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6eb08ae805
Add cf_fmt_xxx() functions for converting configuration structs into a config object model tree.
632 lines
27 KiB
C
632 lines
27 KiB
C
/*
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Serval DNA configuration
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Copyright (C) 2012 Serval Project Inc.
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*/
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/* This file defines the internal API to the configuration file. See "conf_schema.h" for the
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* definition of the configuration schema, which is used to generate these API components.
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*
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* Each STRUCT(NAME, ...) schema declaration generates the following data declaration:
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*
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* struct config_NAME {
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* ...
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* };
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*
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* A C struct definition containing exactly one element per schema declaration inside the
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* STRUCT..END_STRUCT block, in the defined order. The TYPE and NAME of each element depends
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* on the schema declaration that produces it:
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*
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* ATOM(TYPE, bar, ...)
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* NODE(TYPE, bar, ...)
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*
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* TYPE bar;
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*
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* STRING(SIZE, bar, ...)
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*
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* char bar[SIZE+1];
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*
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* SUB_STRUCT(NAME, bar, ...)
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* NODE_STRUCT(NAME, bar, ...)
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*
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* struct config_NAME bar;
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*
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* Each ARRAY(NAME, ...) ... END_ARRAY(SIZE) schema declaration produces the following data
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* declaration:
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*
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* struct config_NAME {
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* unsigned ac;
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* struct config_NAME__element {
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* KEY-DECLARATION;
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* VALUE-DECLARATION;
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* } av[SIZE];
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* };
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*
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* A C struct definition containing a count 'ac' of the number of array elements 0..SIZE-1,
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* and 'av' an array of element values, each one consisting of a key and a value:
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*
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* KEY_ATOM(TYPE, ...)
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*
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* TYPE key;
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*
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* KEY_STRING(SIZE, ...)
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*
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* char key[SIZE+1];
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*
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* VALUE_ATOM(NAME, SIZE, LABELLEN, TYPE, ...)
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* VALUE_NODE(NAME, SIZE, LABELLEN, TYPE, ...)
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*
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* TYPE value;
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*
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* VALUE_STRING(STRINGSIZE, ...)
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*
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* char value[STRINGSIZE+1];
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*
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* VALUE_SUB_STRUCT(STRUCTNAME)
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* VALUE_NODE_STRUCT(STRUCTNAME, ...)
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*
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* struct config_STRUCTNAME value;
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*
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* Each STRUCT(NAME, ...) and ARRAY(NAME, ...) schema declaration generates the following API
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* functions:
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*
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* - int cf_dfl_config_NAME(struct config_NAME *dest);
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*
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* A C function which sets the entire contents of the given C structure to its default values
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* as defined in the schema. This will only return CFOK or CFERROR; see below.
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*
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* - int cf_opt_config_NAME(struct config_NAME *dest, const struct cf_om_node *node);
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*
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* A C function which parses the given COM (configuration object model) and assigns the parsed
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* result into the given C structure. See below for the return value. For arrays, this
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* function is used to parse each individual array element, and the parsed result is only
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* appended to the array if it returns CFOK.
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*
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* If a STRUCT(NAME, VALIDATOR) or ARRAY(NAME, FLAGS, VALIDATOR) schema declaration is given a
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* validator function, then the function must have the following signature:
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*
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* - int VALIDATOR(struct config_NAME *dest, int orig_result);
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*
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* A C function which validates the contents of the given C structure (struct or array) as
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* defined in the schema. This function is invoked by the cf_opt_config_NAME() parser function
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* just before it returns, so all the parse functions have already been called and the result
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* is assembled. The validator function is passed a pointer to the (non-const) structure,
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* which it may modify if desired, and the original CFxxx flags result code (not CFERROR) that
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* would be returned by the cf_opt_config_NAME() parser function. It returns a new CFxxx flags
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* result (which may simply be the same as was passed).
