#ifndef AWS_COMMON_BYTE_BUF_H #define AWS_COMMON_BYTE_BUF_H /** * Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. * SPDX-License-Identifier: Apache-2.0. */ #include #include #include #include /** * Represents a length-delimited binary string or buffer. If byte buffer points * to constant memory or memory that should otherwise not be freed by this * struct, set allocator to NULL and free function will be a no-op. * * This structure used to define the output for all functions that write to a buffer. * * Note that this structure allocates memory at the buffer pointer only. The * struct itself does not get dynamically allocated and must be either * maintained or copied to avoid losing access to the memory. */ struct aws_byte_buf { /* do not reorder this, this struct lines up nicely with windows buffer structures--saving us allocations.*/ size_t len; uint8_t *buffer; size_t capacity; struct aws_allocator *allocator; }; /** * Represents a movable pointer within a larger binary string or buffer. * * This structure is used to define buffers for reading. */ struct aws_byte_cursor { /* do not reorder this, this struct lines up nicely with windows buffer structures--saving us allocations */ size_t len; uint8_t *ptr; }; /** * Helper macro for passing aws_byte_cursor to the printf family of functions. * Intended for use with the PRInSTR format macro. * Ex: printf(PRInSTR "\n", AWS_BYTE_CURSOR_PRI(my_cursor)); */ #define AWS_BYTE_CURSOR_PRI(C) ((int)(C).len < 0 ? 0 : (int)(C).len), (const char *)(C).ptr /** * Helper macro for passing aws_byte_buf to the printf family of functions. * Intended for use with the PRInSTR format macro. * Ex: printf(PRInSTR "\n", AWS_BYTE_BUF_PRI(my_buf)); */ #define AWS_BYTE_BUF_PRI(B) ((int)(B).len < 0 ? 0 : (int)(B).len), (const char *)(B).buffer /** * Helper Macro for inititilizing a byte cursor from a string literal */ #define AWS_BYTE_CUR_INIT_FROM_STRING_LITERAL(literal) \ { .ptr = (uint8_t *)(const char *)(literal), .len = sizeof(literal) - 1 } /** * Signature for function argument to trim APIs */ typedef bool(aws_byte_predicate_fn)(uint8_t value); AWS_EXTERN_C_BEGIN /** * Compare two arrays. * Return whether their contents are equivalent. * NULL may be passed as the array pointer if its length is declared to be 0. */ AWS_COMMON_API bool aws_array_eq(const void *const array_a, const size_t len_a, const void *array_b, const size_t len_b); /** * Perform a case-insensitive string comparison of two arrays. * Return whether their contents are equivalent. * NULL may be passed as the array pointer if its length is declared to be 0. * The "C" locale is used for comparing upper and lowercase letters. * Data is assumed to be ASCII text, UTF-8 will work fine too. */ AWS_COMMON_API bool aws_array_eq_ignore_case( const void *const array_a, const size_t len_a, const void *const array_b, const size_t len_b); /** * Compare an array and a null-terminated string. * Returns true if their contents are equivalent. * The array should NOT contain a null-terminator, or the comparison will always return false. * NULL may be passed as the array pointer if its length is declared to be 0. */ AWS_COMMON_API bool aws_array_eq_c_str(const void *const array, const size_t array_len, const char *const c_str); /** * Perform a case-insensitive string comparison of an array and a null-terminated string. * Return whether their contents are equivalent. * The array should NOT contain a null-terminator, or the comparison will always return false. * NULL may be passed as the array pointer if its length is declared to be 0. * The "C" locale is used for comparing upper and lowercase letters. * Data is assumed to be ASCII text, UTF-8 will work fine too. */ AWS_COMMON_API bool aws_array_eq_c_str_ignore_case(const void *const array, const size_t array_len, const char *const c_str); AWS_COMMON_API int aws_byte_buf_init(struct aws_byte_buf *buf, struct aws_allocator *allocator, size_t capacity); /** * Initializes an aws_byte_buf structure base on another valid one. * Requires: *src and *allocator are valid objects. * Ensures: *dest is a valid aws_byte_buf with a new backing array