%{ /* * rcfile_y.y -- Run control file parser for fetchmail * * For license terms, see the file COPYING in this directory. */ #include #include #include #include #include #include #include #include "fetchmail.h" struct query cmd_opts; /* where to put command-line info */ struct query *querylist; /* head of server list (globally visible) */ int yydebug; /* in case we didn't generate with -- debug */ static struct query current; /* current server record */ static int prc_errflag; %} %union { int proto; int flag; int number; char *sval; } %token DEFAULTS SERVER PROTOCOL AUTHENTICATE TIMEOUT KPOP KERBEROS %token USERNAME PASSWORD FOLDER SMTPHOST MDA IS HERE THERE TO MAP LIMIT %token PROTO %token STRING %token NUMBER %token KEEP FLUSH FETCHALL REWRITE PORT SKIP /* these are actually used by the lexer */ %token FLAG_TRUE 2 %token FLAG_FALSE 1 %% rcfile : /* empty */ | statement_list ; statement_list : statement | statement_list statement ; statement : define_server serverspecs userspecs ; define_server : SERVER STRING {strcpy(current.servername, $2);} | SKIP SERVER STRING {strcpy(current.servername, $3); current.skip=($1==FLAG_TRUE);} | DEFAULTS {strcpy(current.servername,"defaults");} ; serverspecs : /* EMPTY */ | serverspecs serv_option ; serv_option : PROTOCOL PROTO {current.protocol = $2;} | PROTOCOL KPOP { current.protocol = P_POP3; current.authenticate = A_KERBEROS; current.port = KPOP_PORT; } | PORT NUMBER {current.port = $2;} | SKIP {current.skip = ($1==FLAG_TRUE);} | AUTHENTICATE PASSWORD {current.authenticate = A_PASSWORD;} | AUTHENTICATE KERBEROS {current.authenticate = A_KERBEROS;} | TIMEOUT NUMBER {current.timeout = $2;} ; /* the first and only the first user spec may omit the USERNAME part */ userspecs : user1opts {prc_register(); prc_reset();} | user1opts explicits {prc_register(); prc_reset();} | explicits ; explicits : explicitdef {prc_register(); prc_reset();} | explicits explicitdef {prc_register(); prc_reset();} ; explicitdef : userdef user0opts ; userdef : USERNAME STRING {strcpy(current.remotename, $2);} | USERNAME mapping_list HERE | USERNAME STRING THERE {strcpy(current.remotename, $2);} ; user0opts : /* EMPTY */ | user0opts user_option ; user1opts : user_option | user1opts user_option ; mapping_list : mapping | mapping_list mapping ; mapping : STRING {save_id_pair(¤t.localnames, $1, NULL);} | STRING MAP STRING {save_id_pair(¤t.localnames, $1, $3);} ; user_option : TO mapping_list HERE | TO mapping_list | IS mapping_list HERE | IS mapping_list | IS STRING THERE {strcpy(current.remotename, $2);} | PASSWORD STRING {strcpy(current.password, $2);} | FOLDER STRING {strcpy(current.mailbox, $2);} | SMTPHOST STRING {strcpy(current.smtphost, $2);} | MDA STRING {strcpy(current.mda, $2);} | KEEP {current.keep = ($1==FLAG_TRUE);} | FLUSH {current.flush = ($1==FLAG_TRUE);} | FETCHALL {current.fetchall = ($1==FLAG_TRUE);} | REWRITE {current.norewrite = ($1==FLAG_TRUE);} | LIMIT NUMBER {current.limit = $2;} ; %% /* lexer interface */ extern char *rcfile; extern int prc_lineno; extern char *yytext; extern FILE *yyin; static struct query *hosttail; /* where to add new elements */ int yyerror (s) /* report a syntax error */ char *s; /* error string */ { fprintf(stderr,"%s line %d: %s at %s\n", rcfile, prc_lineno, s, yytext); prc_errflag++; } int prc_filecheck(pathname) /* check that a configuration file is secure */ char *pathname; /* pathname for the configuration file */ { struct stat statbuf; /* the run control file must have the same uid as the REAL uid of this process, it must have permissions no greater than 600, and it must not be a symbolic link. We check these conditions here. */ errno = 0; if (lstat(pathname, &statbuf) < 0) { if (errno == ENOENT) return(0); else { perror(pathname); return(PS_IOERR); } } if ((statbuf.st_mode & S_IFLNK) == S_IFLNK) { fprintf(stderr, "File %s must not be a symbolic link.