%{ /* * rcfile_l.l -- lexer for the run control file, to be used with GNU flex. * * For license terms, see the file COPYING in this directory. */ #include #include "config.h" #include "fetchmail.h" #include "rcfile_y.h" int prc_lineno = 1; #ifdef LEXDEBUG #define SETSTATE(n) do {BEGIN(n); if (yydebug) fprintf(stderr, "Entering lexer state %d\n", n);} while (0) #else #define SETSTATE(n) BEGIN(n) #endif /* LEXDEBUG */ #define YY_NO_INPUT %} %option nounput noyywrap %option warn nodefault %option 8bit batch %s NAME AUTH %% \"[^\"]*\" { static char *in = NULL; static size_t ins = 0; if ((size_t)yyleng + 1 > ins) { ins = yyleng + 1; in = (char *)xrealloc(in, ins); } memcpy(in, yytext, yyleng); in[yyleng-1] = '\0'; escapes(in+1, in); yyleng = strlen(in); yylval.sval = in; SETSTATE(0); return STRING; } \'[^\']*\' { static char *in = NULL; static size_t ins = 0; if ((size_t)yyleng + 1 > ins) { ins = yyleng + 1; in = (char *)xrealloc(in, ins); } memcpy(in, yytext, yyleng); in[yyleng-1] = '\0'; escapes(in+1, in); yyleng = strlen(in); yylval.sval = in; SETSTATE(0); return STRING; } "*" { BEGIN(0); return WILDCARD; } [^=;:, \t\r\n]+ { static char *in = NULL; static size_t ins = 0; if ((size_t)yyleng + 1 > ins) { ins = yyleng + 1; in = (char *)xrealloc(in, ins); } memcpy(in, yytext, yyleng); in[yyleng] = '\0'; escapes(in, in); yyleng = strlen(in); yylval.sval = in; SETSTATE(0); return STRING; } set { return SET; } logfile { return LOGFILE; } idfile { return IDFILE; } pidfile { return PIDFILE; } daemon { return DAEMON; } syslog { return SYSLOG; } invisible { return INVISIBLE; } showdots { return SHOWDOTS; } postmaster { return POSTMASTER; } bouncemail { return BOUNCEMAIL; } spambounce { return SPAMBOUNCE; } softbounce { return SOFTBOUNCE; } warnings { return WARNINGS; } tracepolls { return TRACEPOLLS; } defaults { return DEFAULTS; } server { return POLL; } poll { return POLL; } skip { return SKIP; } via { return VIA; } aka { return AKA; } local(domains)? { return LOCALDOMAINS; } proto(col)? { return PROTOCOL; } service { return SERVICE; } port { return PORT; } interval { return INTERVAL; } preauth(enticate)? { SETSTATE(AUTH); return AUTHENTICATE; } auth(enticate)? { SETSTATE(AUTH); return AUTHENTICATE; } any { SETSTATE(0); yylval.proto = A_ANY; return AUTHTYPE;} gssapi { SETSTATE(0); yylval.proto = A_GSSAPI; return AUTHTYPE;} kerberos(_v)?4 { SETSTATE(0); yylval.proto = A_KERBEROS_V4; return AUTHTYPE;} kerberos(_v)?5 { SETSTATE(0); yylval.proto = A_KERBEROS_V5; return AUTHTYPE;} kerberos { SETSTATE(0); yylval.proto = A_KERBEROS_V4; return AUTHTYPE;} ssh { SETSTATE(0); yylval.proto = A_SSH; return AUTHTYPE;} external { SETSTATE(0); yylval.proto = A_EXTERNAL; return AUTHTYPE;} (otp|opie) { SETSTATE(0); yylval.proto = A_OTP; return AUTHTYPE;} cram(-md5)? { SETSTATE(0); yylval.proto = A_CRAM_MD5; return AUTHTYPE;} msn { SETSTATE(0); yylval.proto = A_MSN; return AUTHTYPE;} ntlm { SETSTATE(0); yylval.proto = A_NTLM; return AUTHTYPE;} password { SETSTATE(0); yylval.proto = A_PASSWORD; return AUTHTYPE;} timeout { return TIMEOUT;} envelope { return ENVELOPE; } qvirtual { return QVIRTUAL; } principal { return PRINCIPAL; } esmtpname { return ESMTPNAME; } esmtppassword { return ESMTPPASSWORD; } bad-header { return BADHEADER; } accept { return ACCEPT; } reject { return REJECT_; } user(name)? {SETSTATE(NAME); return USERNAME; } pass(word)? {SETSTATE(NAME); return PASSWORD; } folder(s)? { return FOLDER; } smtp(host)? { return SMTPHOST; } fetchdomains { return FETCHDOMAINS; } smtpaddress { return SMTPADDRESS; } smtpname { return SMTPNAME; } antispam { return SPAMRESPONSE; } mda { return MDA; } bsmtp { return BSMTP; } lmtp { return LMTP; } pre(connect)? { return PRECONNECT; } post(connect)? { return POSTCONNECT; } interface { return INTERFACE; } monitor { return MONITOR; } plugin { return PLUGIN; } plugout { return PLUGOUT; } batchlimit { return BATCHLIMIT; } fetchlimit { return FETCHLIMIT; } fetchsizelimit { return FETCHSIZELIMIT; } fastuidl { return FASTUIDL; } expunge { return EXPUNGE; } properties { return PROPERTIES; } is { SETSTATE(NAME); return IS; } here { return HERE; } there { return THERE; } to { SETSTATE(NAME); return TO; } = { SETSTATE(NAME); return MAP; } nobouncemail | nouidl | nocheckalias | nodns | noenvelope | nokeep | noflush | nolimitflush | nofetchall | norewrite | noforcecr | nostripcr | nopass8(bits)? | nodropstatus | nodropdelivered | nomimedec(ode)? | nospambounce | noidle { yyless(2); return NO; } no {return NO;} keep { return KEEP; } flush { return FLUSH; } limitflush { return LIMITFLUSH; } fetchall { return FETCHALL; } rewrite { return REWRITE; } forcecr { return FORCECR; } stripcr { return STRIPCR; } pass8(bits)? { return PASS8BITS; } dropstatus { return DROPSTATUS; } dropdelivered { return DROPDELIVERED; } mimedec(ode)? { return MIMEDECODE; } idle { return IDLE; } dns { return DNS; } uidl { return UIDL; } ssl { return SSL; } sslkey { return SSLKEY; } sslcert { return SSLCERT; } sslproto { return SSLPROTO; } sslcertck { return SSLCERTCK; } sslcertpath { return SSLCERTPATH; } sslcommonname { return SSLCOMMONNAME; } sslfingerprint { return SSLFINGERPRINT; } checkalias { return CHECKALIAS; } limit { return LIMIT; } with {/* EMPTY */} and {/* EMPTY */} has {/* EMPTY */} wants {/* EMPTY */} options {/* EMPTY */} [;:,] {/* EMPTY */} (auto)|(AUTO) { yylval.proto = P_AUTO; return PROTO; } (pop2)|(POP2) { yylval.proto = P_POP2; return PROTO; } (sdps)|(SDPS) { return SDPS; } (pop3)|(POP3) { yylval.proto = P_POP3; return PROTO; } (imap)|(IMAP) { yylval.proto = P_IMAP; return PROTO; } (apop)|(APOP) { yylval.proto = P_APOP; return PROTO; } (rpop)|(RPOP) { yylval.proto = P_RPOP; return PROTO; } (etrn)|(ETRN) { yylval.proto = P_ETRN; return PROTO; } (odmr)|(ODMR) { yylval.proto = P_ODMR; return PROTO; } (kpop)|(KPOP) { return KPOP; } (#.*)?\\?\n { prc_lineno++; } /* newline is ignored */ -?[0-9]+ { yylval.number = atoi(yytext); return NUMBER; } [^=;:, \t\r\n]+ { static char *in = NULL; static size_t ins = 0; if ((size_t)yyleng + 1 > ins) { ins = yyleng + 1; in = (char *)xrealloc(in, ins); } memcpy(in, yytext, yyleng); in[yyleng] = '\0'; escapes(in, in); yyleng = strlen(in); yylval.sval = in; return STRING; } [ \t\r]+ ; /* whitespace */ %% /** process standard C-style escape sequences in a string, * this can never lengthen the output, so cp and tp may overlap as long * as cp >= tp. */ void escapes(const char *cp /** source string with escapes */, char *tp /** target buffer for digested string */) { while (*cp) { int cval = 0; /* we MUST check for NUL explicitly, as strchr(string, 0) will * always succeed! */ if (*cp == '\\' && cp[1] && strchr("0123456789xX", cp[1])) { const char *dp; const char *hex = "00112233445566778899aAbBcCdDeEfF"; int dcount = 0; if (*++cp == 'x' || *cp == 'X') for (++cp; *cp && (dp = strchr(hex, *cp)) && (dcount++ < 2); cp++) cval = (cval * 16) + (dp - hex) / 2; else if (*cp == '0') while (*cp && strchr("01234567",*cp) != (char*)NULL && (dcount++ < 3)) cval = (cval * 8) + (*cp++ - '0'); else while (*cp && (strchr("0123456789",*cp)!=(char*)NULL)&&(dcount++ < 3)) cval = (cval * 10) + (*cp++ - '0'); } else if (*cp == '\\') /* C-style character escapes */ { switch (*++cp) { case '\n': cp++; continue; /* backslash before LF to join lines */ case '\0': goto done; /* ignore backslash at file end */ case '\\': cval = '\\'; break; case 'n': cval = '\n'; break; case 't': cval = '\t'; break; case 'b': cval = '\b'; break; case 'r': cval = '\r'; break; default: cval = *cp; } cp++; } else cval = *cp++; *tp++ = cval; } done: *tp = '\0'; }