serval-dna/str.h

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/*
Serval string primitives
Copyright (C) 2012 Serval Project Inc.
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#ifndef __SERVAL_DNA__STR_H__
#define __SERVAL_DNA__STR_H__
#include <string.h>
#include <stdint.h>
#include <sys/types.h>
#include <ctype.h>
#include <alloca.h>
#ifndef __SERVAL_DNA__STR_INLINE
# if __GNUC__ && !__GNUC_STDC_INLINE__
# define __SERVAL_DNA__STR_INLINE extern inline
# else
# define __SERVAL_DNA__STR_INLINE inline
# endif
#endif
/* -------------------- Useful functions and macros -------------------- */
#define alloca_strdup(str) strcpy(alloca(strlen(str) + 1), (str))
int is_all_matching(const unsigned char *ptr, size_t len, unsigned char value);
char *str_toupper_inplace(char *s);
char *str_tolower_inplace(char *s);
/* -------------------- Hexadecimal strings -------------------- */
extern const char hexdigit_upper[16];
extern const char hexdigit_lower[16];
/* Return true iff 'len' bytes starting at 'text' are hex digits, upper or lower case.
* Does not check the following byte.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
__SERVAL_DNA__STR_INLINE int is_xsubstring(const char *text, int len)
{
while (len--)
if (!isxdigit(*text++))
return 0;
return 1;
}
/* Return true iff the nul-terminated string 'text' has length 'len' and consists only of hex
* digits, upper or lower case.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
__SERVAL_DNA__STR_INLINE int is_xstring(const char *text, int len)
{
while (len--)
if (!isxdigit(*text++))
return 0;
return *text == '\0';
}
/* Converts a given binary blob to uppercase ASCII hexadecimal with a NUL terminator on the end.
* 'dstHex' must point to a buffer of at least 'dstStrLen' + 1 bytes.
*/
char *tohex(char *dstHex, size_t dstStrlen, const unsigned char *srcBinary);
#define alloca_tohex(buf,bytes) tohex((char *)alloca((bytes)*2+1), (bytes) * 2, (buf))
/* Convert nbinary*2 ASCII hex characters [0-9A-Fa-f] to nbinary bytes of data. Can be used to
* perform the conversion in-place, eg, fromhex(buf, (char*)buf, n); Returns -1 if a non-hex-digit
* character is encountered, otherwise returns the number of binary bytes produced (= nbinary).
* Does not insist that the last hex digit is followed by a NUL or any particular character.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
size_t fromhex(unsigned char *dstBinary, const char *srcHex, size_t nbinary);
/* Convert nbinary*2 ASCII hex characters [0-9A-Fa-f] followed by a NUL '\0' character to nbinary
* bytes of data. Can be used to perform the conversion in-place, eg, fromhex(buf, (char*)buf, n);
* Returns -1 if a non-hex-digit character is encountered or the character immediately following the
* last hex digit is not a NUL, otherwise returns zero.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
int fromhexstr(unsigned char *dstBinary, const char *srcHex, size_t nbinary);
/* Decode pairs of ASCII hex characters [0-9A-Fa-f] into binary data with an optional upper limit on
* the number of binary bytes produced (destination buffer size). Returns the number of binary
* bytes decoded. If 'afterHex' is not NULL, then sets *afterHex to point to the source character
* immediately following the last hex digit consumed.
*
* Can be used to perform a conversion in-place, eg:
*
* strn_fromhex((unsigned char *)buf, n, (const char *)buf, NULL);
*
* Can also be used to count hex digits without converting, eg:
*
* strn_fromhex(NULL, -1, buf, NULL);
*
* The fromhex() and fromhexstr() functions are both implemented using strn_fromhex().
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
size_t strn_fromhex(unsigned char *dstBinary, ssize_t dstlen, const char *src, const char **afterp);
/* -------------------- Base64 encoding and decoding -------------------- */
/* Return the number of bytes required to represent 'binaryBytes' bytes of binary data encoded
* into Base64 form.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
#define BASE64_ENCODED_LEN(binaryBytes) (((size_t)(binaryBytes) + 2) / 3 * 4)
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/* Array of encoding symbols. Entry [64] is the pad character (usually '=').
