solanum-vs-hackint-and-char.../ircd/newconf.c

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/* This code is in the public domain.
*/
#include "stdinc.h"
#ifdef HAVE_LIBCRYPTO
OpenSSL 3.0 compatibility Edited by @aaronmdjones: - Correct some data types and casts - Minor style fixups (e.g. we put * on the variable name not the type) - librb/src/openssl.c: - Defer call of BIO_free(3ssl) to the end of the conditional block to avoid having calls to it in multiple paths - Check the return value of SSL_CTX_set0_tmp_dh_pkey(3ssl) because if it fails then we must use EVP_PKEY_free(3ssl) to avoid a memory leak This could fail if, for example, the user supplied DSA parameters in the DH parameters file instead. - ircd/newconf.c: - Check whether OSSL_DECODER_CTX_new_for_pkey(3ssl) was able to parse the given CHALLANGE public key as a valid RSA public key, and then check whether OSSL_DECODER_from_bio(3ssl) actually loads it successfully - ircd/s_newconf.c: - Use EVP_PKEY_free(3ssl) instead of OPENSSL_free(3ssl) on EVP_PKEY pointers; this will avoid inadvertent memory leaks if the EVP_PKEY structure contains any dynamically-allocated child members - modules/m_challenge.c: - Unconditionally use EVP(3ssl) to generate the SHA-1 digest of the random challenge; this API has been around for a very long time and is available in all supported versions of OpenSSL - Add lots of error checking to all steps of the process Tested against 1.1.1 and 3.0; both with missing and provided DH parameters (which works as you'd expect; the server will not negotiate a DHE cipher without them), and CHALLENGE, including missing keys or keys of the wrong type (e.g. when you supply an EdDSA key instead of an RSA key). This does break compatibility with OpenSSL 1.1.0 and below, which are now all end-of-life and unsupported anyway. Closes #357
2022-08-13 03:40:48 +00:00
#include <openssl/evp.h>
#include <openssl/pem.h>
#include <openssl/rsa.h>
OpenSSL 3.0 compatibility Edited by @aaronmdjones: - Correct some data types and casts - Minor style fixups (e.g. we put * on the variable name not the type) - librb/src/openssl.c: - Defer call of BIO_free(3ssl) to the end of the conditional block to avoid having calls to it in multiple paths - Check the return value of SSL_CTX_set0_tmp_dh_pkey(3ssl) because if it fails then we must use EVP_PKEY_free(3ssl) to avoid a memory leak This could fail if, for example, the user supplied DSA parameters in the DH parameters file instead. - ircd/newconf.c: - Check whether OSSL_DECODER_CTX_new_for_pkey(3ssl) was able to parse the given CHALLANGE public key as a valid RSA public key, and then check whether OSSL_DECODER_from_bio(3ssl) actually loads it successfully - ircd/s_newconf.c: - Use EVP_PKEY_free(3ssl) instead of OPENSSL_free(3ssl) on EVP_PKEY pointers; this will avoid inadvertent memory leaks if the EVP_PKEY structure contains any dynamically-allocated child members - modules/m_challenge.c: - Unconditionally use EVP(3ssl) to generate the SHA-1 digest of the random challenge; this API has been around for a very long time and is available in all supported versions of OpenSSL - Add lots of error checking to all steps of the process Tested against 1.1.1 and 3.0; both with missing and provided DH parameters (which works as you'd expect; the server will not negotiate a DHE cipher without them), and CHALLENGE, including missing keys or keys of the wrong type (e.g. when you supply an EdDSA key instead of an RSA key). This does break compatibility with OpenSSL 1.1.0 and below, which are now all end-of-life and unsupported anyway. Closes #357
2022-08-13 03:40:48 +00:00
#if (OPENSSL_VERSION_NUMBER >= 0x30000000L)
#include <openssl/decoder.h>
#include <openssl/core.h>
#endif
#endif
#include "newconf.h"
#include "ircd_defs.h"
#include "logger.h"
#include "s_conf.h"
#include "s_user.h"
