/* util.h * Copyright (c) 2012 The Chromium OS Authors. All rights reserved. * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. * * Logging and other utility functions. */ #ifndef _UTIL_H_ #define _UTIL_H_ #include #include #include #include #include #include #ifdef __cplusplus extern "C" { #endif /* * Silence compiler warnings for unused variables/functions. * * If the definition is actually used, the attribute should be removed, but if * it's forgotten or left in place, it doesn't cause a problem. * * If the definition is actually unused, the compiler is free to remove it from * the output so as to save size. If you want to make sure the definition is * kept (e.g. for ABI compatibility), look at the "used" attribute instead. */ #define attribute_unused __attribute__((__unused__)) /* * Mark the symbol as "weak" in the ELF output. This provides a fallback symbol * that may be overriden at link time. See this page for more details: * https://en.wikipedia.org/wiki/Weak_symbol */ #define attribute_weak __attribute__((__weak__)) /* * Mark the function as a printf-style function. * @format_idx The index in the function argument list where the format string * is passed (where the first argument is "1"). * @check_idx The index in the function argument list where the first argument * used in the format string is passed. * Some examples: * foo([1] const char *format, [2] ...): format=1 check=2 * foo([1] int, [2] const char *format, [3] ...): format=2 check=3 * foo([1] const char *format, [2] const char *, [3] ...): format=1 check=3 */ #define attribute_printf(format_idx, check_idx) \ __attribute__((__format__(__printf__, format_idx, check_idx))) /* clang-format off */ #define die(_msg, ...) \ do_fatal_log(LOG_ERR, "libminijail[%d]: " _msg, getpid(), ## __VA_ARGS__) #define pdie(_msg, ...) \ die(_msg ": %m", ## __VA_ARGS__) #define warn(_msg, ...) \ do_log(LOG_WARNING, "libminijail[%d]: " _msg, getpid(), ## __VA_ARGS__) #define pwarn(_msg, ...) \ warn(_msg ": %m", ## __VA_ARGS__) #define info(_msg, ...) \ do_log(LOG_INFO, "libminijail[%d]: " _msg, getpid(), ## __VA_ARGS__) #define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0])) /* clang-format on */ extern const char *log_syscalls[]; extern const size_t log_syscalls_len; enum logging_system_t { /* Log to syslog. This is the default. */ LOG_TO_SYSLOG = 0, /* Log to a file descriptor. */ LOG_TO_FD, }; /* * Even though this function internally calls abort(2)/exit(2), it is * intentionally not marked with the noreturn attribute. When marked as * noreturn, clang coalesces several of the do_fatal_log() calls in methods that * have a large number of such calls (like minijail_enter()), making it * impossible for breakpad to correctly identify the line where it was called, * making the backtrace somewhat useless. */ extern void do_fatal_log(int priority, const char *format, ...) attribute_printf(2, 3); extern void do_log(int priority, const char *format, ...) attribute_printf(2, 3); static inline int is_android(void) { #if defined(__ANDROID__) return 1; #else return 0; #endif } static inline bool compiled_with_asan(void) { #if defined(__SANITIZE_ADDRESS__) /* For gcc. */ return true; #elif defined(__has_feature) /* For clang. */ return __has_feature(address_sanitizer) || __has_feature(hwaddress_sanitizer); #else return false; #endif } void __asan_init(void) attribute_weak; void __hwasan_init(void) attribute_weak; static inline bool running_with_asan(void) { /* * There are some configurations under which ASan needs a dynamic (as * opposed to compile-time) test. Some Android processes that start * before /data is mounted run with non-instrumented libminijail.so, so * the symbol-sniffing code must be present to make the right decision. */ return compiled_with_asan() || &__asan_init != 0 || &__hwasan_init != 0; } static inline bool debug_logging_allowed(void) { #if defined(ALLOW_DEBUG_LOGGING) return true; #else return false; #endif } int lookup_syscall(const char *name); const char *lookup_syscall_name(int nr); long int parse_single_constant(char *constant_str, char **endptr); long int parse_constant(char *constant_str, char **endptr); int parse_size(size_t *size, const char *sizespec); char *strip(char *s); /* * tokenize: locate the next token in @stringp using the @delim * @stringp A pointer to the string to scan for tokens * @delim The delimiter to split by * * Note that, unlike strtok, @delim is not a set of characters, but the full * delimiter. e.g. "a,;b,;c" with a delim of ",;" will yield ["a","b","c"]. * * Note that, unlike strtok, this may return an empty token. e.g. "a,,b" with * strtok will yield ["a","b"], but this will yield ["a","","b"]. */ char *tokenize(char **stringp, const char *delim); char *path_join(const char *external_path, const char *internal_path); /* * consumebytes: consumes @length bytes from a buffer @buf of length @buflength * @length Number of bytes to consume * @buf Buffer to consume from * @buflength Size of @buf * * Returns a pointer to the base of the bytes, or NULL for errors. */ void *consumebytes(size_t length, char **buf, size_t *buflength); /* * consumestr: consumes a C string from a buffer @buf of length @length * @buf Buffer to consume * @length Length of buffer * * Returns a pointer to the base of the string, or NULL for errors. */ char *consumestr(char **buf, size_t *buflength); /* * init_logging: initializes the module-wide logging. * @logger The logging system to use. * @fd The file descriptor to log into. Ignored unless * @logger = LOG_TO_FD. * @min_priority The minimum priority to display. Corresponds to syslog's priority parameter. Ignored unless @logger = LOG_TO_FD. */ void init_logging(enum logging_system_t logger, int fd, int min_priority); /* * minjail_free_env: Frees an environment array plus the environment strings it * points to. The environment and its constituent strings must have been * allocated (as opposed to pointing to static data), e.g. by using * minijail_copy_env() and minijail_setenv(). * * @env The environment to free. */ void minijail_free_env(char **env); /* * minjail_copy_env: Copy an environment array (such as passed to execve), * duplicating the environment strings and the array pointing at them. * * @env The environment to copy. * * Returns a pointer to the copied environment or NULL on memory allocation * failure. */ char **minijail_copy_env(char *const *env); /* * minjail_setenv: Set an environment variable in @env. Semantics match the * standard setenv() function, but this operates on @env, not the global * environment. @env must be dynamically allocated (as opposed to pointing to * static data), e.g. via minijail_copy_env(). @name and @value get copied into * newly-allocated memory. * * @env Address of the environment to modify. Might be re-allocated to * make room for the new entry. * @name Name of the key to set. * @value The value to set. * @overwrite Whether to replace the existing value for @name. If non-zero and * the entry is already present, no changes will be made. * * Returns 0 and modifies *@env on success, returns an error code otherwise. */ int minijail_setenv(char ***env, const char *name, const char *value, int overwrite); #ifdef __cplusplus }; /* extern "C" */ #endif #endif /* _UTIL_H_ */