#pragma once #include #include #include #include #include #include #include #include /*! \defgroup utils General-purpose utility functions * @{ * \file utils.h */ /*! Determine number of elements in an array of static size */ #ifndef ARRAY_SIZE #define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0])) #endif /*! Return the maximum of two specified values */ #define OSMO_MAX(a, b) ((a) >= (b) ? (a) : (b)) /*! Return the minimum of two specified values */ #define OSMO_MIN(a, b) ((a) >= (b) ? (b) : (a)) /*! Return a typical cmp result for comparable entities a and b. */ #define OSMO_CMP(a, b) ((a) < (b)? -1 : ((a) > (b)? 1 : 0)) /*! Stringify the name of a macro x, e.g. an FSM event name. * Note: if nested within another preprocessor macro, this will * stringify the value of x instead of its name. */ #define OSMO_STRINGIFY(x) #x /*! Stringify the value of a macro x, e.g. a port number. */ #define OSMO_STRINGIFY_VAL(x) OSMO_STRINGIFY(x) /*! Make a value_string entry from an enum value name */ #define OSMO_VALUE_STRING(x) { x, #x } /*! Number of bytes necessary to store given BITS */ #define OSMO_BYTES_FOR_BITS(BITS) (((BITS) + 7) / 8) /*! Copy a C-string into a sized buffer using sizeof to detect buffer's size */ #define OSMO_STRLCPY_ARRAY(array, src) osmo_strlcpy(array, src, sizeof(array)) /*! Branch prediction optimizations */ #if defined(__GNUC__) #define OSMO_LIKELY(exp) __builtin_expect(!!(exp), 1) #define OSMO_UNLIKELY(exp) __builtin_expect(!!(exp), 0) #else #define OSMO_LIKELY(exp) exp #define OSMO_UNLIKELY(exp) exp #endif /*! A mapping between human-readable string and numeric value */ struct value_string { uint32_t value; /*!< numeric value */ const char *str; /*!< human-readable string */ }; const char *get_value_string(const struct value_string *vs, uint32_t val); const char *get_value_string_or_null(const struct value_string *vs, uint32_t val); int get_string_value(const struct value_string *vs, const char *str); char osmo_bcd2char(uint8_t bcd); /* only works for numbers in ASCII */ uint8_t osmo_char2bcd(char c); int osmo_bcd2str(char *dst, size_t dst_size, const uint8_t *bcd, int start_nibble, int end_nibble, bool allow_hex); int osmo_str2bcd(uint8_t *dst, size_t dst_size, const char *digits, int start_nibble, int end_nibble, bool allow_hex); int osmo_hexparse(const char *str, uint8_t *b, unsigned int max_len); char *osmo_ubit_dump_buf(char *buf, size_t buf_len, const uint8_t *bits, unsigned int len); char *osmo_ubit_dump(const uint8_t *bits, unsigned int len); char *osmo_hexdump(const unsigned char *buf, int len); char *osmo_hexdump_c(const void *ctx, const unsigned char *buf, int len); char *osmo_hexdump_nospc(const unsigned char *buf, int len); char *osmo_hexdump_nospc_c(const void *ctx, const unsigned char *buf, int len); const char *osmo_hexdump_buf(char *out_buf, size_t out_buf_size, const unsigned char *buf, int len, const char *delim, bool delim_after_last); char *osmo_osmo_hexdump_nospc(const unsigned char *buf, int len) __attribute__((__deprecated__)); #define osmo_static_assert(exp, name) typedef int dummy##name [(exp) ? 