#include "s_newconf.h"
#include "send.h"
#include "setup.h"
#include "modules.h"
#include "listener.h"
#include "hostmask.h"
#include "s_serv.h"
#include "hash.h"
#include "cache.h"
#include "ircd.h"
#include "snomask.h"
#include "sslproc.h"
#include "wsproc.h"
#include "privilege.h"
#include "chmode.h"
#include "certfp.h"
#define CF_TYPE(x) ((x) & CF_MTYPE)
static int yy_defer_accept = 1;
static int yy_wsock = 0;
struct TopConf *conf_cur_block;
static char *conf_cur_block_name = NULL;
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static rb_dlink_list conf_items;
static struct ConfItem *yy_aconf = NULL;
static struct Class *yy_class = NULL;
static struct remote_conf *yy_shared = NULL;
static struct server_conf *yy_server = NULL;
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static rb_dlink_list yy_aconf_list;
static rb_dlink_list yy_oper_list;
static rb_dlink_list yy_cluster_list;
static struct oper_conf *yy_oper = NULL;
static struct alias_entry *yy_alias = NULL;
static char *yy_dnsbl_entry_host = NULL;
static char *yy_dnsbl_entry_reason = NULL;
static uint8_t yy_dnsbl_entry_iptype = 0;
static rb_dlink_list yy_dnsbl_entry_filters = { NULL, NULL, 0 };
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static char *yy_opm_address_ipv4 = NULL;
static char *yy_opm_address_ipv6 = NULL;
static uint16_t yy_opm_port_ipv4 = 0;
static uint16_t yy_opm_port_ipv6 = 0;
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static int yy_opm_timeout = 0;
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static rb_dlink_list yy_opm_scanner_list;
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static char *yy_privset_extends = NULL;
static const char *
conf_strtype(int type)
{
switch (CF_TYPE(type))
{
case CF_INT:
return "integer value";
case CF_STRING:
return "unquoted string";
case CF_YESNO:
return "yes/no value";
case CF_QSTRING:
return "quoted string";
case CF_TIME:
return "time/size value";
default:
return "unknown type";
}
}
int
add_top_conf(const char *name, int (*sfunc) (struct TopConf *),
int (*efunc) (struct TopConf *), struct ConfEntry *items)
{
struct TopConf *tc;
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tc = rb_malloc(sizeof(struct TopConf));
tc->tc_name = name;
tc->tc_sfunc = sfunc;
tc->tc_efunc = efunc;
tc->tc_entries = items;
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rb_dlinkAddAlloc(tc, &conf_items);
return 0;
}
struct TopConf *
find_top_conf(const char *name)
{
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rb_dlink_node *d;
struct TopConf *tc;
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RB_DLINK_FOREACH(d, conf_items.head)
{
tc = d->data;
if(rb_strcasecmp(tc->tc_name, name) == 0)
return tc;
}
return NULL;
}
struct ConfEntry *
find_conf_item(const struct TopConf *top, const char *name)
{
struct ConfEntry *cf;
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rb_dlink_node *d;
if(top->tc_entries)
{
int i;
for(i = 0; top->tc_entries[i].cf_type; i++)
{
cf = &top->tc_entries[i];
if(!rb_strcasecmp(cf->cf_name, name))
return cf;
}
}
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RB_DLINK_FOREACH(d, top->tc_items.head)
{
cf = d->data;
if(rb_strcasecmp(cf->cf_name, name) == 0)
return cf;
}
return NULL;
}
int
remove_top_conf(char *name)
{
struct TopConf *tc;
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rb_dlink_node *ptr;
if((tc = find_top_conf(name)) == NULL)
return -1;
2008-04-01 20:41:52 +00:00
if((ptr = rb_dlinkFind(tc, &conf_items)) == NULL)
return -1;
2008-04-01 20:41:52 +00:00
rb_dlinkDestroy(ptr, &conf_items);
rb_free(tc);
return 0;
}
static void
conf_set_serverinfo_name(void *data)
{
if(ServerInfo.name == NULL)
{
const char *s;
int dots = 0;
for(s = data; *s != '\0'; s++)
{
if(!IsServChar(*s))
{
conf_report_error("Ignoring serverinfo::name "
"-- bogus servername.");
return;
}
else if(*s == '.')
