal_strcmp(s1: value, s2: "0") == `0` \|\|
56	internal_strcmp(s1: value, s2: "no") == `0` \|\|
57	internal_strcmp(s1: value, s2: "false") == `0`) {
58	b = false*;
59	return true;
60	}
61	if (internal_strcmp(s1: value, s2: "1") == `0` \|\|
62	internal_strcmp(s1: value, s2: "yes") == `0` \|\|
63	internal_strcmp(s1: value, s2: "true") == `0`) {
64	b = true*;
65	return true;
66	}
67	return false;
68	}
69
70	template <>
71	inline bool FlagHandler<bool>::Parse(const char *value) {
72	if (ParseBool(value, b: t_)) return true;
73	Printf(format: "ERROR: Invalid value for bool option: '%s'\n", value);
74	return false;
75	}
76
77	template <>
78	inline bool FlagHandler<bool>::Format(char *buffer, uptr size) {
79	return FormatString(buffer, size, str_to_use: *t_ ? "true" : "false");
80	}
81
82	template <>
83	inline bool FlagHandler<HandleSignalMode>::Parse(const char *value) {
84	bool b;
85	if (ParseBool(value, b: &b)) {
86	*t_ = b ? kHandleSignalYes : kHandleSignalNo;
87	return true;
88	}
89	if (internal_strcmp(s1: value, s2: "2") == `0` \|\|
90	internal_strcmp(s1: value, s2: "exclusive") == `0`) {
91	*t_ = kHandleSignalExclusive;
92	return true;
93	}
94	Printf(format: "ERROR: Invalid value for signal handler option: '%s'\n", value);
95	return false;
96	}
97
98	template <>
99	inline bool FlagHandler<HandleSignalMode>::Format(char *buffer, uptr size) {
100	uptr num_symbols_should_write = internal_snprintf(buffer, length: size, format: "%d", *t_);
101	return num_symbols_should_write < size;
102	}
103
104	template <>
105	inline bool FlagHandler<const char >::Parse(const* char *value) {
106	*t_ = value;
107	return true;
108	}
109
110	template <>
111	inline bool FlagHandler<const char >::Format(char* *buffer, uptr size) {
112	return FormatString(buffer, size, str_to_use: *t_);
113	}
114
115	template <>
116	inline bool FlagHandler<int>::Parse(const char *value) {
117	const char *value_end;
118	*t_ = internal_simple_strtoll(nptr: value, endptr: &value_end, base: `10`);
119	bool ok = *value_end == `0`;
120	if (!ok) Printf(format: "ERROR: Invalid value for int option: '%s'\n", value);
121	return ok;
122	}
123
124	template <>
125	inline bool FlagHandler<int>::Format(char *buffer, uptr size) {
126	uptr num_symbols_should_write = internal_snprintf(buffer, length: size, format: "%d", *t_);
127	return num_symbols_should_write < size;
128	}
129
130	template <>
131	inline bool FlagHandler<uptr>::Parse(const char *value) {
132	const char *value_end;
133	*t_ = internal_simple_strtoll(nptr: value, endptr: &value_end, base: `10`);
134	bool ok = *value_end == `0`;
135	if (!ok) Printf(format: "ERROR: Invalid value for uptr option: '%s'\n", value);
136	return ok;
137	}
138
139	template <>
140	inline bool FlagHandler<uptr>::Format(char *buffer, uptr size) {
141	uptr num_symbols_should_write = internal_snprintf(buffer, length: size, format: "0x%zx", *t_);
142	return num_symbols_should_write < size;
143	}
144
145	template <>
146	inline bool FlagHandler<s64>::Parse(const char *value) {
147	const char *value_end;
148	*t_ = internal_simple_strtoll(nptr: value, endptr: &value_end, base: `10`);
149	bool ok = *value_end == `0`;
150	if (!ok) Printf(format: "ERROR: Invalid value for s64 option: '%s'\n", value);
151	return ok;
152	}
153
154	template <>
155	inline bool FlagHandler<s64>::Format(char *buffer, uptr size) {
156	uptr num_symbols_should_write = internal_snprintf(buffer, length: size, format: "%lld", *t_);
157	return num_symbols_should_write < size;
158	}
159
160	class FlagParser {
161	static const int kMaxFlags = `200`;
162	struct Flag {
163	const char *name;
164	const char *desc;
165	FlagHandlerBase *handler;
166	} *flags_;
167	int n_flags_;
168
169	const char *buf_;
170	uptr pos_;
171
172	public:
173	FlagParser();
174	void RegisterHandler(const char name, FlagHandlerBase handler,
175	const char *desc);
176	void ParseString(const char s, const* char *env_name = `0`);
177	void ParseStringFromEnv(const char *env_name);
178	bool ParseFile(const char path, bool* ignore_missing);
179	void PrintFlagDescriptions();
180
181	private:
182	void fatal_error(const char *err);
183	bool is_space(char c);
184	void skip_whitespace();
185	void parse_flags(const char *env_option_name);
186	void parse_flag(const char *env_option_name);
187	bool run_handler(const char name, const* char *value);
188	char ll_strndup(const* char *s, uptr n);
189	};
190
191	template <typename T>
192	static void RegisterFlag(FlagParser parser, const* char name, const* char *desc,
193	T *var) {
194	FlagHandler<T> fh = new* (GetGlobalLowLevelAllocator()) FlagHandler<T>(var);
195	parser->RegisterHandler(name, handler: fh, desc);
196	}
197
198	void ReportUnrecognizedFlags();
199
200	} // namespace __sanitizer
201
202	#endif // SANITIZER_FLAG_REGISTRY_H
203

source code of compiler-rt/lib/sanitizer_common/sanitizer_flag_parser.h