*/
const char base64_symbols[65];
const char base64url_symbols[65];
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/* Encode 'srcBytes' bytes of binary data at 'srcBinary' into Base64 representation at 'dstBase64'
* (or Base64-URL representation at 'dstBase64url'), which must point to at least
* 'BASE64_ENCODED_LEN(srcBytes)' bytes. The encoding is terminated by a "=" or "==" pad to bring
* the total number of encoded bytes up to a multiple of 4.
*
* Returns the total number of encoded bytes writtent at 'dstBase64'.
*
* The base64_encodev() is a multi-buffer gather variant, analagous to readv(2) and writev(2).
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
size_t base64_encode(char *dstBase64, const unsigned char *srcBinary, size_t srcBytes);
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size_t base64url_encode(char *dstBase64url, const unsigned char *srcBinary, size_t srcBytes);
struct iovec;
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size_t base64_encode(char *dstBase64, const unsigned char *srcBinary, size_t srcBytes);
size_t base64url_encodev(char *dstBase64url, const struct iovec *iov, int iovcnt);
/* The same as base64_encode() but appends a terminating NUL character to the encoded string,
* so 'dstBase64' must point to at least 'BASE64_ENCODED_LEN(srcBytes) + 1' bytes.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
char *to_base64_str(char *dstBase64, const unsigned char *srcBinary, size_t srcBytes);
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char *to_base64url_str(char *dstBase64url, const unsigned char *srcBinary, size_t srcBytes);
#define alloca_base64(buf,len) to_base64_str(alloca(BASE64_ENCODED_LEN(len) + 1), (buf), (len))
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#define alloca_base64url(buf,len) to_base64url_str(alloca(BASE64_ENCODED_LEN(len) + 1), (buf), (len))
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/* Decode the string at 'srcBase64' as ASCII Base64 or Base64-URL (as per RFC-4648), writing up to
* 'dstsiz' decoded binary bytes at 'dstBinary'. Returns the number of decoded binary bytes
* produced. If 'dstsiz' is zero or 'dstBinary' is NULL, no binary bytes are produced and returns
* zero.
*
* If the 'afterp' pointer is not NULL, then sets *afterp to point to the first character in
* 'srcBase64' where decoding stopped for whatever reason.
*
* If 'srclen' is 0, then the string at 'stcBase64' is assumed to be NUL-terminated, and decoding
* runs until the first non-Base64-digit is encountered. If 'srclen' is nonzero, then decoding will
* cease at the first non-Base64-digit or when 'srclen' bytes at 'srcBase64' have been decoded,
* whichever comes first.
*
* If 'skip_pred' is not NULL, then all leading, internal and trailing characters C which are not a
* valid Base64 digit or pad '=' will be skipped if skip_pred(C) returns true. Otherwise, decoding
* ends at C.