++dots;
}
if(!dots)
{
conf_report_error("Ignoring serverinfo::name -- must contain '.'");
return;
}
s = data;
if(IsDigit(*s))
{
conf_report_error("Ignoring serverinfo::name -- cannot begin with digit.");
return;
}
/* the ircd will exit() in main() if we dont set one */
if(strlen(s) <= HOSTLEN)
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ServerInfo.name = rb_strdup((char *) data);
}
}
static void
conf_set_serverinfo_sid(void *data)
{
char *sid = data;
if(ServerInfo.sid[0] == '\0')
{
if(!IsDigit(sid[0]) || !IsIdChar(sid[1]) ||
!IsIdChar(sid[2]) || sid[3] != '\0')
{
conf_report_error("Ignoring serverinfo::sid "
"-- bogus sid.");
return;
}
rb_strlcpy(ServerInfo.sid, sid, sizeof(ServerInfo.sid));
}
}
static void
conf_set_serverinfo_network_name(void *data)
{
char *p;
if((p = strchr((char *) data, ' ')))
*p = '\0';
rb_free(ServerInfo.network_name);
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ServerInfo.network_name = rb_strdup((char *) data);
}
static void
conf_set_serverinfo_vhost(void *data)
{
struct rb_sockaddr_storage addr;
if(rb_inet_pton_sock(data, &addr) <= 0 || GET_SS_FAMILY(&addr) != AF_INET)
{
conf_report_error("Invalid IPv4 address for server vhost (%s)", (char *) data);
return;
}
ServerInfo.bind4 = addr;
}
static void
conf_set_serverinfo_vhost6(void *data)
{
struct rb_sockaddr_storage addr;
if(rb_inet_pton_sock(data, &addr) <= 0 || GET_SS_FAMILY(&addr) != AF_INET6)
{
conf_report_error("Invalid IPv6 address for server vhost (%s)", (char *) data);
return;
}
ServerInfo.bind6 = addr;
}
static void
conf_set_serverinfo_nicklen(void *data)
{
ConfigFileEntry.nicklen = (*(unsigned int *) data) + 1;
if (ConfigFileEntry.nicklen > NICKLEN)
{
conf_report_error("Warning -- ignoring serverinfo::nicklen -- provided nicklen (%u) is greater than allowed nicklen (%u)",
ConfigFileEntry.nicklen - 1, NICKLEN - 1);
ConfigFileEntry.nicklen = NICKLEN;
}
else if (ConfigFileEntry.nicklen < 9 + 1)
{
conf_report_error("Warning -- serverinfo::nicklen is too low (%u) -- forcing 9",
ConfigFileEntry.nicklen - 1);
ConfigFileEntry.nicklen = 9 + 1;
}
}
static void
conf_set_modules_module(void *data)
{
char *m_bn;
m_bn = rb_basename((char *) data);
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if(findmodule_byname(m_bn) == NULL)
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load_one_module((char *) data, MAPI_ORIGIN_EXTENSION, false);
rb_free(m_bn);
}
static void
conf_set_modules_path(void *data)
{
mod_add_path((char *) data);
}
struct mode_table
{
const char *name;
int mode;
};
/* *INDENT-OFF* */
static struct mode_table umode_table[] = {
{"deaf", UMODE_DEAF },
{"invisible", UMODE_INVISIBLE },
{"locops", UMODE_LOCOPS },
{"noforward", UMODE_NOFORWARD },
{"servnotice", UMODE_SERVNOTICE},
{"wallop", UMODE_WALLOP },
{"operwall", UMODE_OPERWALL },
{NULL, 0}
};
static struct mode_table oper_table[] = {
{"encrypted", OPER_ENCRYPTED },
{"need_ssl", OPER_NEEDSSL },
{NULL, 0}
};
static struct mode_table auth_table[] = {
2016-04-02 07:42:11 +00:00
{"encrypted", CONF_FLAGS_ENCRYPTED },
{"spoof_notice", CONF_FLAGS_SPOOF_NOTICE },
{"exceed_limit", CONF_FLAGS_NOLIMIT },
{"dnsbl_exempt", CONF_FLAGS_EXEMPTDNSBL },
{"proxy_exempt", CONF_FLAGS_EXEMPTPROXY },
{"kline_exempt", CONF_FLAGS_EXEMPTKLINE },
{"flood_exempt", CONF_FLAGS_EXEMPTFLOOD },
