conf: parsing IP address fixed

[libucw.git] / lib / conf2.h

/*
 *      UCW Library -- Reading of configuration files
 *
 *      (c) 2001--2006 Robert Spalek <robert@ucw.cz>
 *      (c) 2003--2006 Martin Mares <mj@ucw.cz>
 *
 *      This software may be freely distributed and used according to the terms
 *      of the GNU Lesser General Public License.
 */

#ifndef _UCW_CONF2_H
#define _UCW_CONF2_H

enum cf_class {
  CC_END,                               // end of list
  CC_STATIC,                            // single variable or static array
  CC_DYNAMIC,                           // dynamically allocated array
  CC_PARSER,                            // arbitrary parser function
  CC_SECTION,                           // section appears exactly once
  CC_LIST                               // list with 0..many nodes
};

enum cf_type {
  CT_INT, CT_U64, CT_DOUBLE,            // number types
  CT_IP,                                // IP address
  CT_STRING,                            // string type
  CT_LOOKUP,                            // in a string table
  CT_USER                               // user-defined type
};

struct fastbuf;
typedef byte *cf_parser(uns number, byte **pars, void *ptr);
  /* A parser function gets an array of (strdup'ed) strings and a pointer with
   * the customized information (most likely the target address).  It can store
   * the parsed value anywhere in any way it likes, however it must first call
   * cf_journal_block() on the overwritten memory block.  It returns an error
   * message or NULL if everything is all right.  */
typedef byte *cf_parser1(byte *string, void *ptr);
  /* A parser function for user-defined types get one string and pointer to the
   * destination variable.  It can only store the value inside [ptr,ptr+size),
   * where size is fixed for each type.  It does not have to call
   * cf_journal_block().  */
typedef byte *cf_hook(void *ptr);
  /* An init- or commit-hook gets a pointer to the section or NULL if this
   * is the global section.  It returns an error message or NULL if everything
   * is all right.  The init-hook should fill in default values (needed for
   * dynamically allocated nodes of link lists or for filling global variables
   * that are run-time dependent).  The commit-hook should perform sanity
   * checks and postprocess the parsed values.  Commit-hooks must call
   * cf_journal_block() too.  Caveat! init-hooks for static sections must not
   * use cf_malloc() but normal xmalloc().  */
typedef void *cf_dumper1(struct fastbuf *fb, void *ptr);
  /* Dumps the contents of a variable of a user-defined type.  */

struct cf_user_type {
  uns size;                             // of the parsed attribute
  cf_parser1 *parser;                   // how to parse it
  cf_dumper1 *dumper;                   // optional and for debugging purposes only
};

struct cf_section;
struct cf_item {
  byte *name;                           // case insensitive
  int number;                           // length of an array or #parameters of a parser (negative means at most)
  void *ptr;                            // pointer to a global variable or an offset in a section
  union cf_union {
    struct cf_section *sec;             // declaration of a section or a list
    cf_parser *par;                     // parser function
    char **lookup;                      // NULL-terminated sequence of allowed strings for lookups
    struct cf_user_type *utype;         // specification of the user-defined type
  } u;
  enum cf_class cls:16;                 // attribute class
  enum cf_type type:16;                 // type of a static or dynamic attribute
};

struct cf_section {
  uns size;                             // 0 for a global block, sizeof(struct) for a section
  cf_hook *init;                        // fills in default values (no need to bzero)
  cf_hook *commit;                      // verifies parsed data (optional)
  struct cf_item *cfg;                  // CC_END-terminated array of items
  uns flags;                            // for internal use only
};