dest->buffer * which is a copy of the elements from src->buffer. */ AWS_COMMON_API int aws_byte_buf_init_copy( struct aws_byte_buf *dest, struct aws_allocator *allocator, const struct aws_byte_buf *src); /** * Evaluates the set of properties that define the shape of all valid aws_byte_buf structures. * It is also a cheap check, in the sense it run in constant time (i.e., no loops or recursion). */ AWS_COMMON_API bool aws_byte_buf_is_valid(const struct aws_byte_buf *const buf); /** * Evaluates the set of properties that define the shape of all valid aws_byte_cursor structures. * It is also a cheap check, in the sense it runs in constant time (i.e., no loops or recursion). */ AWS_COMMON_API bool aws_byte_cursor_is_valid(const struct aws_byte_cursor *cursor); /** * Copies src buffer into dest and sets the correct len and capacity. * A new memory zone is allocated for dest->buffer. When dest is no longer needed it will have to be cleaned-up using * aws_byte_buf_clean_up(dest). * Dest capacity and len will be equal to the src len. Allocator of the dest will be identical with parameter allocator. * If src buffer is null the dest will have a null buffer with a len and a capacity of 0 * Returns AWS_OP_SUCCESS in case of success or AWS_OP_ERR when memory can't be allocated. */ AWS_COMMON_API int aws_byte_buf_init_copy_from_cursor( struct aws_byte_buf *dest, struct aws_allocator *allocator, struct aws_byte_cursor src); /** * Init buffer with contents of multiple cursors, and update cursors to reference the memory stored in the buffer. * Each cursor arg must be an `struct aws_byte_cursor *`. NULL must be passed as the final arg. * NOTE: Do not append/grow/resize buffers initialized this way, or the cursors will end up referencing invalid memory. * Returns AWS_OP_SUCCESS in case of success. * AWS_OP_ERR is returned if memory can't be allocated or the total cursor length exceeds SIZE_MAX. */ AWS_COMMON_API int aws_byte_buf_init_cache_and_update_cursors(struct aws_byte_buf *dest, struct aws_allocator *allocator, ...); AWS_COMMON_API void aws_byte_buf_clean_up(struct aws_byte_buf *buf); /** * Equivalent to calling aws_byte_buf_secure_zero and then aws_byte_buf_clean_up * on the buffer. */ AWS_COMMON_API void aws_byte_buf_clean_up_secure(struct aws_byte_buf *buf); /** * Resets the len of the buffer to 0, but does not free the memory. The buffer can then be reused. * Optionally zeroes the contents, if the "zero_contents" flag is true. */ AWS_COMMON_API void aws_byte_buf_reset(struct aws_byte_buf *buf, bool zero_contents); /** * Sets all bytes of buffer to zero and resets len to zero. */ AWS_COMMON_API void aws_byte_buf_secure_zero(struct aws_byte_buf *buf); /** * Compare two aws_byte_buf structures. * Return whether their contents are equivalent. */ AWS_COMMON_API bool aws_byte_buf_eq(const struct aws_byte_buf *const a, const struct aws_byte_buf *const b); /** * Perform a case-insensitive string comparison of two aws_byte_buf structures. * Return whether their contents are equivalent. * The "C" locale is used for comparing upper and lowercase letters. * Data is assumed to be ASCII text, UTF-8 will work fine too. */ AWS_COMMON_API bool aws_byte_buf_eq_ignore_case(const struct aws_byte_buf *const a, const struct aws_byte_buf *const b); /** * Compare an aws_byte_buf and a null-terminated string. * Returns true if their contents are equivalent. * The buffer should NOT contain a null-terminator, or the comparison will always return false. */ AWS_COMMON_API bool aws_byte_buf_eq_c_str(const struct aws_byte_buf *const buf, const char *const c_str); /** * Perform a case-insensitive string comparison of an aws_byte_buf and a null-terminated string. * Return whether their contents are equivalent. * The buffer should NOT contain a null-terminator, or the comparison will always return false. * The "C" locale is used for comparing upper and lowercase letters. * Data is assumed to be ASCII text, UTF-8 will work fine too. */ AWS_COMMON_API bool aws_byte_buf_eq_c_str_ignore_case(const struct aws_byte_buf *const buf, const char *const c_str); /** * No copies, no buffer allocations. Iterates