{"spambot_exempt", CONF_FLAGS_EXEMPTSPAMBOT },
{"shide_exempt", CONF_FLAGS_EXEMPTSHIDE },
{"jupe_exempt", CONF_FLAGS_EXEMPTJUPE },
{"resv_exempt", CONF_FLAGS_EXEMPTRESV },
{"no_tilde", CONF_FLAGS_NO_TILDE },
{"need_ident", CONF_FLAGS_NEED_IDENTD },
{"have_ident", CONF_FLAGS_NEED_IDENTD },
{"need_ssl", CONF_FLAGS_NEED_SSL },
{"need_sasl", CONF_FLAGS_NEED_SASL },
{"extend_chans", CONF_FLAGS_EXTEND_CHANS },
{"allow_sctp", CONF_FLAGS_ALLOW_SCTP },
{"kline_spoof_ip", CONF_FLAGS_KLINE_SPOOF },
{NULL, 0}
};
static struct mode_table connect_table[] = {
{ "autoconn", SERVER_AUTOCONN },
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{ "compressed", 0 },
{ "encrypted", SERVER_ENCRYPTED },
{ "topicburst", SERVER_TB },
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{ "sctp", SERVER_SCTP },
{ "ssl", SERVER_SSL },
{ "no-export", SERVER_NO_EXPORT },
{ NULL, 0 },
};
static struct mode_table cluster_table[] = {
{ "kline", SHARED_PKLINE },
{ "tkline", SHARED_TKLINE },
{ "unkline", SHARED_UNKLINE },
{ "locops", SHARED_LOCOPS },
{ "xline", SHARED_PXLINE },
{ "txline", SHARED_TXLINE },
{ "unxline", SHARED_UNXLINE },
{ "resv", SHARED_PRESV },
{ "tresv", SHARED_TRESV },
{ "unresv", SHARED_UNRESV },
{ "all", CLUSTER_ALL },
{NULL, 0}
};
/* *INDENT-ON* */
static int
find_umode(struct mode_table *tab, const char *name)
{
int i;
for (i = 0; tab[i].name; i++)
{
if(strcmp(tab[i].name, name) == 0)
return tab[i].mode;
}
return -1;
}
static void
set_modes_from_table(int *modes, const char *whatis, struct mode_table *tab, conf_parm_t * args)
{
for (; args; args = args->next)
{
const char *umode;
int dir = 1;
int mode;
if(CF_TYPE(args->type) != CF_STRING)
{
conf_report_error("Warning -- %s is not a string; ignoring.", whatis);
continue;
}
umode = args->v.string;
if(*umode == '~')
{
dir = 0;
umode++;
}
mode = find_umode(tab, umode);
if(mode == -1)
{
conf_report_error("Warning -- unknown %s %s.", whatis, args->v.string);
continue;
}
if(mode)
{
if(dir)
*modes |= mode;
else
*modes &= ~mode;
}
else
*modes = 0;
}
}
static void
parse_umodes(const char *pm, int *values, int *mask)
{
int what = MODE_ADD, flag;
*values = 0;
if (NULL != mask)
*mask = 0;
for (; *pm; pm++)
{
switch (*pm)
{
case '+':
what = MODE_ADD;
break;
case '-':
what = MODE_DEL;
break;
/* don't allow +o */
case 'o':
case 'S':
case 'Z':
case ' ':
break;
default:
flag = user_modes[(unsigned char) *pm];
if (flag)
{
/* Proper value has probably not yet been set
* so don't check oper_only_umodes -- jilles */
if (what == MODE_ADD)
*values |= flag;
else
*values &= ~flag;
if (NULL != mask)
*mask |= flag;
}
break;
}
}
}
static void
conf_set_privset_extends(void *data)
{
yy_privset_extends = rb_strdup((char *) data);
}
static void
conf_set_privset_privs(void *data)
{
char *privs = NULL;
conf_parm_t *args = data;
for (; args; args = args->next)
{
if (privs == NULL)
privs = rb_strdup(args->v.string);
else
{
char *privs_old = privs;
privs = rb_malloc(strlen(privs_old) + 1 + strlen(args->v.string) + 1);
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strcpy(privs, privs_old);
strcat(privs, " ");
strcat(privs, args->v.string);
rb_free(privs_old);
}
}
if (privs)
{
if (yy_privset_extends)
{
struct PrivilegeSet *set = privilegeset_get(yy_privset_extends);
if (!set)
{