/* Declaration of cf_section */
#define CF_TYPE(s)      .size = sizeof(s)
#define CF_INIT(f)      .init = (cf_hook*) f
#define CF_COMMIT(f)    .commit = (cf_hook*) f
#define CF_ITEMS        .cfg = ( struct cf_item[] )
#define CF_END          { .cls = CC_END }
/* Configuration items */
struct clist;
#define CF_STATIC(n,p,T,t,c)    { .cls = CC_STATIC, .type = CT_##T, .name = n, .number = c, .ptr = CHECK_PTR_TYPE(p,t*) }
#define CF_DYNAMIC(n,p,T,t,c)   { .cls = CC_DYNAMIC, .type = CT_##T, .name = n, .number = c, .ptr = CHECK_PTR_TYPE(p,t**) }
#define CF_PARSER(n,p,f,c)      { .cls = CC_PARSER, .name = n, .number = c, .ptr = p, .u.par = (cf_parser*) f }
#define CF_SECTION(n,p,s)       { .cls = CC_SECTION, .name = n, .number = 1, .ptr = p, .u.sec = s }
#define CF_LIST(n,p,s)          { .cls = CC_LIST, .name = n, .number = 1, .ptr = CHECK_PTR_TYPE(p,struct clist*), .u.sec = s }
/* Configuration items for basic types */
#define CF_INT(n,p)             CF_STATIC(n,p,INT,int,1)
#define CF_INT_ARY(n,p,c)       CF_STATIC(n,p,INT,int,c)
#define CF_INT_DYN(n,p,c)       CF_DYNAMIC(n,p,INT,int,c)
#define CF_UNS(n,p)             CF_STATIC(n,p,INT,uns,1)
#define CF_UNS_ARY(n,p,c)       CF_STATIC(n,p,INT,uns,c)
#define CF_UNS_DYN(n,p,c)       CF_DYNAMIC(n,p,INT,uns,c)
#define CF_U64(n,p)             CF_STATIC(n,p,U64,u64,1)
#define CF_U64_ARY(n,p,c)       CF_STATIC(n,p,U64,u64,c)
#define CF_U64_DYN(n,p,c)       CF_DYNAMIC(n,p,U64,u64,c)
#define CF_DOUBLE(n,p)          CF_STATIC(n,p,DOUBLE,double,1)
#define CF_DOUBLE_ARY(n,p,c)    CF_STATIC(n,p,DOUBLE,double,c)
#define CF_DOUBLE_DYN(n,p,c)    CF_DYNAMIC(n,p,DOUBLE,double,c)
#define CF_IP(n,p)              CF_STATIC(n,p,IP,u32,1)
#define CF_IP_ARY(n,p,c)        CF_STATIC(n,p,IP,u32,c)
#define CF_IP_DYN(n,p,c)        CF_DYNAMIC(n,p,IP,u32,c)
#define CF_STRING(n,p)          CF_STATIC(n,p,STRING,byte*,1)
#define CF_STRING_ARY(n,p,c)    CF_STATIC(n,p,STRING,byte*,c)
#define CF_STRING_DYN(n,p,c)    CF_DYNAMIC(n,p,STRING,byte*,c)
#define CF_LOOKUP(n,p,t)        { .cls = CC_STATIC, .type = CT_LOOKUP, .name = n, .number = 1, .ptr = CHECK_PTR_TYPE(p,int*), .u.lookup = t }
#define CF_LOOKUP_ARY(n,p,t,c)  { .cls = CC_STATIC, .type = CT_LOOKUP, .name = n, .number = c, .ptr = CHECK_PTR_TYPE(p,int*), .u.lookup = t }
#define CF_LOOKUP_DYN(n,p,t,c)  { .cls = CC_DYNAMIC, .type = CT_LOOKUP, .name = n, .number = c, .ptr = CHECK_PTR_TYPE(p,int**), .u.lookup = t }
#define CF_USER(n,p,t)          { .cls = CC_STATIC, .type = CT_USER, .name = n, .number = 1, .ptr = p, .u.utype = t }
#define CF_USER_ARY(n,p,t,c)    { .cls = CC_STATIC, .type = CT_USER, .name = n, .number = c, .ptr = p, .u.utype = t }
#define CF_USER_DYN(n,p,t,c)    { .cls = CC_DYNAMIC, .type = CT_USER, .name = n, .number = c, .ptr = p, .u.utype = t }
  // Beware that CF_USER_DYN can only be used on user-defined types of size at least 4