over input_str, and returns the next substring between split_on instances. * * Edge case rules are as follows: * If the input is an empty string, an empty cursor will be the one entry returned. * If the input begins with split_on, an empty cursor will be the first entry returned. * If the input has two adjacent split_on tokens, an empty cursor will be returned. * If the input ends with split_on, an empty cursor will be returned last. * * It is the user's responsibility zero-initialize substr before the first call. * * It is the user's responsibility to make sure the input buffer stays in memory * long enough to use the results. */ AWS_COMMON_API bool aws_byte_cursor_next_split( const struct aws_byte_cursor *AWS_RESTRICT input_str, char split_on, struct aws_byte_cursor *AWS_RESTRICT substr); /** * No copies, no buffer allocations. Fills in output with a list of * aws_byte_cursor instances where buffer is an offset into the input_str and * len is the length of that string in the original buffer. * * Edge case rules are as follows: * if the input begins with split_on, an empty cursor will be the first entry in * output. if the input has two adjacent split_on tokens, an empty cursor will * be inserted into the output. if the input ends with split_on, an empty cursor * will be appended to the output. * * It is the user's responsibility to properly initialize output. Recommended number of preallocated elements from * output is your most likely guess for the upper bound of the number of elements resulting from the split. * * The type that will be stored in output is struct aws_byte_cursor (you'll need * this for the item size param). * * It is the user's responsibility to make sure the input buffer stays in memory * long enough to use the results. */ AWS_COMMON_API int aws_byte_cursor_split_on_char( const struct aws_byte_cursor *AWS_RESTRICT input_str, char split_on, struct aws_array_list *AWS_RESTRICT output); /** * No copies, no buffer allocations. Fills in output with a list of aws_byte_cursor instances where buffer is * an offset into the input_str and len is the length of that string in the original buffer. N is the max number of * splits, if this value is zero, it will add all splits to the output. * * Edge case rules are as follows: * if the input begins with split_on, an empty cursor will be the first entry in output * if the input has two adjacent split_on tokens, an empty cursor will be inserted into the output. * if the input ends with split_on, an empty cursor will be appended to the output. * * It is the user's responsibility to properly initialize output. Recommended number of preallocated elements from * output is your most likely guess for the upper bound of the number of elements resulting from the split. * * If the output array is not large enough, input_str will be updated to point to the first character after the last * processed split_on instance. * * The type that will be stored in output is struct aws_byte_cursor (you'll need this for the item size param). * * It is the user's responsibility to make sure the input buffer stays in memory long enough to use the results. */ AWS_COMMON_API int aws_byte_cursor_split_on_char_n( const struct aws_byte_cursor *AWS_RESTRICT input_str, char split_on, size_t n, struct aws_array_list *AWS_RESTRICT output); /** * Search for an exact byte match inside a cursor. The first match will be returned. Returns AWS_OP_SUCCESS * on successful match and first_find will be set to the offset in input_str, and length will be the remaining length * from input_str past the returned offset. If the match was not found, AWS_OP_ERR will be returned and * AWS_ERROR_STRING_MATCH_NOT_FOUND will be raised. */ AWS_COMMON_API int aws_byte_cursor_find_exact( const struct aws_byte_cursor *AWS_RESTRICT input_str, const struct aws_byte_cursor *AWS_RESTRICT to_find, struct aws_byte_cursor *first_find); /** * * Shrinks a byte cursor from the right for as long as the supplied predicate is true */ AWS_COMMON_API struct aws_byte_cursor aws_byte_cursor_right_trim_pred( const struct aws_byte_cursor *source, aws_byte_predicate_fn *predicate); /** * Shrinks a byte cursor from the left for as long as the supplied predicate is true */ AWS_COMMON_API struct aws_byte_cursor aws_byte_cursor_left_trim_pred( const struct aws_byte_cursor *source, aws_byte_predicate_fn *predicate); /** * Shrinks a byte cursor from both sides for as long as the supplied predicate is true */ AWS_COMMON_API struct aws_byte_cursor aws_byte_cursor_trim_pred( const struct aws_byte_cursor *source, aws_byte_predicate_fn *predicate); /** * Returns true if the byte cursor's range of bytes all satisfy the predicate */ AWS_COMMON_API bool aws_byte_cursor_satisfies_pred(const struct aws_byte_cursor *source, aws_byte_predicate_fn *predicate); /** * Copies from to to. If to is too small, AWS_ERROR_DEST_COPY_TOO_SMALL will be * returned. dest->len will contain the amount of data actually copied to dest. * * from and to may be the same buffer, permitting copying a buffer into itself. */ AWS_COMMON_API int aws_byte_buf_append(struct aws_byte_buf *to, const struct aws_byte_cursor *from); /** * Copies from to to while converting bytes via the passed in lookup table. * If to is too small, AWS_ERROR_DEST_COPY_TOO_SMALL will be * returned. to->len will contain its original size plus the amount of data actually copied to to. * * from and to should not be the same buffer (overlap is not handled) * lookup_table must be at least 256 bytes */ AWS_COMMON_API int aws_byte_buf_append_with_lookup( struct aws_byte_buf *AWS_RESTRICT to, const struct aws_byte_cursor *AWS_RESTRICT from, const uint8_t *lookup_table); /** * Copies from to to. If to is too small, the buffer will be grown appropriately and * the old contents copied to, before the new contents are appended. * * If the grow fails (overflow or OOM), then an error will be returned. * * from and to may be the same buffer, permitting copying a buffer into itself. */ AWS_COMMON_API int aws_byte_buf_append_dynamic(struct aws_byte_buf *to, const struct aws_byte_cursor *from); /** * Copies `from` to `to`. If `to` is too small, the buffer will be grown appropriately and * the old contents copied over, before the new contents are appended. * * If the grow fails (overflow or OOM), then an error will be returned. * * If the buffer is grown, the old buffer will be securely cleared before getting freed. * * `from` and `to` may be the same buffer, permitting copying a buffer into itself. */ AWS_COMMON_API int aws_byte_buf_append_dynamic_secure(struct aws_byte_buf *to, const struct aws_byte_cursor *from); /** * Copies a single byte into `to`. If `to` is too small, the buffer will be grown appropriately and * the old contents copied over, before the byte is appended. * * If the grow fails (overflow or OOM), then an error will be returned. */ AWS_COMMON_API int aws_byte_buf_append_byte_dynamic(struct aws_byte_buf *buffer, uint8_t value); /** * Copies a single byte into `to`. If `to` is too small, the buffer will be grown appropriately and * the old contents copied over, before the byte is appended. * * If the grow fails (overflow or OOM), then an error will be returned. * * If the buffer is grown, the old buffer will be securely cleared before getting freed. */ AWS_COMMON_API int aws_byte_buf_append_byte_dynamic_secure(struct aws_byte_buf *buffer, uint8_t value); /** * Copy contents of cursor to buffer, then update cursor to reference the memory stored in the buffer. * If buffer is too small, AWS_ERROR_DEST_COPY_TOO_SMALL will be returned. * * The cursor is permitted to reference memory from earlier in the buffer. */ AWS_COMMON_API int aws_byte_buf_append_and_update(struct aws_byte_buf *to, struct aws_byte_cursor *from_and_update); /** * Appends '\0' at the end of the buffer. */ AWS_COMMON_API int aws_byte_buf_append_null_terminator(struct aws_byte_buf *buf); /** * Attempts to increase the capacity of a buffer to the requested capacity * * If the the buffer's capacity is currently larger than the request capacity, the * function does nothing (no shrink is performed). */ AWS_COMMON_API int aws_byte_buf_reserve(struct aws_byte_buf *buffer, size_t requested_capacity); /** * Convenience function that attempts to