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conf_report_error("Warning -- unknown parent privilege set %s for %s; assuming defaults", yy_privset_extends, conf_cur_block_name);
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set = privilegeset_get("default");
}
privilegeset_extend(set, conf_cur_block_name != NULL ? conf_cur_block_name : "<unknown>", privs, 0);
rb_free(yy_privset_extends);
yy_privset_extends = NULL;
}
else
privilegeset_set_new(conf_cur_block_name != NULL ? conf_cur_block_name : "<unknown>", privs, 0);
rb_free(privs);
}
}
static int
conf_begin_oper(struct TopConf *tc)
{
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rb_dlink_node *ptr;
rb_dlink_node *next_ptr;
if(yy_oper != NULL)
{
free_oper_conf(yy_oper);
yy_oper = NULL;
}
RB_DLINK_FOREACH_SAFE(ptr, next_ptr, yy_oper_list.head)
{
free_oper_conf(ptr->data);
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rb_dlinkDestroy(ptr, &yy_oper_list);
}
yy_oper = make_oper_conf();
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yy_oper->flags |= OPER_ENCRYPTED;
return 0;
}
static int
conf_end_oper(struct TopConf *tc)
{
struct oper_conf *yy_tmpoper;
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rb_dlink_node *ptr;
rb_dlink_node *next_ptr;
if(conf_cur_block_name != NULL)
{
if(strlen(conf_cur_block_name) > OPERNICKLEN)
conf_cur_block_name[OPERNICKLEN] = '\0';
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yy_oper->name = rb_strdup(conf_cur_block_name);
}
if(EmptyString(yy_oper->name))
{
conf_report_error("Ignoring operator block -- missing name.");
return 0;
}
#ifdef HAVE_LIBCRYPTO
if(EmptyString(yy_oper->passwd) && EmptyString(yy_oper->rsa_pubkey_file))
#else
if(EmptyString(yy_oper->passwd))
#endif
{
conf_report_error("Ignoring operator block for %s -- missing password",
yy_oper->name);
return 0;
}
if (!yy_oper->privset)
yy_oper->privset = privilegeset_get("default");
/* now, yy_oper_list contains a stack of oper_conf's with just user
* and host in, yy_oper contains the rest of the information which
* we need to copy into each element in yy_oper_list
*/
RB_DLINK_FOREACH_SAFE(ptr, next_ptr, yy_oper_list.head)
{
yy_tmpoper = ptr->data;
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yy_tmpoper->name = rb_strdup(yy_oper->name);
/* could be an rsa key instead.. */
if(!EmptyString(yy_oper->passwd))
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yy_tmpoper->passwd = rb_strdup(yy_oper->passwd);
yy_tmpoper->flags = yy_oper->flags;
yy_tmpoper->umodes = yy_oper->umodes;
yy_tmpoper->snomask = yy_oper->snomask;
yy_tmpoper->privset = yy_oper->privset;
#ifdef HAVE_LIBCRYPTO
if(yy_oper->rsa_pubkey_file)
{
BIO *file;
if((file = BIO_new_file(yy_oper->rsa_pubkey_file, "r")) == NULL)
{
conf_report_error("Ignoring operator block for %s -- "
"rsa_public_key_file cant be opened",
yy_tmpoper->name);
return 0;
}