\n", pathname); return(PS_AUTHFAIL); } if (statbuf.st_mode & ~(S_IFREG | S_IREAD | S_IWRITE)) { fprintf(stderr, "File %s must have no more than -rw------ permissions.\n", pathname); return(PS_AUTHFAIL); } if (statbuf.st_uid != getuid()) { fprintf(stderr, "File %s must be owned by you.\n", pathname); return(PS_AUTHFAIL); } return(0); } prc_parse_file (pathname) /* digest the configuration into a linked list of host records */ char *pathname; /* pathname for the configuration file */ { prc_errflag = 0; querylist = hosttail = (struct query *)NULL; prc_reset(); /* Check that the file is secure */ if ((prc_errflag = prc_filecheck(pathname)) != 0) return(prc_errflag); if (errno == ENOENT) return(0); /* Open the configuration and feed it to the lexer. */ if ((yyin = fopen(pathname,"r")) == (FILE *)NULL) { perror(pathname); return(PS_IOERR); } yyparse(); /* parse entire file */ fclose(yyin); if (prc_errflag) return(PS_SYNTAX); else return(0); } prc_reset() /* clear the global current record (server parameters) used by the parser */ { char savename[HOSTLEN+1]; int saveport, saveproto, saveauth; /* * Purpose of this code is to initialize the new server block with * the command-line data, but preserve whatever server name was * previously set. Also preserve server options unless the * command-line explicitly overrides them. */ (void) strcpy(savename, current.servername); saveport = current.port; saveproto = current.protocol; saveauth = current.authenticate; memset(¤t, '\0', sizeof(current)); (void) strcpy(current.servername, savename); current.protocol = saveproto; current.authenticate = saveauth; } struct query *hostalloc(init) /* append a host record to the host list */ struct query *init; /* pointer to block containing initial values */ { struct query *node; /* allocate new node */ node = (struct query *) xmalloc(sizeof(struct query)); /* initialize it */ memcpy(node, init, sizeof(struct query)); /* append to end of list */ if (hosttail != (struct query *) 0) hosttail->next = node; /* list contains at least one element */ else querylist = node; /* list is empty */ hosttail = node; return(node); } int prc_register() /* register current parameters and append to the host list */ { #define STR_FORCE(fld, len) if (cmd_opts.fld[0]) \ strcpy(current.fld, cmd_opts.fld) STR_FORCE(remotename, USERNAMELEN); STR_FORCE(password, PASSWORDLEN); STR_FORCE(mailbox, FOLDERLEN); STR_FORCE(smtphost, HOSTLEN); STR_FORCE(mda, MDALEN); #undef STR_FORCE #define FLAG_FORCE(fld) if (cmd_opts.fld) current.fld = cmd_opts.fld FLAG_FORCE(protocol); FLAG_FORCE(keep); FLAG_FORCE(flush); FLAG_FORCE(fetchall); FLAG_FORCE(norewrite); FLAG_FORCE(skip); FLAG_FORCE(port); FLAG_FORCE(authenticate); FLAG_FORCE(timeout); FLAG_FORCE(limit); #undef FLAG_FORCE (void) hostalloc(¤t); } void optmerge(h2, h1) /* merge two options records; empty fields in h2 are filled in from h1 */ struct query *h1; struct query *h2; { struct idlist *idp; append_uid_list(&h2->localnames, &h1->localnames); #define STR_MERGE(fld, len) if (*(h2->fld) == '\0') strcpy(h2->fld, h1->fld) STR_MERGE(remotename, USERNAMELEN); STR_MERGE(password, PASSWORDLEN); STR_MERGE(mailbox, FOLDERLEN); STR_MERGE(smtphost, HOSTLEN); STR_MERGE(mda, MDALEN); #undef STR_MERGE #define FLAG_MERGE(fld) if (!h2->fld) h2->fld = h1->fld FLAG_MERGE(protocol); FLAG_MERGE(keep); FLAG_MERGE(flush); FLAG_MERGE(fetchall); FLAG_MERGE(norewrite); FLAG_MERGE(skip); FLAG_MERGE(port); FLAG_MERGE(authenticate); FLAG_MERGE(timeout); FLAG_MERGE(limit); #undef FLAG_MERGE } /* easier to do this than cope with variations in where the library lives */ int yywrap() {return 1;} /* rcfile_y.y ends here */