increase the capacity of a buffer relative to the current * length. * * aws_byte_buf_reserve_relative(buf, x) ~~ aws_byte_buf_reserve(buf, buf->len + x) * */ AWS_COMMON_API int aws_byte_buf_reserve_relative(struct aws_byte_buf *buffer, size_t additional_length); /** * Concatenates a variable number of struct aws_byte_buf * into destination. * Number of args must be greater than 1. If dest is too small, * AWS_ERROR_DEST_COPY_TOO_SMALL will be returned. dest->len will contain the * amount of data actually copied to dest. */ AWS_COMMON_API int aws_byte_buf_cat(struct aws_byte_buf *dest, size_t number_of_args, ...); /** * Compare two aws_byte_cursor structures. * Return whether their contents are equivalent. */ AWS_COMMON_API bool aws_byte_cursor_eq(const struct aws_byte_cursor *a, const struct aws_byte_cursor *b); /** * Perform a case-insensitive string comparison of two aws_byte_cursor structures. * Return whether their contents are equivalent. * The "C" locale is used for comparing upper and lowercase letters. * Data is assumed to be ASCII text, UTF-8 will work fine too. */ AWS_COMMON_API bool aws_byte_cursor_eq_ignore_case(const struct aws_byte_cursor *a, const struct aws_byte_cursor *b); /** * Compare an aws_byte_cursor and an aws_byte_buf. * Return whether their contents are equivalent. */ AWS_COMMON_API bool aws_byte_cursor_eq_byte_buf(const struct aws_byte_cursor *const a, const struct aws_byte_buf *const b); /** * Perform a case-insensitive string comparison of an aws_byte_cursor and an aws_byte_buf. * Return whether their contents are equivalent. * The "C" locale is used for comparing upper and lowercase letters. * Data is assumed to be ASCII text, UTF-8 will work fine too. */ AWS_COMMON_API bool aws_byte_cursor_eq_byte_buf_ignore_case(const struct aws_byte_cursor *const a, const struct aws_byte_buf *const b); /** * Compare an aws_byte_cursor and a null-terminated string. * Returns true if their contents are equivalent. * The cursor should NOT contain a null-terminator, or the comparison will always return false. */ AWS_COMMON_API bool aws_byte_cursor_eq_c_str(const struct aws_byte_cursor *const cursor, const char *const c_str); /** * Perform a case-insensitive string comparison of an aws_byte_cursor and a null-terminated string. * Return whether their contents are equivalent. * The cursor should NOT contain a null-terminator, or the comparison will always return false. * The "C" locale is used for comparing upper and lowercase letters. * Data is assumed to be ASCII text, UTF-8 will work fine too. */ AWS_COMMON_API bool aws_byte_cursor_eq_c_str_ignore_case(const struct aws_byte_cursor *const cursor, const char *const c_str); /** * Case-insensitive hash function for array containing ASCII or UTF-8 text. */ AWS_COMMON_API uint64_t aws_hash_array_ignore_case(const void *array, const size_t len); /** * Case-insensitive hash function for aws_byte_cursors stored in an aws_hash_table. * For case-sensitive hashing, use aws_hash_byte_cursor_ptr(). */ AWS_COMMON_API uint64_t aws_hash_byte_cursor_ptr_ignore_case(const void *item); /** * Returns a lookup table for bytes that is the identity transformation with the exception * of uppercase ascii characters getting replaced with lowercase characters. Used in * caseless comparisons. */ AWS_COMMON_API const uint8_t *aws_lookup_table_to_lower_get(void); /** * Returns lookup table to go from ASCII/UTF-8 hex character to a number (0-15). * Non-hex characters map to 255. * Valid examples: * '0' -> 0 * 'F' -> 15 * 'f' -> 15 * Invalid examples: * ' ' -> 255 * 'Z' -> 255 * '\0' -> 255 */ AWS_COMMON_API const uint8_t *aws_lookup_table_hex_to_num_get(void); /** * Lexical (byte value) comparison of two byte cursors */ AWS_COMMON_API int aws_byte_cursor_compare_lexical(const struct aws_byte_cursor *lhs, const struct aws_byte_cursor *rhs); /** * Lexical (byte value) comparison of two byte cursors where the raw values are sent through a lookup table first */ AWS_COMMON_API int aws_byte_cursor_compare_lookup( const struct aws_byte_cursor *lhs, const struct aws_byte_cursor *rhs, const uint8_t *lookup_table); /** * For creating a byte