OpenSSL 3.0 compatibility Edited by @aaronmdjones: - Correct some data types and casts - Minor style fixups (e.g. we put * on the variable name not the type) - librb/src/openssl.c: - Defer call of BIO_free(3ssl) to the end of the conditional block to avoid having calls to it in multiple paths - Check the return value of SSL_CTX_set0_tmp_dh_pkey(3ssl) because if it fails then we must use EVP_PKEY_free(3ssl) to avoid a memory leak This could fail if, for example, the user supplied DSA parameters in the DH parameters file instead. - ircd/newconf.c: - Check whether OSSL_DECODER_CTX_new_for_pkey(3ssl) was able to parse the given CHALLANGE public key as a valid RSA public key, and then check whether OSSL_DECODER_from_bio(3ssl) actually loads it successfully - ircd/s_newconf.c: - Use EVP_PKEY_free(3ssl) instead of OPENSSL_free(3ssl) on EVP_PKEY pointers; this will avoid inadvertent memory leaks if the EVP_PKEY structure contains any dynamically-allocated child members - modules/m_challenge.c: - Unconditionally use EVP(3ssl) to generate the SHA-1 digest of the random challenge; this API has been around for a very long time and is available in all supported versions of OpenSSL - Add lots of error checking to all steps of the process Tested against 1.1.1 and 3.0; both with missing and provided DH parameters (which works as you'd expect; the server will not negotiate a DHE cipher without them), and CHALLENGE, including missing keys or keys of the wrong type (e.g. when you supply an EdDSA key instead of an RSA key). This does break compatibility with OpenSSL 1.1.0 and below, which are now all end-of-life and unsupported anyway. Closes #357
2022-08-13 03:40:48 +00:00
#if (OPENSSL_VERSION_NUMBER >= 0x30000000L)
OSSL_DECODER_CTX *const ctx = OSSL_DECODER_CTX_new_for_pkey(
&yy_tmpoper->rsa_pubkey, "PEM", NULL, "RSA",
OSSL_KEYMGMT_SELECT_PUBLIC_KEY, NULL, NULL);
if(ctx != NULL)
{
if(OSSL_DECODER_CTX_get_num_decoders(ctx) < 1 ||
OSSL_DECODER_from_bio(ctx, file) < 1)
{
EVP_PKEY_free(yy_tmpoper->rsa_pubkey);
yy_tmpoper->rsa_pubkey = NULL;
}
OSSL_DECODER_CTX_free(ctx);
}
#else
yy_tmpoper->rsa_pubkey =
(RSA *) PEM_read_bio_RSA_PUBKEY(file, NULL, 0, NULL);
OpenSSL 3.0 compatibility Edited by @aaronmdjones: - Correct some data types and casts - Minor style fixups (e.g. we put * on the variable name not the type) - librb/src/openssl.c: - Defer call of BIO_free(3ssl) to the end of the conditional block to avoid having calls to it in multiple paths - Check the return value of SSL_CTX_set0_tmp_dh_pkey(3ssl) because if it fails then we must use EVP_PKEY_free(3ssl) to avoid a memory leak This could fail if, for example, the user supplied DSA parameters in the DH parameters file instead. - ircd/newconf.c: - Check whether OSSL_DECODER_CTX_new_for_pkey(3ssl) was able to parse the given CHALLANGE public key as a valid RSA public key, and then check whether OSSL_DECODER_from_bio(3ssl) actually loads it successfully - ircd/s_newconf.c: - Use EVP_PKEY_free(3ssl) instead of OPENSSL_free(3ssl) on EVP_PKEY pointers; this will avoid inadvertent memory leaks if the EVP_PKEY structure contains any dynamically-allocated child members - modules/m_challenge.c: - Unconditionally use EVP(3ssl) to generate the SHA-1 digest of the random challenge; this API has been around for a very long time and is available in all supported versions of OpenSSL - Add lots of error checking to all steps of the process Tested against 1.1.1 and 3.0; both with missing and provided DH parameters (which works as you'd expect; the server will not negotiate a DHE cipher without them), and CHALLENGE, including missing keys or keys of the wrong type (e.g. when you supply an EdDSA key instead of an RSA key). This does break compatibility with OpenSSL 1.1.0 and below, which are now all end-of-life and unsupported anyway. Closes #357