*
* If the B64_CONSUME_ALL flag is set, then once the 'dstsiz' limit is reached (or if 'dstBinary' is
* NULL), the Base64 decoding process continues without actually writing decoded bytes, but instead
* counts them and advances through the 'srcBase64' buffer as usual. The return value is then the
* number of binary bytes that would be decoded were all available Base64 decoded from 'srcBase64',
* and *afterp points to the first character beyond the end of the decoded source characters.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
size_t base64_decode(unsigned char *dstBinary, size_t dstsiz, const char *const srcBase64, size_t srclen,
const char **afterp, int flags, int (*skip_pred)(char));
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size_t base64url_decode(unsigned char *dstBinary, size_t dstsiz, const char *const srcBase64url, size_t srclen,
const char **afterp, int flags, int (*skip_pred)(char));
#define B64_CONSUME_ALL (1 << 0)
/* -------------------- Character classes -------------------- */
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#define _SERVAL_CTYPE_0_BASE64_MASK 0x3f
#define _SERVAL_CTYPE_0_BASE64 (1 << 6)
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#define _SERVAL_CTYPE_0_BASE64URL (1 << 7)
#define _SERVAL_CTYPE_1_HEX_MASK 0xf
#define _SERVAL_CTYPE_1_HTTP_SEPARATOR (1 << 4)
#define _SERVAL_CTYPE_1_URI_SCHEME (1 << 5)
#define _SERVAL_CTYPE_1_URI_UNRESERVED (1 << 6)
#define _SERVAL_CTYPE_1_URI_RESERVED (1 << 7)
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#define _SERVAL_CTYPE_2_MULTIPART_BOUNDARY (1 << 0)
extern uint8_t _serval_ctype_0[UINT8_MAX];
extern uint8_t _serval_ctype_1[UINT8_MAX];
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extern uint8_t _serval_ctype_2[UINT8_MAX];
__SERVAL_DNA__STR_INLINE int is_http_char(char c) {
return isascii(c);
}
__SERVAL_DNA__STR_INLINE int is_http_ctl(char c) {
return iscntrl(c);
}
__SERVAL_DNA__STR_INLINE int is_base64_digit(char c) {
return (_serval_ctype_0[(unsigned char) c] & _SERVAL_CTYPE_0_BASE64) != 0;
}
__SERVAL_DNA__STR_INLINE int is_base64url_digit(char c) {
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return (_serval_ctype_0[(unsigned char) c] & _SERVAL_CTYPE_0_BASE64URL) != 0;
}
__SERVAL_DNA__STR_INLINE int is_base64_pad(char c) {
return c == '=';
}
__SERVAL_DNA__STR_INLINE int is_base64url_pad(char c) {
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return c == '=';
}
__SERVAL_DNA__STR_INLINE uint8_t base64_digit(char c) {
return _serval_ctype_0[(unsigned char) c] & _SERVAL_CTYPE_0_BASE64_MASK;
}
__SERVAL_DNA__STR_INLINE uint8_t base64url_digit(char c) {
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return _serval_ctype_0[(unsigned char) c] & _SERVAL_CTYPE_0_BASE64_MASK;
}
__SERVAL_DNA__STR_INLINE int is_multipart_boundary(char c) {
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return (_serval_ctype_2[(unsigned char) c] & _SERVAL_CTYPE_2_MULTIPART_BOUNDARY) != 0;
}
__SERVAL_DNA__STR_INLINE int is_valid_multipart_boundary_string(const char *s)
{
if (s[0] == '\0')
return 0;
for (; *s; ++s)
if (!is_multipart_boundary(*s))
return 0;
return s[-1] != ' ';
}
__SERVAL_DNA__STR_INLINE int is_http_separator(char c) {
return (_serval_ctype_1[(unsigned char) c] & _SERVAL_CTYPE_1_HTTP_SEPARATOR) != 0;
}
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__SERVAL_DNA__STR_INLINE int is_http_token(char c) {
return is_http_char(c) && !is_http_ctl(c) && !is_http_separator(c);
}
/* Convert the given ASCII hex digit character into its radix value, eg, '0' ->
* 0, 'b' -> 11. If the argument is not an ASCII hex digit, returns -1.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
__SERVAL_DNA__STR_INLINE int hexvalue(char c) {
return isxdigit(c) ? _serval_ctype_1[(unsigned char) c] & _SERVAL_CTYPE_1_HEX_MASK : -1;
}
/* -------------------- Printable string representation -------------------- */
char *toprint(char *dstStr, ssize_t dstBufSiz, const char *srcBuf, size_t srcBytes, const char quotes[2]);
char *toprint_str(char *dstStr, ssize_t dstBufSiz, const char *srcStr, const char quotes[2]);
size_t toprint_len(const char *srcBuf, size_t srcBytes, const char quotes[2]);
size_t toprint_str_len(const char *srcStr, const char quotes[2]);
size_t strn_fromprint(unsigned char *dst, size_t dstsiz, const char *src, size_t srclen, char endquote, const char **afterp);
#define alloca_toprint_quoted(dstlen,buf,len,quotes) toprint((char *)alloca((dstlen) == -1 ? toprint_len((const char *)(buf),(len), (quotes)) + 1 : (size_t)(dstlen)), (size_t)(dstlen), (const char *)(buf), (len), (quotes))