buffer from a null-terminated string literal. */ AWS_COMMON_API struct aws_byte_buf aws_byte_buf_from_c_str(const char *c_str); AWS_COMMON_API struct aws_byte_buf aws_byte_buf_from_array(const void *bytes, size_t len); AWS_COMMON_API struct aws_byte_buf aws_byte_buf_from_empty_array(const void *bytes, size_t capacity); AWS_COMMON_API struct aws_byte_cursor aws_byte_cursor_from_buf(const struct aws_byte_buf *const buf); AWS_COMMON_API struct aws_byte_cursor aws_byte_cursor_from_c_str(const char *c_str); AWS_COMMON_API struct aws_byte_cursor aws_byte_cursor_from_array(const void *const bytes, const size_t len); /** * Tests if the given aws_byte_cursor has at least len bytes remaining. If so, * *buf is advanced by len bytes (incrementing ->ptr and decrementing ->len), * and an aws_byte_cursor referring to the first len bytes of the original *buf * is returned. Otherwise, an aws_byte_cursor with ->ptr = NULL, ->len = 0 is * returned. * * Note that if len is above (SIZE_MAX / 2), this function will also treat it as * a buffer overflow, and return NULL without changing *buf. */ AWS_COMMON_API struct aws_byte_cursor aws_byte_cursor_advance(struct aws_byte_cursor *const cursor, const size_t len); /** * Behaves identically to aws_byte_cursor_advance, but avoids speculative * execution potentially reading out-of-bounds pointers (by returning an * empty ptr in such speculated paths). * * This should generally be done when using an untrusted or * data-dependent value for 'len', to avoid speculating into a path where * cursor->ptr points outside the true ptr length. */ AWS_COMMON_API struct aws_byte_cursor aws_byte_cursor_advance_nospec(struct aws_byte_cursor *const cursor, size_t len); /** * Reads specified length of data from byte cursor and copies it to the * destination array. * * On success, returns true and updates the cursor pointer/length accordingly. * If there is insufficient space in the cursor, returns false, leaving the * cursor unchanged. */ AWS_COMMON_API bool aws_byte_cursor_read( struct aws_byte_cursor *AWS_RESTRICT cur, void *AWS_RESTRICT dest, const size_t len); /** * Reads as many bytes from cursor as size of buffer, and copies them to buffer. * * On success, returns true and updates the cursor pointer/length accordingly. * If there is insufficient space in the cursor, returns false, leaving the * cursor unchanged. */ AWS_COMMON_API bool aws_byte_cursor_read_and_fill_buffer( struct aws_byte_cursor *AWS_RESTRICT cur, struct aws_byte_buf *AWS_RESTRICT dest); /** * Reads a single byte from cursor, placing it in *var. * * On success, returns true and updates the cursor pointer/length accordingly. * If there is insufficient space in the cursor, returns false, leaving the * cursor unchanged. */ AWS_COMMON_API bool aws_byte_cursor_read_u8(struct aws_byte_cursor *AWS_RESTRICT cur, uint8_t *AWS_RESTRICT var); /** * Reads a 16-bit value in network byte order from cur, and places it in host * byte order into var. * * On success, returns true and updates the cursor pointer/length accordingly. * If there is insufficient space in the cursor, returns false, leaving the * cursor unchanged. */ AWS_COMMON_API bool aws_byte_cursor_read_be16(struct aws_byte_cursor *cur, uint16_t *var); /** * Reads an unsigned 24-bit value (3 bytes) in network byte order from cur, * and places it in host byte order into 32-bit var. * Ex: if cur's next 3 bytes are {0xAA, 0xBB, 0xCC}, then var becomes 0x00AABBCC. * * On success, returns true and updates the cursor pointer/length accordingly. * If there is insufficient space in the cursor, returns false, leaving the * cursor unchanged. */ AWS_COMMON_API bool aws_byte_cursor_read_be24(struct aws_byte_cursor *cur, uint32_t *var); /** * Reads a 32-bit value in network byte order from cur, and places it in host * byte order into var. * * On success, returns true and updates the cursor pointer/length accordingly. * If there is insufficient space in the cursor, returns false, leaving the * cursor unchanged. */ AWS_COMMON_API bool aws_byte_cursor_read_be32(struct aws_byte_cursor *cur, uint32_t *var); /** * Reads a 64-bit value in network byte order