2022-08-13 03:40:48 +00:00
#endif
2007-12-12 23:20:06 +00:00
(void)BIO_set_close(file, BIO_CLOSE);
BIO_free(file);
if(yy_tmpoper->rsa_pubkey == NULL)
{
conf_report_error("Ignoring operator block for %s -- "
"rsa_public_key_file key invalid; check syntax",
yy_tmpoper->name);
return 0;
}
}
if(!EmptyString(yy_oper->certfp))
yy_tmpoper->certfp = rb_strdup(yy_oper->certfp);
#endif
/* all is ok, put it on oper_conf_list */
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rb_dlinkMoveNode(ptr, &yy_oper_list, &oper_conf_list);
}
free_oper_conf(yy_oper);
yy_oper = NULL;
return 0;
}
static void
conf_set_oper_flags(void *data)
{
conf_parm_t *args = data;
set_modes_from_table(&yy_oper->flags, "flag", oper_table, args);
}
static void
conf_set_oper_fingerprint(void *data)
{
if (yy_oper->certfp)
rb_free(yy_oper->certfp);
yy_oper->certfp = rb_strdup((char *) data);
}
static void
conf_set_oper_privset(void *data)
{
yy_oper->privset = privilegeset_get((char *) data);
}
static void
conf_set_oper_user(void *data)
{
struct oper_conf *yy_tmpoper;
char *p;
char *host = (char *) data;
yy_tmpoper = make_oper_conf();
if((p = strchr(host, '@')))
{
*p++ = '\0';
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yy_tmpoper->username = rb_strdup(host);
yy_tmpoper->host = rb_strdup(p);
}
else
{
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yy_tmpoper->username = rb_strdup("*");
yy_tmpoper->host = rb_strdup(host);
}
if(EmptyString(yy_tmpoper->username) || EmptyString(yy_tmpoper->host))
{
conf_report_error("Ignoring user -- missing username/host");
free_oper_conf(yy_tmpoper);
return;
}
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rb_dlinkAddAlloc(yy_tmpoper, &yy_oper_list);
}
static void
conf_set_oper_password(void *data)
{
if(yy_oper->passwd)
{
memset(yy_oper->passwd, 0, strlen(yy_oper->passwd));
rb_free(yy_oper->passwd);
}
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yy_oper->passwd = rb_strdup((char *) data);
}
static void
conf_set_oper_rsa_public_key_file(void *data)
{
#ifdef HAVE_LIBCRYPTO
rb_free(yy_oper->rsa_pubkey_file);
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yy_oper->rsa_pubkey_file = rb_strdup((char *) data);
#else
conf_report_error("Warning -- ignoring rsa_public_key_file (OpenSSL support not available");
#endif
}
static void
conf_set_oper_umodes(void *data)
{
set_modes_from_table(&yy_oper->umodes, "umode", umode_table, data);
}
static void
conf_set_oper_snomask(void *data)
{
yy_oper->snomask = parse_snobuf_to_mask(0, (const char *) data);
}
static int
conf_begin_class(struct TopConf *tc)
{
if(yy_class)
free_class(yy_class);
yy_class = make_class();
return 0;
}
static int
conf_end_class(struct TopConf *tc)
{
if(conf_cur_block_name != NULL)
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yy_class->class_name = rb_strdup(conf_cur_block_name);
if(EmptyString(yy_class->class_name))
{
conf_report_error("Ignoring class block -- missing name.");
return 0;
}
add_class(yy_class);
yy_class = NULL;
return 0;
}
static void
conf_set_class_ping_time(void *data)
{
yy_class->ping_freq = *(unsigned int *) data;
}
static void
conf_set_class_cidr_ipv4_bitlen(void *data)
{
unsigned int maxsize = 32;
if(*(unsigned int *) data > maxsize)
conf_report_error