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*
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* In the case arrays, validator() is passed a *dest containing elements that were successfully
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* parsed from the COM, omitting any that did not parse successfully (in which case the
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* relevant CFxxx result flags will be set) and arbitrarily omitting others that did not fit
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* (in which case the CFOVERFLOW flag is set). It is up to validator() to decide whether to
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* return some, all or none of these elements (ie, alter dest->ac and/or dest->av), and whether
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* to set or clear the CFARRAYOVERFLOW bit, or set other bits (like CFINVALID for example). If
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* there is no validator function, then cf_opt_config_NAME() will return an empty array (dest->ac
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* == 0) in the case of CFARRAYOVERFLOW.
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*
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* All parse functions assign the result of their parsing into the struct given in their 'dest'
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* argument, and return a bitmask of the following flags:
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*
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* - CFERROR (all bits set, == -1) if an unrecoverable error occurs (eg, malloc() fails). The
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* result in *dest is undefined and may be malformed or inconsistent.
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*
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* - CFEMPTY if no items were parsed from the COM. In the case of a struct, this means that no
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* child nodes were found for any elements; if any child nodes were present but failed parsing
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* then CFEMPTY is not set but other flags will be set. In the case of arrays, CFEMPTY means
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* that the returned array has zero length for _any_ reason (overflow, element parsing failures,
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* or no elements present in the COM).
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*
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* - CFUNSUPPORTED if the config item (array or struct) is not supported. This flag is not
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* produced by the normal cf_opt_config_NAME() parse functions, but a validation function could set
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* it to indicate that a given option is not yet implemented or has been deprecated. In that
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* case, the validation function should also log a message to that effect. The CFUNSUPPORTED
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* flag is mainly used in its CFSUB(CFUNSUPPORTED) form (see below) to indicate that the COM
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* contains elements that are not defined in the STRUCT. This may indicate a typo in the name
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* of a config option, resulting in the intended option not being set.
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*
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* - CFDUPLICATE if a duplicate array entry was found. The result may be an empty array (in which
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* case CFEMPTY is also set), or an array that omits the duplicate element. It is not defined
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* which of the two conflicting elements will get omitted. Normal array parsing without a
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* validator function will return an empty array in the case of duplicate, but a validator
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* function may change this behaviour.
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*
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* - CFARRAYOVERFLOW if the size of any array was exceeded. The result in *dest may be empty (in
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* which case CFEMPTY is also set), or may contain elements parsed successfully from the COM (ie,
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* returned CFOK), omitting any that did not parse successfully (in which case the relevant
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* CFSUB() bits will be set) and arbitrarily omitting others that did not fit. It is not defined
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* which elements get omitted from an overflowed array. Normal array parsing without a validator
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* function will return an empty array in the case of overflow, but a validator function may
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* change this behaviour.
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*
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* - CFSTRINGFOVERFLOW if the size of any string element was exceeded. The result in *dest may be
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* unchanged or may contain a truncated string, depending on the parser that detected and
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* reported the string overflow.
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*
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* - CFINCOMPLETE if any MANDATORY element is missing (no node in the COM) or empty (as indicated
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* by the CFEMPTY bit in its parse result). The result in *dest is valid but the missing
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* mandatory element(s) are unchanged (in the case of a struct) or zero-length (in the case of an
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* array).
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*
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* - CFINVALID if any invalid configuration value was encountered, ie, any parse function returned
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* CFINVALID in its return flags. The result in *dest is valid and the elements that failed
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* to parse are unchanged.
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*
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* - CFSUB(CFxxx) if any element of a STRUCT or ARRAY produced a CFxxx result when being parsed, ie
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* any element's parse function returned CFxxx. In the case of a STRUCT, the failed elements are
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* usually left with their prior (default) values, but this depends on the parse functions'
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* behaviours. In the case of an ARRAY, failed elements are omitted from the array
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*
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* The difference between CFSUB(CFxxx) and CFxxx needs explaining. To illustrate, CFSUB(CFINVALID)
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* is different from CFINVALID because an element of a struct or array may have failed to parse, yet
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* the whole struct or array itself may still be valid (in the case of a struct, the element's prior
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* value may be retained, and in the case of an array, the failed element is simply omitted from the
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* result). A validator function may wish to reflect any CFSUB() bit as a CFINVALID result, but the
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* normal behaviour of cf_opt_config_NAME() is to not return CFINVALID unless the validator function
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* sets it.