from cur, and places it in host * byte order into var. * * On success, returns true and updates the cursor pointer/length accordingly. * If there is insufficient space in the cursor, returns false, leaving the * cursor unchanged. */ AWS_COMMON_API bool aws_byte_cursor_read_be64(struct aws_byte_cursor *cur, uint64_t *var); /** * Reads a 32-bit value in network byte order from cur, and places it in host * byte order into var. * * On success, returns true and updates the cursor pointer/length accordingly. * If there is insufficient space in the cursor, returns false, leaving the * cursor unchanged. */ AWS_COMMON_API bool aws_byte_cursor_read_float_be32(struct aws_byte_cursor *cur, float *var); /** * Reads a 64-bit value in network byte order from cur, and places it in host * byte order into var. * * On success, returns true and updates the cursor pointer/length accordingly. * If there is insufficient space in the cursor, returns false, leaving the * cursor unchanged. */ AWS_COMMON_API bool aws_byte_cursor_read_float_be64(struct aws_byte_cursor *cur, double *var); /** * Reads 2 hex characters from ASCII/UTF-8 text to produce an 8-bit number. * Accepts both lowercase 'a'-'f' and uppercase 'A'-'F'. * For example: "0F" produces 15. * * On success, returns true and advances the cursor by 2. * If there is insufficient space in the cursor or an invalid character * is encountered, returns false, leaving the cursor unchanged. */ AWS_COMMON_API bool aws_byte_cursor_read_hex_u8(struct aws_byte_cursor *cur, uint8_t *var); /** * Appends a sub-buffer to the specified buffer. * * If the buffer has at least `len' bytes remaining (buffer->capacity - buffer->len >= len), * then buffer->len is incremented by len, and an aws_byte_buf is assigned to *output corresponding * to the last len bytes of the input buffer. The aws_byte_buf at *output will have a null * allocator, a zero initial length, and a capacity of 'len'. The function then returns true. * * If there is insufficient space, then this function nulls all fields in *output and returns * false. */ AWS_COMMON_API bool aws_byte_buf_advance( struct aws_byte_buf *const AWS_RESTRICT buffer, struct aws_byte_buf *const AWS_RESTRICT output, const size_t len); /** * Write specified number of bytes from array to byte buffer. * * On success, returns true and updates the buffer length accordingly. * If there is insufficient space in the buffer, returns false, leaving the * buffer unchanged. */ AWS_COMMON_API bool aws_byte_buf_write( struct aws_byte_buf *AWS_RESTRICT buf, const uint8_t *AWS_RESTRICT src, size_t len); /** * Copies all bytes from buffer to buffer. * * On success, returns true and updates the buffer /length accordingly. * If there is insufficient space in the buffer, returns false, leaving the * buffer unchanged. */ AWS_COMMON_API bool aws_byte_buf_write_from_whole_buffer( struct aws_byte_buf *AWS_RESTRICT buf, struct aws_byte_buf src); /** * Copies all bytes from buffer to buffer. * * On success, returns true and updates the buffer /length accordingly. * If there is insufficient space in the buffer, returns false, leaving the * buffer unchanged. */ AWS_COMMON_API bool aws_byte_buf_write_from_whole_cursor( struct aws_byte_buf *AWS_RESTRICT buf, struct aws_byte_cursor src); /** * Without increasing buf's capacity, write as much as possible from advancing_cursor into buf. * * buf's len is updated accordingly. * advancing_cursor is advanced so it contains the remaining unwritten parts. * Returns the section of advancing_cursor which was written. * * This function cannot fail. If buf is full (len == capacity) or advancing_len has 0 length, * then buf and advancing_cursor are not altered and a cursor with 0 length is returned. * * Example: Given a buf with 2 bytes of space available and advancing_cursor with contents "abc". * "ab" will be written to buf and buf->len will increase 2 and become equal to buf->capacity. * advancing_cursor will advance so its contents become the unwritten "c". * The returned cursor's contents will be the "ab" from the original advancing_cursor. */ AWS_COMMON_API struct aws_byte_cursor