/* If you aren't picky about the number of parameters */
#define CF_ANY_NUM              -0x7fffffff

#define DARY_LEN(a) *(uns*)(a-1)
  // length of a dynamic array
#define DARY_ALLOC(type,len,val...) (type[]) { (type)len, ##val } + 1
  // creates a static instance of a dynamic array
  // FIXME: overcast doesn't work for the double type

/* Memory allocation */
struct mempool;
extern struct mempool *cf_pool;
void *cf_malloc(uns size);
void *cf_malloc_zero(uns size);
byte *cf_strdup(byte *s);
byte *cf_printf(char *fmt, ...) FORMAT_CHECK(printf,1,2);

/* Undo journal for error recovery */
extern uns cf_need_journal;
void cf_journal_block(void *ptr, uns len);
#define CF_JOURNAL_VAR(var) cf_journal_block(&(var), sizeof(var))

/* Declaration */
void cf_declare_section(byte *name, struct cf_section *sec, uns allow_unknown);
void cf_init_section(byte *name, struct cf_section *sec, void *ptr, uns do_bzero);

/* Safe reloading and loading of configuration files */
extern byte *cf_def_file;
int cf_reload(byte *file);
int cf_load(byte *file);
int cf_set(byte *string);

/* Parsers for basic types */
byte *cf_parse_int(byte *str, int *ptr);
byte *cf_parse_u64(byte *str, u64 *ptr);
byte *cf_parse_double(byte *str, double *ptr);
byte *cf_parse_ip(byte *p, u32 *varp);

/* Direct access to configuration items */

#define CF_OPERATIONS T(CLOSE) T(SET) T(CLEAR) T(APPEND) T(PREPEND) \
  T(REMOVE) T(EDIT) T(AFTER) T(BEFORE)
  /* Closing brace finishes previous block.
   * Basic attributes (static, dynamic, parsed) can be used with SET.
   * Dynamic arrays can be used with SET, APPEND, PREPEND.
   * Sections can be used with SET.
   * Lists can be used with everything. */
#define T(x) OP_##x,
enum cf_operation { CF_OPERATIONS };
#undef T

byte *cf_find_item(byte *name, struct cf_item *item);
byte *cf_write_item(struct cf_item *item, enum cf_operation op, int number, byte **pars);
void cf_dump_sections(struct fastbuf *fb);

/*
 * When using cf_get_opt(), you must prefix your own short/long options by the
 * CF_(SHORT|LONG)_OPTS.
 *
 * cf_def_file contains the name of a configuration file that will be
 * automatically loaded before the first --set option is executed.  If no --set
 * option occurs, it will be loaded after getopt() returns -1 (i.e. at the end
 * of the configuration options).  cf_def_file will be ignored if another
 * configuration file has already been loaded using the --config option.  The
 * initial value of cf_def_file is DEFAULT_CONFIG from config.h, but you can
 * override it manually before calling cf_get_opt().
 */

#define CF_SHORT_OPTS   "C:S:"
#define CF_LONG_OPTS    {"config",      1, 0, 'C'}, {"set",             1, 0, 'S'},
#define CF_NO_LONG_OPTS (const struct option []) { CF_LONG_OPTS { NULL, 0, 0, 0 } }
#ifndef CF_USAGE_TAB
#define CF_USAGE_TAB ""
#endif
#define CF_USAGE        \
"-C, --config filename\t" CF_USAGE_TAB "Override the default configuration file\n\
-S, --set sec.item=val\t" CF_USAGE_TAB "Manual setting of a configuration item\n"

struct option;
int cf_get_opt(int argc, char * const argv[], const char *short_opts, const struct option *long_opts, int *long_index);

#endif