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*
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* The special value CFOK is zero (no bits set); in this case a valid result is produced and all of
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* *dest is overwritten (except unused array elements).
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*
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* @author Andrew Bettison <andrew@servalproject.com>
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*/
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#ifndef __SERVALDNA_CONFIG_H
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#define __SERVALDNA_CONFIG_H
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#include <stdint.h>
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#include <arpa/inet.h>
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#include "constants.h"
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#include "strbuf.h"
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#include "serval.h"
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#include "rhizome.h"
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#define CONFIG_FILE_MAX_SIZE (32 * 1024)
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#define INTERFACE_NAME_STRLEN 40
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/* Return bit flags for config schema default cf_dfl_xxx() and parsing cf_opt_xxx() functions. */
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#define CFERROR (~0) // all set
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#define CFOK 0
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#define CFEMPTY (1<<0)
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#define CFDUPLICATE (1<<1)
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#define CFARRAYOVERFLOW (1<<2)
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#define CFSTRINGOVERFLOW (1<<3)
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#define CFINCOMPLETE (1<<4)
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#define CFINCOMPATIBLE (1<<5)
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#define CFINVALID (1<<6)
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#define CFUNSUPPORTED (1<<7)
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#define CF__SUB_SHIFT 16
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#define CFSUB(f) ((f) << CF__SUB_SHIFT)
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#define CF__SUBFLAGS CFSUB(~0)
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#define CF__FLAGS (~0 & ~CF__SUBFLAGS)
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strbuf strbuf_cf_flags(strbuf, int);
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strbuf strbuf_cf_flag_reason(strbuf sb, int flags);
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/* The Configuration Object Model (COM). The config file is parsed into a tree of these structures
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* first, then those structures are passed as arguments to the schema parsing functions.
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*/
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struct cf_om_node {
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const char *source; // = parse_config() 'source' arg
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unsigned int line_number;
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const char *fullkey; // malloc()
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const char *key; // points inside fullkey, do not free()
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const char *text; // malloc()
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size_t nodc;
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struct cf_om_node *nodv[10]; // malloc()
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};
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int is_configvarname(const char *);
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int is_configvarpattern(const char *);
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int cf_om_parse(const char *source, const char *buf, size_t len, struct cf_om_node **rootp);
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int cf_om_get_child(const struct cf_om_node *parent, const char *key, const char *keyend);
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const char *cf_om_get(const struct cf_om_node *root, const char *fullkey);
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int cf_om_set(struct cf_om_node **nodep, const char *fullkey, const char *text);
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int cf_om_add_child(struct cf_om_node **const parentp, const char *const key);
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void cf_om_remove_child(struct cf_om_node **parent, unsigned n);
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void cf_om_free_node(struct cf_om_node **nodep);
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void cf_om_dump_node(const struct cf_om_node *node, int indent);
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int cf_om_match(const char *pattern, const struct cf_om_node *node);
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struct cf_om_iterator {
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const struct cf_om_node *node;
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unsigned sp;
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struct {
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const struct cf_om_node *node;
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unsigned index;
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} stack[20];
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};
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void cf_om_iter_start(struct cf_om_iterator *, const struct cf_om_node *);
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int cf_om_iter_next(struct cf_om_iterator *);
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struct cf_om_node *cf_om_root;
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int cf_om_load();
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int cf_om_reload();
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int cf_om_save();
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/* Diagnostic functions for use in config schema parsing functions, cf_opt_xxx(). */
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void _cf_warn_nodev(struct __sourceloc __whence, const struct cf_om_node *node, const char *key, const char *fmt, va_list ap);
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void _cf_warn_childrenv(struct __sourceloc __whence, const struct cf_om_node *parent, const char *fmt, va_list ap);
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void _cf_warn_node(struct __sourceloc __whence, const struct cf_om_node *node, const char *key, const char *fmt, ...);
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void _cf_warn_children(struct __sourceloc __whence, const struct cf_om_node *node, const char *fmt, ...);
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void _cf_warn_duplicate_node(struct __sourceloc __whence, const struct cf_om_node *parent, const char *key);
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void _cf_warn_missing_node(struct __sourceloc __whence, const struct cf_om_node *parent, const char *key);
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void _cf_warn_node_value(struct __sourceloc __whence, const struct cf_om_node *node, int reason);
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void _cf_warn_no_array(struct __sourceloc __whence, const struct cf_om_node *node, int reason);
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void _cf_warn_unsupported_node(struct __sourceloc __whence, const struct cf_om_node *node);
