Documentation.
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conf/Doc
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H Configuration
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S conf.c
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S cf-lex.l
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S confbase.Y
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@ -6,6 +6,24 @@
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* Can be freely distributed and used under the terms of the GNU GPL.
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*/
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/**
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* DOC: Lexical analyser
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*
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* The lexical analyser used for configuration files and CLI commands
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* is generated using the |flex| tool accompanied with a couple of
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* functions maintaining the hash tables containing information about
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* symbols and keywords.
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*
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* Each symbol is represented by a &symbol structure containing name
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* of the symbol, its scope, symbol class (%SYM_PROTO for a name of a protocol,
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* %SYM_NUMBER for a numeric constant etc.) and class dependent data.
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* When an unknown symbol is encountered, it's automatically added to the
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* symbol table with class %SYM_VOID.
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*
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* The keyword tables are generated from the grammar templates
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* using the |gen_keywords.m4| script.
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*/
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%{
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#undef REJECT /* Avoid name clashes */
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@ -230,6 +248,16 @@ cf_find_sym(byte *c, unsigned int h0)
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return s;
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}
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/**
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* cf_find_symbol - find a symbol by name
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* @c: symbol name
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*
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* This functions searches the symbol table for a symbol of given
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* name. First it examines the current scope, then the second recent
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* one and so on until it either finds the symbol and returns a pointer
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* to its &symbol structure or reaches the end of the scope chain
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* and returns %NULL to signify no match.
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*/
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struct symbol *
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cf_find_symbol(byte *c)
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{
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@ -257,6 +285,16 @@ cf_default_name(char *template, int *counter)
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cf_error("Unable to generate default name");
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}
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/**
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* cf_define_symbol - define meaning of a symbol
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* @sym: symbol to be defined
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* @type: symbol class to assign
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* @def: class dependent data
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*
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* This function takes a symbol, checks whether it's really
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* an undefined one (else it raises an error) and assigns the
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* given class and definition to it.
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*/
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void
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cf_define_symbol(struct symbol *sym, int type, void *def)
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{
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@ -280,6 +318,13 @@ cf_lex_init_kh(void)
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kw_hash_inited = 1;
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}
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/**
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* cf_lex_init - initialize the lexer
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* @is_cli: true if we're going to parse CLI command, false for configuration
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*
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* cf_lex_init() initializes the lexical analyser and prepares it for
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* parsing of a new input.
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*/
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void
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cf_lex_init(int is_cli)
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{
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conf_this_scope->active = 1;
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}
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/**
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* cf_push_scope - enter new scope
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* @sym: symbol representing scope name
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*
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* If we want to enter a new scope to process declarations inside
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* a nested block, we can just call cf_push_scope() to push a new
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* scope onto the scope stack which will cause all new symbols to be
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* defined in this scope and all existing symbols to be sought for
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* in all scopes stored on the stack.
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*/
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void
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cf_push_scope(struct symbol *sym)
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{
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s->name = sym;
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}
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/**
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* cf_pop_scope - leave a scope
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*
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* cf_pop_scope() pops the topmost scope from the scope stack,
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* leaving all its symbols in the symbol table, but making them
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* invisible to the rest of the config.
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*/
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void
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cf_pop_scope(void)
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{
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}
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}
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/**
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* cf_symbol_class_name - get name of a symbol class
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* @sym: symbol
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*
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* This function returns a string representing the class
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* of the given symbol.
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*/
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char *
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cf_symbol_class_name(struct symbol *sym)
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{
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110
conf/conf.c
110
conf/conf.c
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* Can be freely distributed and used under the terms of the GNU GPL.
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*/
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/**
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* DOC: Configuration manager
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*
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* Configuration of BIRD is complex, but straightforward. There exist three
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* modules taking care of the configuration: config manager (which takes care
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* of storage of config information and controls switching between configs),
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* lexical analyser and parser.
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*
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* The configuration manager stores each config as a &config structure
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* accompanied by a linear pool from which all information associated
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* with the config and pointed to by the &config structure is allocated.
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*
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* There can exist up four different configurations at one time: an active
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* one (pointed to by @config), configuration we are just switching from
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* (@old_config), one queued for the next reconfiguration (@future_config;
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* if it's non-%NULL and the user wants to reconfigure once again, we just
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* free the previous queued config and replace it with the new one) and
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* finally a config being parsed (@new_config).
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*
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* Loading of new configuration is very simple: just call config_alloc()
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* to get a new &config structure, then use config_parse() to parse a
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* configuration file and fill all information in the structure
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* and finally ask the config manager to switch to the new
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* config by calling config_commit().
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*
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* CLI commands are parsed in a very similar way -- there is also a stripped-down
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* &config structure associated with them and they are lexed and parsed by the
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* same functions, only a special fake token is prepended before the command
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* text to make the parser recognize only the rules corresponding to CLI commands.