#define alloca_toprint(dstlen,buf,len) alloca_toprint_quoted(dstlen,buf,len,"``")
#define alloca_str_toprint_quoted(str, quotes) toprint_str((char *)alloca(toprint_str_len((str), (quotes)) + 1), -1, (str), (quotes))
#define alloca_str_toprint(str) alloca_str_toprint_quoted(str, "``")
/* -------------------- Useful string primitives -------------------- */
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/* Like strchr(3), but only looks for 'c' in the first 'n' characters of 's', stopping at the first
* nul char in 's'.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
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const char *strnchr(const char *s, size_t n, char c);
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/* Like strchr(3) and strrchr(3), but returns the index into the string instead of a pointer, or -1
* if the character is not found. The '_dfl' variants take a third argument that gives the default
* value to return if the character is not found.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
__SERVAL_DNA__STR_INLINE ssize_t str_index_dfl(const char *s, char c, ssize_t dfl)
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{
const char *r = strchr(s, c);
return r ? r - s : dfl;
}
__SERVAL_DNA__STR_INLINE ssize_t str_rindex_dfl(const char *s, char c, ssize_t dfl)
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{
const char *r = strrchr(s, c);
return r ? r - s : dfl;
}
__SERVAL_DNA__STR_INLINE ssize_t str_index(const char *s, char c)
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{
return str_index_dfl(s, c, -1);
}
__SERVAL_DNA__STR_INLINE ssize_t str_rindex(const char *s, char c)
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{
return str_rindex_dfl(s, c, -1);
}
/* Check if a given nul-terminated string 'str' starts with a given nul-terminated sub-string. If
* so, return 1 and, if afterp is not NULL, set *afterp to point to the character in 'str'
* immediately following the substring. Otherwise return 0.
*
* This function is used to parse HTTP headers and responses, which are typically not
* nul-terminated, but are held in a buffer which has an associated length. To avoid this function
* running past the end of the buffer, the caller must ensure that the buffer contains a sub-string
* that is not part of the sub-string being sought, eg, "\r\n\r\n" as detected by
* is_http_header_complete(). This guarantees that this function will return nonzero before running
* past the end of the buffer.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
int str_startswith(const char *str, const char *substring, const char **afterp);
/* Check if a given string 'str' of a given length 'len' starts with a given nul-terminated
* sub-string. If so, return 1 and, if afterp is not NULL, set *afterp to point to the character
* immediately following the substring. Otherwise return 0.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
int strn_startswith(const char *str, size_t len, const char *substring, const char **afterp);
/* Case-insensitive form of str_startswith().
* @author Andrew Bettison <andrew@servalproject.com>
*/
int strcase_startswith(const char *str, const char *substring, const char **afterp);
/* Case-insensitive form of strn_startswith().
* @author Andrew Bettison <andrew@servalproject.com>
*/
int strncase_startswith(const char *str, size_t len, const char *substring, const char **afterp);
/* Compare the given string 'str1' of a given length 'len1' with a given nul-terminated string
* 'str2'. Equivalent to { str1[len1] = '\0'; return strcmp(str1, str2); } except without modifying
* str1[].
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
int strn_str_cmp(const char *str1, size_t len1, const char *str2);
/* Compare case-insenstivively the given string 'str1' of a given length 'len1' with a given
* nul-terminated string 'str2'. Equivalent to { str1[len1] = '\0'; return strcasecmp(str1, str2);
* } except without modifying str1[].
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
int strn_str_casecmp(const char *str1, size_t len1, const char *str2);
/* like strstr(3), but doesn't depend on null termination.
*
* @author Paul Gardner-Stephen <paul@servalproject.org>
* @author Andrew Bettison <andrew@servalproject.com>
*/
char *str_str(char *haystack, const char *needle, size_t haystack_len);
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/* -------------------- Numeric strings -------------------- */
/* Returns 1 if the given nul-terminated string parses successfully as an unsigned 64-bit integer.