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void _cf_warn_unsupported_children(struct __sourceloc __whence, const struct cf_om_node *parent);
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void _cf_warn_list_overflow(struct __sourceloc __whence, const struct cf_om_node *node);
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void _cf_warn_incompatible(struct __sourceloc __whence, const struct cf_om_node *node, const struct cf_om_node *orig);
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void _cf_warn_incompatible_children(struct __sourceloc __whence, const struct cf_om_node *parent);
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void _cf_warn_array_key(struct __sourceloc __whence, const struct cf_om_node *node, int reason);
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void _cf_warn_array_value(struct __sourceloc __whence, const struct cf_om_node *node, int reason);
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#define cf_warn_nodev(node, key, fmt, ap) _cf_warn_nodev(__WHENCE__, node, key, fmt, ap)
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#define cf_warn_childrenv(parent, fmt, ap) _cf_warn_childrenv(__WHENCE__, parent, fmt, ap)
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#define cf_warn_node(node, key, fmt, ...) _cf_warn_node(__WHENCE__, node, key, fmt, ##__VA_ARGS__)
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#define cf_warn_children(node, fmt, ...) _cf_warn_children(__WHENCE__, node, fmt, ##__VA_ARGS__)
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#define cf_warn_duplicate_node(parent, key) _cf_warn_duplicate_node(__WHENCE__, parent, key)
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#define cf_warn_missing_node(parent, key) _cf_warn_missing_node(__WHENCE__, parent, key)
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#define cf_warn_node_value(node, reason) _cf_warn_node_value(__WHENCE__, node, reason)
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#define cf_warn_no_array(node, reason) _cf_warn_no_array(__WHENCE__, node, reason)
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#define cf_warn_unsupported_node(node) _cf_warn_unsupported_node(__WHENCE__, node)
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#define cf_warn_unsupported_children(parent) _cf_warn_unsupported_children(__WHENCE__, parent)
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#define cf_warn_list_overflow(node) _cf_warn_list_overflow(__WHENCE__, node)
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#define cf_warn_incompatible(node, orig) _cf_warn_incompatible(__WHENCE__, node, orig)
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#define cf_warn_incompatible_children(parent) _cf_warn_incompatible_children(__WHENCE__, parent)
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#define cf_warn_array_key(node, reason) _cf_warn_array_key(__WHENCE__, node, reason)
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#define cf_warn_array_value(node, reason) _cf_warn_array_value(__WHENCE__, node, reason)
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struct pattern_list {
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unsigned patc;
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char patv[16][INTERFACE_NAME_STRLEN + 1];
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};
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#define PATTERN_LIST_EMPTY ((struct pattern_list){.patc = 0})
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// Generate config struct definitions, struct config_NAME.
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#define STRUCT(__name, __validator...) \
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struct config_##__name {
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#define NODE(__type, __element, __default, __repr, __flags, __comment) \
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__type __element;
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#define ATOM(__type, __element, __default, __repr, __flags, __comment) \
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__type __element;
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#define STRING(__size, __element, __default, __repr, __flags, __comment) \
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char __element[__size + 1];
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#define SUB_STRUCT(__name, __element, __flags) \
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struct config_##__name __element;
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#define NODE_STRUCT(__name, __element, __repr, __flags) \
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struct config_##__name __element;
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#define END_STRUCT \
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};
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#define ARRAY(__name, __flags, __validator...) \
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struct config_##__name { \
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unsigned ac; \
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struct config_##__name##__element {
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#define KEY_ATOM(__type, __keyrepr, __cmpfunc...) \
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__type key;
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#define KEY_STRING(__strsize, __keyrepr, __cmpfunc...) \
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char key[(__strsize) + 1];
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#define VALUE_ATOM(__type, __eltrepr) \
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__type value;
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#define VALUE_STRING(__strsize, __eltrepr) \
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char value[(__strsize) + 1];
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#define VALUE_NODE(__type, __eltrepr) \
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__type value;
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#define VALUE_SUB_STRUCT(__structname) \
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struct config_##__structname value;
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#define VALUE_NODE_STRUCT(__structname, __eltrepr) \
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struct config_##__structname value;
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#define END_ARRAY(__size) \
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} av[(__size)]; \
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};
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#include "conf_schema.h"
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#undef STRUCT
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#undef NODE
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#undef ATOM
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#undef STRING
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#undef SUB_STRUCT
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#undef NODE_STRUCT
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#undef END_STRUCT
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#undef ARRAY
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#undef KEY_ATOM
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#undef KEY_STRING
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#undef VALUE_ATOM
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#undef VALUE_STRING
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#undef VALUE_NODE
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#undef VALUE_SUB_STRUCT
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#undef VALUE_NODE_STRUCT
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#undef END_ARRAY
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// Generate config function prototypes, cf_dfl_config_NAME(), cf_sch_config_NAME().