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*/
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#include <setjmp.h>
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#include <stdarg.h>
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int shutting_down;
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bird_clock_t boot_time;
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/**
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* config_alloc - allocate a new configuration
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* @name: name of the config
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*
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* This function creates new &config structure, attaches a resource
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* pool and a linear memory pool to it and makes it available for
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* further use. Returns a pointer to the structure.
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*/
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struct config *
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config_alloc(byte *name)
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{
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return c;
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}
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/**
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* config_parse - parse a configuration
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* @c: configuration
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*
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* config_parse() reads input by calling a hook function pointed to
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* by @cf_read_hook and parses it according to the configuration
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* grammar. It also calls all the preconfig and postconfig hooks
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* before resp. after parsing.
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*
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* Result: 1 if the config has been parsed successfully, 0 if any
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* error has occured (such as anybody calling cf_error()) and
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* the @err_msg field has been set to the error message.
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*/
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int
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config_parse(struct config *c)
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{
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return 1;
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}
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/**
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* cli_parse - parse a CLI command
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* @c: temporary config structure
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*
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* cli_parse() is similar to config_parse(), but instead of a configuration,
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* it parses a CLI command. See the CLI module for more information.
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*/
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int
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cli_parse(struct config *c)
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{
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return 1;
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}
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/**
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* config_free - free a configuration
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* @c: configuration to be freed
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*
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* This function takes a &config structure and frees all resources
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* associated with it.
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*/
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void
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config_free(struct config *c)
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{
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}
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}
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/**
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* config_commit - commit a configuration
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* @c: new configuration
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*
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* When a configuration is parsed and prepared for use, the
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* config_commit() function starts the process of reconfiguration.
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* It checks whether there is already a reconfiguration in progress
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* in which case it just queues the new config for later processing.
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* Else it notifies all modules about the new configuration by calling
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* their commit() functions which can either accept it immediately
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* or call config_add_obstacle() to report that they need some time
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* to complete the reconfiguration. After all such obstacles are removed
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* using config_del_obstacle(), the old configuration is freed and
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* everything runs according to the new one.
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*
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* Result: %CONF_DONE if the configuration has been accepted immediately,
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* %CONF_PROGRESS if it will take some time to switch to it, %CONF_QUEUED
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* if it's been queued due to another reconfiguration being in progress now
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* or %CONF_SHUTDOWN if BIRD is in shutdown mode and no new configurations
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* are accepted.
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*/
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int
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config_commit(struct config *c)
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{
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return CONF_PROGRESS;
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}
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/**
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* order_shutdown - order BIRD shutdown
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*
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* This function initiates shutdown of BIRD. It's accomplished by asking
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* for switching to an empty configuration.
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*/
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void
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order_shutdown(void)
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{
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shutting_down = 1;
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}
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/**
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* cf_error - report a configuration error
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* @msg: printf-like format string
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*
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* cf_error() can be called during execution of config_parse(), that is
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* from the parser, a preconfig hook or a postconfig hook, to report an
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* error in the configuration.
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*/
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void
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cf_error(char *msg, ...)
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{
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longjmp(conf_jmpbuf, 1);
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}
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/**
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* cfg_strdup - copy a string to config memory
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* @c: string to copy
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*
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* cfg_strdup() creates a new copy of the string in the memory
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* pool associated with the configuration being currently parsed.
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* It's often used when a string literal occurs in the configuration
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* and we want to preserve it for further use.
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*/
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char *
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cfg_strdup(char *c)
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{
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* Can be freely distributed and used under the terms of the GNU GPL.
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*/
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/**
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* DOC: Parser
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*
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* Both the configuration and CLI commands are analysed using a syntax
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* driven parser generated by the |bison| tool from a grammar which
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* is constructed from information gathered from grammar snippets by
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* the |gen_parser.m4| script.
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*
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* Grammar snippets are files (usually with extension |.Y|) contributed
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* by various BIRD modules to provide information about syntax of their
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* configuration and their CLI commands. Each snipped consists of several
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* section, each of them starting with a special keyword: |CF_HDR| for
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* a list of |#include| directives needed by the C code, |CF_DEFINES|
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* for a list of C declarations, |CF_DECLS| for |bison| declarations
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* including keyword definitions specified as |CF_KEYWORDS|, |CF_GRAMMAR|
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* for the grammar rules, |CF_CODE| for auxillary C code and finally
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* |CF_END| at the end of the snippet.
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*
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* To create references between the snippets, it's possible to define
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* multi-part rules by utilizing the |CF_ADDTO| macro which adds a new
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* alternative to a multi-part rule.
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*
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* CLI commands are defined using a |CF_CLI| macro. Its parameters are:
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* the list of keywords determining the command, the list of paramaters,
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* help text for the parameters and help text for the command.
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*
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* Values of |enum| filter types can be defined using |CF_ENUM| with
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* the following parameters: name of filter type, prefix common for all
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* literals of this type, names of all the possible values.
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*/
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CF_HDR
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#include "nest/bird.h"
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