* Returns 0 if not. This is simply a shortcut for str_to_uint32(str, 10, NULL, NULL), which is
* convenient for when a pointer to a predicate function is needed.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
int str_is_uint64_decimal(const char *str);
/* Parse a NUL-terminated string as an integer in ASCII radix notation in the given 'base' (eg,
* base=10 means decimal).
*
* Returns 1 if a valid integer is parsed, storing the value in *result (unless result is NULL) and
* storing a pointer to the immediately succeeding character in *afterp. If afterp is NULL then
* returns 0 unless the immediately succeeding character is a NUL '\0'. If no integer is parsed or
* if the integer overflows (too many digits), then returns 0, leaving *result unchanged and setting
* setting *afterp to point to the character where parsing failed.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
int str_to_int32(const char *str, unsigned base, int32_t *result, const char **afterp);
int str_to_uint32(const char *str, unsigned base, uint32_t *result, const char **afterp);
int str_to_int64(const char *str, unsigned base, int64_t *result, const char **afterp);
int str_to_uint64(const char *str, unsigned base, uint64_t *result, const char **afterp);
/* Parse a length-bound string as an integer in ASCII radix notation in the given 'base' (eg,
* base=10 means decimal).
*
* Returns 1 if a valid integer is parsed, storing the value in *result (unless result is NULL) and
* storing a pointer to the immediately succeeding character in *afterp. If afterp is NULL then
* returns 0 unless all 'strlen' characters of the string were consumed. If no integer is parsed or
* if the integer overflows (too many digits), then returns 0, leaving *result unchanged and setting
* setting *afterp to point to the character where parsing failed.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
int strn_to_uint32(const char *str, size_t strlen, unsigned base, uint32_t *result, const char **afterp);
int strn_to_uint64(const char *str, size_t strlen, unsigned base, uint64_t *result, const char **afterp);
/* Parse a string as an integer in ASCII radix notation in the given 'base' (eg, base=10 means
* decimal) and scale the result by a factor given by an optional suffix "scaling" character in the
* set {kKmMgG}: 'k' = 1e3, 'K' = 1<<10, 'm' = 1e6, 'M' = 1<<20, 'g' = 1e9, 'G' = * 1<<30.
*
* Return 1 if a valid scaled integer was parsed, storing the value in *result (unless result is
* NULL) and storing a pointer to the immediately succeeding character in *afterp (unless afterp is
* NULL, in which case returns 1 only if the immediately succeeding character is a nul '\0').
* Returns 0 otherwise, leaving *result and *afterp unchanged.
*
* NOTE: an argument base > 16 will cause any trailing 'g' or 'G' character to be parsed as part of
* the integer, not as a scale suffix. Ditto for base > 20 and 'k' 'K', and base > 22 and 'm' 'M'.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
int str_to_int32_scaled(const char *str, unsigned base, int32_t *result, const char **afterp);
int str_to_uint32_scaled(const char *str, unsigned base, uint32_t *result, const char **afterp);
int str_to_int64_scaled(const char *str, unsigned base, int64_t *result, const char **afterp);
int str_to_uint64_scaled(const char *str, unsigned base, uint64_t *result, const char **afterp);
uint64_t scale_factor(const char *str, const char **afterp);
/* Format a string as a decimal integer in ASCII radix notation with a scale suffix character in the
* set {kKmMgG}: 'k' = 1e3, 'K' = 1<<10, 'm' = 1e6, 'M' = 1<<20, 'g' = 1e9, 'G' = * 1<<30 if the
* value is an exact multiple.
*
* Return 1 if the supplied string buffer was large enough to hold the formatted result plus a
* terminating nul character, 0 otherwise.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
int uint32_scaled_to_str(char *str, size_t len, uint32_t value);
int uint64_scaled_to_str(char *str, size_t len, uint64_t value);
/* Parse a string as a time interval (seconds) in millisecond resolution. Return the number of
* milliseconds. Valid strings are all unsigned ASCII decimal numbers with up to three digits after
* the decimal point.