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#define STRUCT(__name, __validator...) \
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int cf_dfl_config_##__name(struct config_##__name *s); \
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int cf_sch_config_##__name(struct cf_om_node **parentp);
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#define NODE(__type, __element, __default, __repr, __flags, __comment)
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#define ATOM(__type, __element, __default, __repr, __flags, __comment)
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#define STRING(__size, __element, __default, __repr, __flags, __comment)
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#define SUB_STRUCT(__name, __element, __flags)
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#define NODE_STRUCT(__name, __element, __repr, __flags)
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#define END_STRUCT
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#define ARRAY(__name, __flags, __validator...) \
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int cf_dfl_config_##__name(struct config_##__name *a); \
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int cf_sch_config_##__name(struct cf_om_node **parentp);
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#define KEY_ATOM(__type, __keyrepr, __cmpfunc...)
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#define KEY_STRING(__strsize, __keyrepr, __cmpfunc...)
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#define VALUE_ATOM(__type, __eltrepr)
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#define VALUE_STRING(__strsize, __eltrepr)
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#define VALUE_NODE(__type, __eltrepr)
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#define VALUE_SUB_STRUCT(__structname)
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#define VALUE_NODE_STRUCT(__structname, __eltrepr)
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#define END_ARRAY(__size)
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#include "conf_schema.h"
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#undef STRUCT
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#undef NODE
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#undef ATOM
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#undef STRING
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#undef SUB_STRUCT
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#undef NODE_STRUCT
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#undef END_STRUCT
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#undef ARRAY
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#undef KEY_ATOM
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#undef KEY_STRING
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#undef VALUE_ATOM
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#undef VALUE_STRING
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#undef VALUE_NODE
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#undef VALUE_SUB_STRUCT
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#undef VALUE_NODE_STRUCT
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#undef END_ARRAY
|
|
|
|
// Generate config parser function prototypes: cf_opt_REPR(), cf_fmt_REPR(), cf_cmp_REPR()
|
|
#define __VALIDATOR(__name, __validator...) \
|
|
typedef int __validator_func__config_##__name##__t(const struct cf_om_node *, struct config_##__name *, int); \
|
|
__validator_func__config_##__name##__t __dummy__validator_func__config_##__name, ##__validator;
|