aws_byte_buf_write_to_capacity( struct aws_byte_buf *buf, struct aws_byte_cursor *advancing_cursor); /** * Copies one byte to buffer. * * On success, returns true and updates the cursor /length accordingly. * * If there is insufficient space in the buffer, returns false, leaving the * buffer unchanged. */ AWS_COMMON_API bool aws_byte_buf_write_u8(struct aws_byte_buf *AWS_RESTRICT buf, uint8_t c); /** * Writes one byte repeatedly to buffer (like memset) * * If there is insufficient space in the buffer, returns false, leaving the * buffer unchanged. */ AWS_COMMON_API bool aws_byte_buf_write_u8_n(struct aws_byte_buf *buf, uint8_t c, size_t count); /** * Writes a 16-bit integer in network byte order (big endian) to buffer. * * On success, returns true and updates the buffer /length accordingly. * If there is insufficient space in the buffer, returns false, leaving the * buffer unchanged. */ AWS_COMMON_API bool aws_byte_buf_write_be16(struct aws_byte_buf *buf, uint16_t x); /** * Writes low 24-bits (3 bytes) of an unsigned integer in network byte order (big endian) to buffer. * Ex: If x is 0x00AABBCC then {0xAA, 0xBB, 0xCC} is written to buffer. * * On success, returns true and updates the buffer /length accordingly. * If there is insufficient space in the buffer, or x's value cannot fit in 3 bytes, * returns false, leaving the buffer unchanged. */ AWS_COMMON_API bool aws_byte_buf_write_be24(struct aws_byte_buf *buf, uint32_t x); /** * Writes a 32-bit integer in network byte order (big endian) to buffer. * * On success, returns true and updates the buffer /length accordingly. * If there is insufficient space in the buffer, returns false, leaving the * buffer unchanged. */ AWS_COMMON_API bool aws_byte_buf_write_be32(struct aws_byte_buf *buf, uint32_t x); /** * Writes a 32-bit float in network byte order (big endian) to buffer. * * On success, returns true and updates the buffer /length accordingly. * If there is insufficient space in the buffer, returns false, leaving the * buffer unchanged. */ AWS_COMMON_API bool aws_byte_buf_write_float_be32(struct aws_byte_buf *buf, float x); /** * Writes a 64-bit integer in network byte order (big endian) to buffer. * * On success, returns true and updates the buffer /length accordingly. * If there is insufficient space in the buffer, returns false, leaving the * buffer unchanged. */ AWS_COMMON_API bool aws_byte_buf_write_be64(struct aws_byte_buf *buf, uint64_t x); /** * Writes a 64-bit float in network byte order (big endian) to buffer. * * On success, returns true and updates the buffer /length accordingly. * If there is insufficient space in the buffer, returns false, leaving the * buffer unchanged. */ AWS_COMMON_API bool aws_byte_buf_write_float_be64(struct aws_byte_buf *buf, double x); /** * Like isalnum(), but ignores C locale. * Returns true if ch has the value of ASCII/UTF-8: 'a'-'z', 'A'-'Z', or '0'-'9'. */ AWS_COMMON_API bool aws_isalnum(uint8_t ch); /** * Like isalpha(), but ignores C locale. * Returns true if ch has the value of ASCII/UTF-8: 'a'-'z' or 'A'-'Z'. */ AWS_COMMON_API bool aws_isalpha(uint8_t ch); /** * Like isdigit(). * Returns true if ch has the value of ASCII/UTF-8: '0'-'9'. * * Note: C's built-in isdigit() is also supposed to ignore the C locale, * but cppreference.com claims "some implementations (e.g. Microsoft in 1252 codepage) * may classify additional single-byte characters as digits" */ AWS_COMMON_API bool aws_isdigit(uint8_t ch); /** * Like isxdigit(). * Returns true if ch has the value of ASCII/UTF-8: '0'-'9', 'a'-'f', or 'A'-'F'. * * Note: C's built-in isxdigit() is also supposed to ignore the C locale, * but cppreference.com claims "some implementations (e.g. Microsoft in 1252 codepage) * may classify additional single-byte characters as digits" */ AWS_COMMON_API bool aws_isxdigit(uint8_t ch); /** * Like isspace(), but ignores C locale. * Return true if ch has the value of ASCII/UTF-8: space (0x20), form feed (0x0C), * line feed (0x0A), carriage return (0x0D), horizontal tab (0x09), or vertical tab (0x0B). */ AWS_COMMON_API bool aws_isspace(uint8_t ch); AWS_EXTERN_C_END #endif /* AWS_COMMON_BYTE_BUF_H */