/* sexp.h * * Parsing s-expressions. */ /* nettle, low-level cryptographics library * * Copyright (C) 2002 Niels Möller * * The nettle library is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2.1 of the License, or (at your * option) any later version. * * The nettle library 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 Lesser General Public * License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with the nettle library; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, * MA 02111-1307, USA. */ #ifndef NETTLE_SEXP_H_INCLUDED #define NETTLE_SEXP_H_INCLUDED #include #include "nettle-types.h" /* Name mangling */ #define sexp_iterator_first nettle_sexp_iterator_first #define sexp_transport_iterator_first nettle_sexp_transport_iterator_first #define sexp_iterator_next nettle_sexp_iterator_next #define sexp_iterator_enter_list nettle_sexp_iterator_enter_list #define sexp_iterator_exit_list nettle_sexp_iterator_exit_list #define sexp_iterator_subexpr nettle_sexp_iterator_subexpr #define sexp_iterator_get_uint32 nettle_sexp_iterator_get_uint32 #define sexp_iterator_check_type nettle_sexp_iterator_check_type #define sexp_iterator_check_types nettle_sexp_iterator_check_types #define sexp_iterator_assoc nettle_sexp_iterator_assoc #define sexp_format nettle_sexp_format #define sexp_vformat nettle_sexp_vformat #define sexp_transport_format nettle_sexp_transport_format #define sexp_transport_vformat nettle_sexp_transport_vformat #define sexp_token_chars nettle_sexp_token_chars enum sexp_type { SEXP_ATOM, SEXP_LIST, SEXP_END }; struct sexp_iterator { unsigned length; const uint8_t *buffer; /* Points at the start of the current sub expression. */ unsigned start; /* If type is SEXP_LIST, pos points at the start of the current * element. Otherwise, it points at the end. */ unsigned pos; unsigned level; enum sexp_type type; unsigned display_length; const uint8_t *display; unsigned atom_length; const uint8_t *atom; }; /* All these functions return 1 on success, 0 on failure */ /* Initializes the iterator. */ int sexp_iterator_first(struct sexp_iterator *iterator, unsigned length, const uint8_t *input); /* NOTE: Decodes the input string in place */ int sexp_transport_iterator_first(struct sexp_iterator *iterator, unsigned length, uint8_t *input); int sexp_iterator_next(struct sexp_iterator *iterator); /* Current element must be a list. */ int sexp_iterator_enter_list(struct sexp_iterator *iterator); /* Skips the rest of the current list */ int sexp_iterator_exit_list(struct sexp_iterator *iterator); #if 0 /* Skips out of as many lists as necessary to get back to the given * level. */ int sexp_iterator_exit_lists(struct sexp_iterator *iterator, unsigned level); #endif /* Gets start and length of the current subexpression. Implies * sexp_iterator_next. */ const uint8_t * sexp_iterator_subexpr(struct sexp_iterator *iterator, unsigned *length); int sexp_iterator_get_uint32(struct sexp_iterator *iterator, uint32_t *x); /* Checks the type of the current expression, which should be a list * * ( ...) */ int sexp_iterator_check_type(struct sexp_iterator *iterator, const uint8_t *type); const uint8_t * sexp_iterator_check_types(struct sexp_iterator *iterator, unsigned ntypes, const uint8_t * const *types); /* Current element must be a list. Looks up element of type * * (key rest...) * * For a matching key, the corresponding iterator is initialized * pointing at the start of REST. * * On success, exits the current list. */ int sexp_iterator_assoc(struct sexp_iterator *iterator, unsigned nkeys, const uint8_t * const *keys, struct sexp_iterator *values); /* Output functions. What is a reasonable API for this? It seems * ugly to have to reimplement string streams. */ /* Declared for real in buffer.h */ struct nettle_buffer; /* Returns the number of output characters, or 0 on out of memory. If * buffer == NULL, just compute length. * * Format strings can contained matched parentheses, tokens ("foo" in * the format string is formatted as "3:foo"), whitespace (which * separates tokens but is otherwise ignored) and the following * formatting specifiers: * * %s String represented as unsigned length, const uint8_t *data. * * %t Optional display type, represented as * unsigned display_length, const uint8_t *display, * display == NULL means no display type. * * %i Non-negative small integer, uint32_t. * * %b Non-negative bignum, mpz_t. * * %l Literal string (no length added), typically a balanced * subexpression. Represented as unsigned length, const uint8_t * *data. * * %(, %) Allows insertion of unbalanced parenthesis. * * Modifiers: * * %0 For %s, %t and %l, says that there's no length argument, * instead the string is NUL-terminated, and there's only one * const uint8_t * argument. */ unsigned sexp_format(struct nettle_buffer *buffer, const char *format, ...); unsigned sexp_vformat(struct nettle_buffer *buffer, const char *format, va_list args); /* FIXME: Add argument LINE_WIDTH. If non-zero, break lines to at most * that width. */ unsigned sexp_transport_format(struct nettle_buffer *buffer, const char *format, ...); unsigned sexp_transport_vformat(struct nettle_buffer *buffer, const char *format, va_list args); /* Classification for advanced syntax. */ extern const char sexp_token_chars[0x80]; #define TOKEN_CHAR(c) ((c) < 0x80 && sexp_token_chars[(c)]) #endif /* NETTLE_SEXP_H_INCLUDED */