|
#define STRUCT(__name, __validator...) \
|
|
int cf_opt_config_##__name(struct config_##__name *, const struct cf_om_node *); \
|
|
int cf_fmt_config_##__name(struct cf_om_node **, const struct config_##__name *); \
|
|
__VALIDATOR(__name, ##__validator)
|
|
#define NODE(__type, __element, __default, __repr, __flags, __comment) \
|
|
int cf_opt_##__repr(__type *, const struct cf_om_node *); \
|
|
int cf_fmt_##__repr(struct cf_om_node **, const __type *);
|
|
#define ATOM(__type, __element, __default, __repr, __flags, __comment) \
|
|
int cf_opt_##__repr(__type *, const char *); \
|
|
int cf_fmt_##__repr(const char **, const __type *);
|
|
#define STRING(__size, __element, __default, __repr, __flags, __comment) \
|
|
int cf_opt_##__repr(char *, size_t, const char *); \
|
|
int cf_fmt_##__repr(const char **, const char *);
|
|
#define SUB_STRUCT(__structname, __element, __flags) \
|
|
int cf_opt_config_##__structname(struct config_##__structname *, const struct cf_om_node *); \
|
|
int cf_fmt_config_##__structname(struct cf_om_node **, const struct config_##__structname *);
|
|
#define NODE_STRUCT(__structname, __element, __repr, __flags) \
|
|
SUB_STRUCT(__structname, __element, __flags) \
|
|
int cf_opt_##__repr(struct config_##__structname *, const struct cf_om_node *); \
|
|
int cf_fmt_##__repr(struct cf_om_node **, const struct config_##__structname *);
|
|
#define END_STRUCT
|
|
#define ARRAY(__name, __flags, __validator...) \
|
|
int cf_opt_config_##__name(struct config_##__name *, const struct cf_om_node *); \
|
|
int cf_fmt_config_##__name(struct cf_om_node **, const struct config_##__name *); \
|
|
__VALIDATOR(__name, ##__validator)
|
|
#define KEY_ATOM(__type, __keyrepr, __cmpfunc...) \
|
|
int cf_opt_##__keyrepr(__type *, const char *); \
|
|
int cf_fmt_##__keyrepr(const char **, const __type *);
|
|
#define KEY_STRING(__strsize, __keyrepr, __cmpfunc...) \
|
|
int cf_opt_##__keyrepr(char *, size_t, const char *); \
|
|
int cf_fmt_##__keyrepr(const char **, const char *);
|
|
#define VALUE_ATOM(__type, __eltrepr) \
|
|
int cf_opt_##__eltrepr(__type *, const char *); \
|
|
int cf_fmt_##__eltrepr(const char **, const __type *);
|
|
#define VALUE_STRING(__strsize, __eltrepr) \
|
|
int cf_opt_##__eltrepr(char *, size_t, const char *); \
|
|
int cf_fmt_##__eltrepr(const char **, const char *);
|
|
#define VALUE_NODE(__type, __eltrepr) \
|
|
int cf_opt_##__eltrepr(__type *, const struct cf_om_node *); \
|
|
int cf_fmt_##__eltrepr(struct cf_om_node **, const __type *);
|
|
#define VALUE_SUB_STRUCT(__structname) \
|
|
int cf_opt_config_##__structname(struct config_##__structname *, const struct cf_om_node *); \
|
|
int cf_fmt_config_##__structname(struct cf_om_node **, const struct config_##__structname *);
|
|
#define VALUE_NODE_STRUCT(__structname, __repr) \
|
|
VALUE_SUB_STRUCT(__structname) \
|
|
int cf_opt_##__repr(struct config_##__structname *, const struct cf_om_node *); \
|
|
int cf_fmt_##__repr(struct cf_om_node **, const struct config_##__structname *);
|
|
#define END_ARRAY(__size)
|
|
#include "conf_schema.h"
|
|
#undef __VALIDATOR
|
|
#undef STRUCT
|
|
#undef NODE
|
|
#undef ATOM
|
|
#undef STRING
|
|
#undef SUB_STRUCT
|
|
#undef NODE_STRUCT
|
|
#undef END_STRUCT
|
|
#undef ARRAY
|
|
#undef KEY_ATOM
|
|
#undef KEY_STRING
|
|
#undef VALUE_ATOM
|
|
#undef VALUE_STRING
|
|
#undef VALUE_NODE
|
|
#undef VALUE_SUB_STRUCT
|
|
#undef VALUE_NODE_STRUCT
|
|
#undef END_ARRAY
|
|
|
|
// Generate config array key comparison function prototypes.
|
|
#define STRUCT(__name, __validator...)