1 : -1] __attribute__((__unused__)); void osmo_str2lower(char *out, const char *in) OSMO_DEPRECATED("Use osmo_str_tolower() or osmo_str_tolower_buf() instead," " to properly check target memory bounds"); void osmo_str2upper(char *out, const char *in) OSMO_DEPRECATED("Use osmo_str_toupper() or osmo_str_toupper_buf() instead," " to properly check target memory bounds"); size_t osmo_str_tolower_buf(char *dest, size_t dest_len, const char *src); const char *osmo_str_tolower(const char *src); char *osmo_str_tolower_c(const void *ctx, const char *src); size_t osmo_str_toupper_buf(char *dest, size_t dest_len, const char *src); const char *osmo_str_toupper(const char *src); char *osmo_str_toupper_c(const void *ctx, const char *src); #define OSMO_SNPRINTF_RET(ret, rem, offset, len) \ do { \ len += ret; \ if (ret > rem) \ ret = rem; \ offset += ret; \ rem -= ret; \ } while (0) /*! Helper macro to terminate when an assertion fails * \param[in] exp Predicate to verify * This function will generate a backtrace and terminate the program if * the predicate evaluates to false (0). */ #define OSMO_ASSERT(exp) \ do { \ if (OSMO_UNLIKELY(!(exp))) { \ osmo_panic("Assert failed %s %s:%d\n", #exp, __FILE__, __LINE__); \ } \ } while (0); /* some code invokes OSMO_ASSERT() without the semicolon */ /*! duplicate a string using talloc and release its prior content (if any) * \param[in] ctx Talloc context to use for allocation * \param[out] dst pointer to string, will be updated with ptr to new string * \param[in] newstr String that will be copied to newly allocated string */ static inline void osmo_talloc_replace_string(void *ctx, char **dst, const char *newstr) { if (*dst) talloc_free(*dst); *dst = talloc_strdup(ctx, newstr); } void osmo_talloc_replace_string_fmt(void *ctx, char **dst, const char *fmt, ...); /*! Append to a string and re-/allocate if necessary. * \param[in] ctx Talloc context to use for initial allocation. * \param[in,out] dest char* to re-/allocate and append to. * \param[in] fmt printf-like string format. * \param[in] args Arguments for fmt. * * \a dest may be passed in NULL, or a string previously allocated by talloc. * If an existing string is passed in, it will remain associated with whichever * ctx it was allocated before, regardless whether it matches \a ctx or not. */ #define osmo_talloc_asprintf(ctx, dest, fmt, args ...) \ do { \ if (!dest) \ dest = talloc_asprintf(ctx, fmt, ## args); \ else \ dest = talloc_asprintf_append((char*)dest, fmt, ## args); \ } while (0) int osmo_constant_time_cmp(const uint8_t *exp, const uint8_t *rel, const int count); uint64_t osmo_decode_big_endian(const uint8_t *data, size_t data_len); uint8_t *osmo_encode_big_endian(uint64_t value, size_t data_len); size_t osmo_strlcpy(char *dst, const char *src, size_t siz); const char *osmo_strnchr(const char *str, size_t str_size, char c); bool osmo_is_hexstr(const char *str, int min_digits, int max_digits, bool require_even); bool osmo_identifier_valid(const char *str); bool osmo_separated_identifiers_valid(const char *str, const char *sep_chars); void osmo_identifier_sanitize_buf(char *str, const char *sep_chars, char replace_with); size_t osmo_escape_cstr_buf(char *buf, size_t bufsize, const char *str, int in_len); char *osmo_escape_cstr_c(void *ctx, const char *str, int in_len); size_t osmo_quote_cstr_buf(char *buf, size_t bufsize, const char *str, int in_len); char *osmo_quote_cstr_c(void *ctx, const char *str, int in_len); const char *osmo_escape_str(const char *str, int len); int osmo_escape_str_buf3(char *buf, size_t bufsize, const char *str, int in_len); char *osmo_escape_str_buf2(char *buf, size_t bufsize, const char *str, int in_len); const char *osmo_escape_str_buf(const char *str, int in_len, char *buf, size_t bufsize); char *osmo_escape_str_c(const void *ctx, const char *str, int in_len); const char *osmo_quote_str(const char *str, int in_len); int osmo_quote_str_buf3(char *buf, size_t bufsize, const char *str, int in_len); char *osmo_quote_str_buf2(char *buf, size_t bufsize, const char *str, int in_len); const char *osmo_quote_str_buf(const char *str, int in_len, char *buf, size_t bufsize); char *osmo_quote_str_c(const void *ctx, const char *str, int in_len); int osmo_print_n(char *buf, size_t bufsize, const char *str, size_t n); uint32_t osmo_isqrt32(uint32_t x); /*! Floored Modulo (See also: Daan Leijen, Division and Modulus for Computer Scientists). * \param[in] x dividend. * \param[in] y divisor. * \returns remainder of x divided by y. */ #define OSMO_MOD_FLR(x, y) (((x) > 0 && (y) < 0) || ((x) < 0 && (y) > 0) ? (x) % (y) + (y) : (x) % (y)) /*! Euclidean Modulo (See also: Daan Leijen, Division and Modulus for Computer Scientists). * \param[in] x dividend. * \param[in] y divisor. * \returns remainder of x divided by y. */ #define OSMO_MOD_EUC(x, y) ((x) % (y) < 0 ? (y) > 0 ? (x) % (y) + (y) : (x) % (y) - (y) : (x) % (y)) char osmo_luhn(const char* in, int in_len); /*! State for OSMO_STRBUF_APPEND() and OSMO_STRBUF_PRINTF(). See there for examples. */ struct osmo_strbuf { /*! Point to the start of a string buffer. */ char *buf; /*! Total sizeof() the buffer buf points at. */ size_t len; /*! Current writing position in buf (end of the string written so far). */ char *pos; /*! After all OSMO_STRBUF_APPEND operations, reflects the total number of characters that would be written had * buf been large enough. Like snprintf()'s return value, this does not include the terminating nul character. * Hence, to allocate an adequately sized buffer, add 1 to this number. */ size_t chars_needed; }; /*! Append a string to a buffer, as printed by an snprintf()-like function and with similar bounds checking. * Make sure to never write past the end of the buffer, and collect the total size that would be needed. * * // an example function implementation to append: write N spaces. * int print_spaces(char *dst, size_t dst_len, int n) * { * int i; * if (n < 0) * return -EINVAL; * for (i = 0; i < n && i < dst_len; i++) * dst[i] = ' '; * if (dst_len) * dst[OSMO_MIN(dst_len - 1, n)] = '\0'; * // return the n that we would have liked to write if space were available: * return n; * } * * // append above spaces as well as an snprintf() * void strbuf_example() * { * char buf[23]; * struct osmo_strbuf sb = { .buf = buf, .len = sizeof(buf) }; * * OSMO_STRBUF_APPEND(sb, print_spaces, 5); * OSMO_STRBUF_APPEND(sb, snprintf, "The answer is %d but what is the question?", 42); * OSMO_STRBUF_APPEND(sb, print_spaces, 423423); * * printf("%s\n", buf); * printf("would have needed %zu bytes\n", sb.chars_needed); * } * * \param[inout] STRBUF A struct osmo_strbuf instance. * \param[in] func A function with a signature of int func(char *dst, size_t dst_len [, args]) with semantics like * snprintf(). * \param[in] args Arguments passed to func, if any. */ #define OSMO_STRBUF_APPEND(STRBUF, func, args...) do { \ if (!