*
* Return 1 if a valid interval was parsed, storing the number of milliseconds in *result (unless
* result is NULL) and storing a pointer to the immediately succeeding character in *afterp (unless
* afterp is NULL, in which case returns 1 only if the immediately succeeding character is a nul
* '\0'). Returns 0 otherwise, leaving *result and *afterp unchanged.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
int str_to_uint64_interval_ms(const char *str, int64_t *result, const char **afterp);
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/* -------------------- URI strings -------------------- */
/* Return true if the string resembles a nul-terminated URI.
* Based on RFC-3986 generic syntax, assuming nothing about the hierarchical part.
*
* uri := scheme ":" hierarchical [ "?" query ] [ "#" fragment ]
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
int str_is_uri(const char *uri);
__SERVAL_DNA__STR_INLINE int is_uri_char_scheme(char c) {
return (_serval_ctype_1[(unsigned char) c] & _SERVAL_CTYPE_1_URI_SCHEME) != 0;
}
__SERVAL_DNA__STR_INLINE int is_uri_char_unreserved(char c) {
return (_serval_ctype_1[(unsigned char) c] & _SERVAL_CTYPE_1_URI_UNRESERVED) != 0;
}
__SERVAL_DNA__STR_INLINE int is_uri_char_reserved(char c) {
return (_serval_ctype_1[(unsigned char) c] & _SERVAL_CTYPE_1_URI_RESERVED) != 0;
}
/* Return true if the string resembles a URI scheme without the terminating colon.
* Based on RFC-3986 generic syntax.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
__SERVAL_DNA__STR_INLINE int str_is_uri_scheme(const char *scheme)
{
if (!isalpha(*scheme++))
return 0;
while (is_uri_char_scheme(*scheme))
++scheme;
return *scheme == '\0';
}
/* Pick apart a URI into its basic parts.
*
* uri := scheme ":" hierarchical [ "?" query ] [ "#" fragment ]
*
* Based on RFC-3986 generic syntax, assuming nothing about the hierarchical
* part. If the respective part is found, sets (*partp) to point to the start
* of the part within the supplied 'uri' string, sets (*lenp) to the length of
* the part substring and returns 1. Otherwise returns 0. These functions
* do not reliably validate that the string in 'uri' is a valid URI; that must
* be done by calling str_is_uri().
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
int str_uri_scheme(const char *uri, const char **partp, size_t *lenp);
int str_uri_hierarchical(const char *uri, const char **partp, size_t *lenp);
int str_uri_query(const char *uri, const char **partp, size_t *lenp);
int str_uri_fragment(const char *uri, const char **partp, size_t *lenp);
/* Pick apart a URI hierarchical part into its basic parts.
*
* hierarchical := "//" authority [ "/" path ]
*
* If the respective part is found, sets (*partp) to point to the start of the
* part within the supplied 'uri' string, sets (*lenp) to the length of the
* part substring and returns 1. Otherwise returns 0.
*
* These functions may be called directly on the part returned by
* str_uri_hierarchical(), even though it is not nul-terminated, because they
* treat "?" and "#" as equally valid terminators.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
int str_uri_hierarchical_authority(const char *hier, const char **partp, size_t *lenp);
int str_uri_hierarchical_path(const char *hier, const char **partp, size_t *lenp);
/* Pick apart a URI authority into its basic parts.
*
* authority := [ username ":" password "@" ] hostname [ ":" port ]
*
* If the respective part is found, sets (*partp) to point to the start of the
* part within the supplied 'uri' string, sets (*lenp) to the length of the
* part substring and returns 1. Otherwise returns 0.
*
* These functions may be called directly on the part returned by
* str_uri_hierarchical_authority(), even though it is not nul-terminated,
* because they treat "/", "?" and "#" as equally valid terminators.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
int str_uri_authority_username(const char *auth, const char **partp, size_t *lenp);
int str_uri_authority_password(const char *auth, const char **partp, size_t *lenp);
int str_uri_authority_hostname(const char *auth, const char **partp, size_t *lenp);
int str_uri_authority_port(const char *auth, uint16_t *portp);
2014-11-12 23:29:51 +00:00
/* -------------------- Command-line strings -------------------- */
2012-09-27 06:57:37 +00:00
int parse_argv(char *cmdline, char delim, char **argv, int max_argv);
#endif // __SERVAL_DNA__STR_H__