|
|
#define NODE(__type, __element, __default, __repr, __flags, __comment)
|
|
#define ATOM(__type, __element, __default, __repr, __flags, __comment)
|
|
#define STRING(__size, __element, __default, __repr, __flags, __comment)
|
|
#define SUB_STRUCT(__name, __element, __flags)
|
|
#define NODE_STRUCT(__name, __element, __repr, __flags)
|
|
#define END_STRUCT
|
|
#define ARRAY(__name, __flags, __validator...) \
|
|
typedef int __compare_func__config_##__name##__t
|
|
#define KEY_ATOM(__type, __keyrepr, __cmpfunc...) \
|
|
(const __type *, const __type *);
|
|
#define KEY_STRING(__strsize, __keyrepr, __cmpfunc...) \
|
|
(const char *, const char *);
|
|
#define VALUE_ATOM(__type, __eltrepr)
|
|
#define VALUE_STRING(__strsize, __eltrepr)
|
|
#define VALUE_NODE(__type, __eltrepr)
|
|
#define VALUE_SUB_STRUCT(__structname)
|
|
#define VALUE_NODE_STRUCT(__structname, __eltrepr)
|
|
#define END_ARRAY(__size)
|
|
#include "conf_schema.h"
|
|
#undef ARRAY
|
|
#undef KEY_ATOM
|
|
#undef KEY_STRING
|
|
#define ARRAY(__name, __flags, __validator...) \
|
|
__compare_func__config_##__name##__t __dummy__compare_func__config_##__name
|
|
#define KEY_ATOM(__type, __keyrepr, __cmpfunc...) \
|
|
,##__cmpfunc;
|
|
#define KEY_STRING(__strsize, __keyrepr, __cmpfunc...) \
|
|
,##__cmpfunc;
|
|
#include "conf_schema.h"
|
|
#undef STRUCT
|
|
#undef NODE
|
|
#undef ATOM
|
|
#undef STRING
|
|
#undef SUB_STRUCT
|
|
#undef NODE_STRUCT
|
|
#undef END_STRUCT
|
|
#undef ARRAY
|
|
#undef KEY_ATOM
|
|
#undef KEY_STRING
|
|
#undef VALUE_ATOM
|
|
#undef VALUE_STRING
|
|
#undef VALUE_NODE
|
|
#undef VALUE_SUB_STRUCT
|
|
#undef VALUE_NODE_STRUCT
|
|
#undef END_ARRAY
|
|
|
|
// Generate config array search-by-key function prototypes.
|
|
#define STRUCT(__name, __validator...)
|
|
#define NODE(__type, __element, __default, __repr, __flags, __comment)
|
|
#define ATOM(__type, __element, __default, __repr, __flags, __comment)
|
|
#define STRING(__size, __element, __default, __repr, __flags, __comment)
|
|
#define SUB_STRUCT(__name, __element, __flags)
|
|
#define NODE_STRUCT(__name, __element, __repr, __flags)
|
|
#define END_STRUCT
|
|
#define ARRAY(__name, __flags, __validator...) \
|
|
int config_##__name##__get(const struct config_##__name *,
|
|
#define KEY_ATOM(__type, __keyrepr, __cmpfunc...) \
|
|
const __type *);
|
|
#define KEY_STRING(__strsize, __keyrepr, __cmpfunc...) \
|
|
const char *);
|
|
#define VALUE_ATOM(__type, __eltrepr)
|
|
#define VALUE_STRING(__strsize, __eltrepr)
|
|
#define VALUE_NODE(__type, __eltrepr)
|
|
#define VALUE_SUB_STRUCT(__structname)
|
|
#define VALUE_NODE_STRUCT(__structname, __eltrepr)
|
|
#define END_ARRAY(__size)
|
|
#include "conf_schema.h"
|
|
#undef STRUCT
|
|
#undef NODE
|
|
#undef ATOM
|
|
#undef STRING
|
|
#undef SUB_STRUCT
|
|
#undef NODE_STRUCT
|
|
#undef END_STRUCT
|
|
#undef ARRAY
|
|
#undef KEY_ATOM
|
|
#undef KEY_STRING
|
|
#undef VALUE_ATOM
|
|
#undef VALUE_STRING
|
|
#undef VALUE_NODE
|
|
#undef VALUE_SUB_STRUCT
|
|
#undef VALUE_NODE_STRUCT
|
|
#undef END_ARRAY
|
|
|
|
int cf_opt_char_boolean(char *booleanp, const char *text);
|
|
int cf_fmt_char_boolean(const char **, const char *booleanp);
|
|
|
|
int cf_opt_int_boolean(int *booleanp, const char *text);