(STRBUF).pos) \ (STRBUF).pos = (STRBUF).buf; \ size_t _sb_remain = OSMO_STRBUF_REMAIN(STRBUF); \ int _sb_l = func((STRBUF).pos, _sb_remain, ##args); \ if (_sb_l < 0 || (size_t)_sb_l > _sb_remain) \ (STRBUF).pos = (STRBUF).buf + (STRBUF).len; \ else if ((STRBUF).pos) \ (STRBUF).pos += _sb_l; \ if (_sb_l > 0) \ (STRBUF).chars_needed += _sb_l; \ } while(0) /*! Shortcut for OSMO_STRBUF_APPEND() invocation using snprintf(). * * int strbuf_example2(char *buf, size_t buflen) * { * int i; * struct osmo_strbuf sb = { .buf = buf, .len = buflen }; * * OSMO_STRBUF_PRINTF(sb, "T minus"); * for (i = 10; i; i--) * OSMO_STRBUF_PRINTF(sb, " %d", i); * OSMO_STRBUF_PRINTF(sb, " ... Lift off!"); * * return sb.chars_needed; * } * * \param[inout] STRBUF A struct osmo_strbuf instance. * \param[in] fmt Format string passed to snprintf. * \param[in] args Additional arguments passed to snprintf, if any. */ #define OSMO_STRBUF_PRINTF(STRBUF, fmt, args...) \ OSMO_STRBUF_APPEND(STRBUF, snprintf, fmt, ##args) /*! Get remaining space for characters and terminating nul in the given struct osmo_strbuf. * \param[in] sb the string buffer to get the remaining space for. * \returns remaining space in the given struct osmo_strbuf. */ static inline size_t _osmo_strbuf_remain(const struct osmo_strbuf *sb) { if (OSMO_UNLIKELY(sb == NULL || sb->buf == NULL)) return 0; if (sb->pos == NULL) return sb->len; return sb->len - (sb->pos - sb->buf); } /*! Return remaining space for characters and terminating nul in the given struct osmo_strbuf. */ #define OSMO_STRBUF_REMAIN(STRBUF) \ _osmo_strbuf_remain(&(STRBUF)) /*! Get number of actual characters (without terminating nul) in the given struct osmo_strbuf. * \param[in] sb the string buffer to get the number of characters for. * \returns number of actual characters (without terminating nul). */ static inline size_t _osmo_strbuf_char_count(const struct osmo_strbuf *sb) { if (OSMO_UNLIKELY(sb == NULL || sb->buf == NULL)) return 0; if (sb->pos == NULL || sb->pos <= sb->buf) return 0; return OSMO_MIN((size_t)(sb->pos - sb->buf), sb->len - 1); } /*! Return number of actual characters contained in struct osmo_strbuf (without terminating nul). */ #define OSMO_STRBUF_CHAR_COUNT(STRBUF) \ _osmo_strbuf_char_count(&(STRBUF)) /*! Like OSMO_STRBUF_APPEND(), but for function signatures that return the char* buffer instead of a length. * When using this function, the final STRBUF.chars_needed may not reflect the actual number of characters needed, since * that number cannot be obtained from this kind of function signature. * \param[inout] STRBUF A struct osmo_strbuf instance. * \param[in] func A function with a signature of char *func(char *dst, size_t dst_len [, args]) where * the returned string is always written to dst. * \param[in] args Arguments passed to func, if any. */ #define OSMO_STRBUF_APPEND_NOLEN(STRBUF, func, args...) do { \ if (!(STRBUF).pos) \ (STRBUF).pos = (STRBUF).buf; \ size_t _sb_remain = OSMO_STRBUF_REMAIN(STRBUF); \ if (_sb_remain) { \ func((STRBUF).pos, _sb_remain, ##args); \ } \ size_t _sb_l = (STRBUF).pos ? strnlen((STRBUF).pos, _sb_remain) : 0; \ if (_sb_l > _sb_remain) \ (STRBUF).pos = (STRBUF).buf + (STRBUF).len; \ else if ((STRBUF).pos) \ (STRBUF).pos += _sb_l; \ (STRBUF).chars_needed += _sb_l; \ } while(0) void osmo_strbuf_drop_tail(struct osmo_strbuf *sb, size_t n_chars); /* Convenience macro. struct osmo_strbuf are typically static to a function scope. Avoid having to type '&', same as * with all the other