/* * conf.c -- dump fetchmail configuration as Python dictionary initializer * * For license terms, see the file COPYING in this directory. */ #include "config.h" #include "tunable.h" #include #include #if defined(STDC_HEADERS) #include #endif #if defined(HAVE_UNISTD_H) #include #endif #include #include #include #include "fetchmail.h" /* Python prettyprinting functions */ static int indent_level; static void indent(char ic) /* indent current line */ { int i; if (ic == ')' || ic == ']' || ic == '}') indent_level--; /* * The guard here is a kluge. It depends on the fact that in the * particular structure we're dumping, opening [s are always * initializers for dictionary members and thus will be preceded * by a member name. */ if (ic != '[') { for (i = 0; i < indent_level / 2; i++) putc('\t', stdout); if (indent_level % 2) fputs(" ", stdout); } if (ic) { putc(ic, stdout); putc('\n', stdout); } if (ic == '(' || ic == '[' || ic == '{') indent_level++; } static void stringdump(const char *name, const char *member) /* dump a string member with current indent */ { indent('\0'); fprintf(stdout, "\"%s\":", name); if (member) fprintf(stdout, "\"%s\"", visbuf(member)); else fputs("None", stdout); fputs(",\n", stdout); } static void numdump(const char *name, const int num) /* dump a numeric quantity at current indent */ { indent('\0'); fprintf(stdout, "'%s':%d,\n", name, NUM_VALUE_OUT(num)); } static void booldump(const char *name, const int onoff) /* dump a boolean quantity at current indent */ { indent('\0'); if (onoff) fprintf(stdout, "'%s':TRUE,\n", name); else fprintf(stdout, "'%s':FALSE,\n", name); } static void listdump(const char *name, struct idlist *list) /* dump a string list member with current indent */ { indent('\0'); fprintf(stdout, "\"%s\":", name); if (!list) fputs("[],\n", stdout); else { struct idlist *idp; fputs("[", stdout); for (idp = list; idp; idp = idp->next) if (idp->id) { fprintf(stdout, "\"%s\"", visbuf(idp->id)); if (idp->next) fputs(", ", stdout); } fputs("],\n", stdout); } } /* * Note: this function dumps the entire configuration, * after merging of the defaults record (if any). It * is intended to produce output parseable by a configuration * front end, not anything especially comfortable for humans. */ void dump_config(struct runctl *runp, struct query *querylist) /* dump the in-core configuration in recompilable form */ { struct query *ctl; struct idlist *idp; const char *features; indent_level = 0; /* * These had better match the values fetchmailconf is expecting! * (We don't want to import them from Tkinter because the user * might not have it installed.) */ fputs("TRUE=1; FALSE=0\n\n", stdout); /* * We need this in order to know whether `interface' and `monitor' * are valid options or not. */ #if defined(linux) fputs("os_type = 'linux'\n", stdout); #elif defined(__FreeBSD__) fputs("os_type = 'freebsd'\n", stdout); #else fputs("os_type = 'generic'\n", stdout); #endif /* * This should be approximately in sync with the -V option dumping * in fetchmail.c. */ features = "feature_options = (" #ifdef POP2_ENABLE "'pop2'," #endif /* POP2_ENABLE */ #ifdef POP3_ENABLE "'pop3'," #endif /* POP3_ENABLE */ #ifdef IMAP_ENABLE "'imap'," #endif /* IMAP_ENABLE */ #ifdef GSS

		README for shipper

shipper automates the tedious process of shipping a software release to
several standard places, including ibiblio, the Red Hat submission directory,
and your own hosted website.  It also knows how to post a release announcement
to freshmeat.net via freshmeat-submit.  Two auxiliary tools, buildrpms and 
rpm2lsm, build RPMs and generate LSM files from them respectively.

l->preconnect); stringdump("postconnect", ctl->postconnect); numdump("limit", ctl->limit); numdump("warnings", ctl->warnings); numdump("fetchlimit", ctl->fetchlimit); numdump("fetchsizelimit", ctl->fetchsizelimit); numdump("fastuidl", ctl->fastuidl); numdump("batchlimit", ctl->batchlimit); #ifdef SSL_ENABLE booldump("ssl", ctl->use_ssl); stringdump("sslkey", ctl->sslkey); stringdump("sslcert", ctl->sslcert); stringdump("sslproto", ctl->sslproto); booldump("sslcertck", ctl->sslcertck); stringdump("sslcertpath", ctl->sslcertpath); stringdump("sslcommonname", ctl->sslcommonname); stringdump("sslfingerprint", ctl->sslfingerprint); #endif /* SSL_ENABLE */ numdump("expunge", ctl->expunge); stringdump("properties", ctl->properties); listdump("smtphunt", ctl->smtphunt); listdump("fetchdomains", ctl->domainlist); stringdump("smtpaddress", ctl->smtpaddress); stringdump("smtpname", ctl->smtpname); indent('\0'); fprintf(stdout, "'antispam':'"); for (idp = ctl->antispam; idp; idp = idp->next) { fprintf(stdout, "%d", idp->val.status.num); if (idp->next) fputs(" ", stdout); } fputs("',\n", stdout); listdump("mailboxes", ctl->mailboxes); indent('}'); indent('\0'); fputc(',', stdout); } /* end last span of user entries and last server entry */ indent(']'); indent('}'); /* end array of servers */ indent(']'); alldone: /* end top-level dictionary */ indent('}'); fputs("# End of initializer\n", stdout); } /* conf.c ends here */