|
|
int cf_fmt_int_boolean(const char **, const int *booleanp);
|
|
|
|
int cf_opt_absolute_path(char *str, size_t len, const char *text);
|
|
int cf_fmt_absolute_path(const char **, const char *path);
|
|
|
|
int cf_opt_rhizome_peer(struct config_rhizome_peer *, const struct cf_om_node *node);
|
|
int cf_fmt_rhizome_peer(struct cf_om_node **, const struct config_rhizome_peer *);
|
|
|
|
int cf_opt_rhizome_peer_from_uri(struct config_rhizome_peer *, const char *uri);
|
|
|
|
int cf_opt_str(char *str, size_t len, const char *text);
|
|
int cf_fmt_str(const char **, const char *str);
|
|
|
|
int cf_opt_str_nonempty(char *str, size_t len, const char *text);
|
|
int cf_fmt_str_nonempty(const char **, const char *str);
|
|
|
|
int cf_opt_int(int *intp, const char *text);
|
|
int cf_fmt_int(const char **, const int *intp);
|
|
|
|
int cf_opt_uint16(uint16_t *intp, const char *text);
|
|
int cf_fmt_int16(const char **, const int16_t *intp);
|
|
|
|
int cf_opt_uint16_nonzero(uint16_t *intp, const char *text);
|
|
int cf_fmt_int16_nonzero(const char **, const uint16_t *intp);
|
|
|
|
int cf_opt_int32_nonneg(int32_t *intp, const char *text);
|
|
int cf_fmt_int32_nonneg(const char **, const int32_t *intp);
|
|
|
|
int cf_opt_uint32_nonzero(uint32_t *intp, const char *text);
|
|
int cf_fmt_uint32_nonzero(const char **, const uint32_t *intp);
|
|
|
|
int cf_opt_uint64_scaled(uint64_t *intp, const char *text);
|
|
int cf_fmt_uint64_scaled(const char **, const uint64_t *intp);
|
|
|
|
int cf_opt_protocol(char *str, size_t len, const char *text);
|
|
int cf_fmt_protocol(const char **, const char *str);
|
|
|
|
int cf_opt_in_addr(struct in_addr *addrp, const char *text);
|
|
int cf_fmt_in_addr(const char **, const struct in_addr *addrp);
|
|
|
|
int cf_opt_sid(sid_t *sidp, const char *text);
|
|
int cf_fmt_sid(const char **, const sid_t *sidp);
|
|
|
|
int cf_opt_rhizome_bk(rhizome_bk_t *bkp, const char *text);
|
|
int cf_fmt_rhizome_bk(const char **, const rhizome_bk_t *bkp);
|
|
|
|
int cf_opt_interface_type(short *typep, const char *text);
|
|
int cf_fmt_interface_type(const char **, const short *typep);
|
|
|
|
int cf_opt_pattern_list(struct pattern_list *listp, const char *text);
|
|
int cf_fmt_pattern_list(const char **, const struct pattern_list *listp);
|
|
|
|
int cf_opt_network_interface(struct config_network_interface *nifp, const struct cf_om_node *node);
|
|
int cf_fmt_network_interface(struct cf_om_node **, const struct config_network_interface *nifp);
|
|
|
|
int cf_opt_interface_list(struct config_interface_list *listp, const struct cf_om_node *node);
|
|
int cf_fmt_interface_list(struct cf_om_node **, const struct config_interface_list *listp);
|
|
|
|
int cf_opt_socket_type(short *typep, const char *text);
|
|
int cf_fmt_socket_type(const char **, const short *typep);
|
|
|
|
int cf_opt_encapsulation(short *encapp, const char *text);
|
|
int cf_fmt_encapsulation(const char **, const short *encapp);
|
|
|
|
extern int cf_limbo;
|
|
extern struct config_main config;
|
|
|
|
int cf_init();
|
|
int cf_load();
|
|
int cf_load_permissive();
|
|
int cf_reload();
|
|
int cf_reload_permissive();
|
|
|
|
#endif //__SERVALDNA_CONFIG_H
|