OSMO_STRBUF_* API. */ #define OSMO_STRBUF_DROP_TAIL(STRBUF, N_CHARS) osmo_strbuf_drop_tail(&(STRBUF), N_CHARS) void osmo_strbuf_added_tail(struct osmo_strbuf *sb, size_t n_chars); /* Convenience macro. struct osmo_strbuf are typically static to a function scope. Avoid having to type '&', same as * with all the other OSMO_STRBUF_* API. */ #define OSMO_STRBUF_ADDED_TAIL(STRBUF, N_CHARS) osmo_strbuf_added_tail(&(STRBUF), N_CHARS) bool osmo_str_startswith(const char *str, const char *startswith_str); int osmo_float_str_to_int(int64_t *val, const char *str, unsigned int precision); int osmo_int_to_float_str_buf(char *buf, size_t buflen, int64_t val, unsigned int precision); char *osmo_int_to_float_str_c(void *ctx, int64_t val, unsigned int precision); int osmo_str_to_int64(int64_t *result, const char *str, int base, int64_t min_val, int64_t max_val); int osmo_str_to_int(int *result, const char *str, int base, int min_val, int max_val); /*! Translate a buffer function to a talloc context function. * This is the full function body of a char *foo_name_c(void *ctx, val...) function, implemented by an * int foo_name_buf(buf, buflen, val...) function: * * char *foo_name_c(void *ctx, example_t arg) * { * OSMO_NAME_C_IMPL(ctx, 64, "ERROR", foo_name_buf, arg) * } * * Return a talloc'd string containing the result of the given foo_name_buf() function, or ON_ERROR on error in the called * foo_name_buf() function. * * If ON_ERROR is NULL, the function returns NULL on error rc from FUNC_BUF. Take care: returning NULL in printf() like * formats (LOGP()) makes the program crash. If ON_ERROR is non-NULL, it must be a string constant, which is not * returned directly, but written to an allocated string buffer first. * * \param[in] INITIAL_BUFSIZE Which size to first talloc from ctx -- a larger size makes a reallocation less likely, a * smaller size allocates less unused bytes, zero allocates once but still runs the string composition twice. * \param[in] ON_ERROR String constant to copy on error rc returned by FUNC_BUF, or NULL to return NULL. * \param[in] FUNC_BUF Name of a function with signature int foo_buf(char *buf, size_t buflen, ...). * The function must return the strlen() that it would write to a sufficiently large buffer or * negative on error, like snprintf(). * \param[in] FUNC_BUF_ARGS Additional arguments to pass to FUNC_BUF after the buf and buflen. */ #define OSMO_NAME_C_IMPL(CTX, INITIAL_BUFSIZE, ON_ERROR, FUNC_BUF, FUNC_BUF_ARGS...) \ size_t _len = INITIAL_BUFSIZE; \ int _needed; \ char *_str = NULL; \ if ((INITIAL_BUFSIZE) > 0) { \ _str = (char*)talloc_named_const(CTX, _len, __func__); \ OSMO_ASSERT(_str); \ } \ _needed = FUNC_BUF(_str, _len, ## FUNC_BUF_ARGS); \ if (_needed < 0) \ goto OSMO_NAME_C_on_error; \ if ((unsigned int) _needed < _len) \ return _str; \ _len = _needed + 1; \ if (_str) \ talloc_free(_str); \ _str = (char*)talloc_named_const(CTX, _len, __func__); \ OSMO_ASSERT(_str); \ _needed = FUNC_BUF(_str, _len, ## FUNC_BUF_ARGS); \ if (_needed < 0) \ goto OSMO_NAME_C_on_error; \ return _str; \ OSMO_NAME_C_on_error: \ /* Re-using and re-sizing above allocated buf ends up in very complex code. Just free and strdup. */ \ if (_str) \ talloc_free(_str); \ if (!(ON_ERROR)) \ return NULL; \ _str = talloc_strdup(CTX, ON_ERROR); \ OSMO_ASSERT(_str); \ talloc_set_name_const(_str, __func__); \ return _str; /*! @} */