("class::cidr_ipv4_bitlen argument exceeds maxsize (%d > %d) - ignoring.",
*(unsigned int *) data, maxsize);
else
yy_class->cidr_ipv4_bitlen = *(unsigned int *) data;
}
static void
conf_set_class_cidr_ipv6_bitlen(void *data)
{
unsigned int maxsize = 128;
if(*(unsigned int *) data > maxsize)
conf_report_error
("class::cidr_ipv6_bitlen argument exceeds maxsize (%d > %d) - ignoring.",
*(unsigned int *) data, maxsize);
else
yy_class->cidr_ipv6_bitlen = *(unsigned int *) data;
}
static void
conf_set_class_number_per_cidr(void *data)
{
yy_class->cidr_amount = *(unsigned int *) data;
}
static void
conf_set_class_number_per_ip(void *data)
{
yy_class->max_local = *(unsigned int *) data;
}
static void
conf_set_class_number_per_ip_global(void *data)
{
yy_class->max_global = *(unsigned int *) data;
}
static void
conf_set_class_number_per_ident(void *data)
{
yy_class->max_ident = *(unsigned int *) data;
}
static void
conf_set_class_connectfreq(void *data)
{
yy_class->con_freq = *(unsigned int *) data;
}
static void
conf_set_class_max_number(void *data)
{
yy_class->max_total = *(unsigned int *) data;
}
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static void
conf_set_class_max_autoconn(void *data)
{
yy_class->max_autoconn = *(unsigned int *) data;
}
static void
conf_set_class_sendq(void *data)
{
yy_class->max_sendq = *(unsigned int *) data;
}
static char *listener_address[2];
static int
conf_begin_listen(struct TopConf *tc)
{
for (int i = 0; i < ARRAY_SIZE(listener_address); i++) {
rb_free(listener_address[i]);
listener_address[i] = NULL;
}
yy_wsock = 0;
yy_defer_accept = 0;
return 0;
}
static int
conf_end_listen(struct TopConf *tc)
{
for (int i = 0; i < ARRAY_SIZE(listener_address); i++) {
rb_free(listener_address[i]);
listener_address[i] = NULL;
}
yy_wsock = 0;
yy_defer_accept = 0;
return 0;
}
static void
conf_set_listen_defer_accept(void *data)
{
yy_defer_accept = *(unsigned int *) data;
}
static void
conf_set_listen_wsock(void *data)
{
yy_wsock = *(unsigned int *) data;
}
static void
conf_set_listen_port_both(void *data, int ssl, int sctp)
{
conf_parm_t *args = data;
for (; args; args = args->next)
{
if(CF_TYPE(args->type) != CF_INT)
{
conf_report_error("listener::port argument is not an integer -- ignoring.");
continue;
}
if(listener_address[0] == NULL)
{
if (sctp) {
conf_report_error("listener::sctp_port has no addresses -- ignoring.");
} else {
add_tcp_listener(args->v.number, NULL, AF_INET, ssl, ssl || yy_defer_accept, yy_wsock);
add_tcp_listener(args->v.number, NULL, AF_INET6, ssl, ssl || yy_defer_accept, yy_wsock);
}
}
else
{
int family;
if(strchr(listener_address[0], ':') != NULL)
family = AF_INET6;
else
family = AF_INET;
if (sctp) {
#ifdef HAVE_LIBSCTP
add_sctp_listener(args->v.number, listener_address[0], listener_address[1], ssl, yy_wsock);
#else
conf_report_error("Warning -- ignoring listener::sctp_port -- SCTP support not available.");
#endif
} else {
add_tcp_listener(args->v.number, listener_address[0], family, ssl, ssl || yy_defer_accept, yy_wsock);
}
}
}
}
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static void
conf_set_listen_port(void *data)
{
conf_set_listen_port_both(data, 0, 0);
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}
static void
conf_set_listen_sslport(void *data)
{
conf_set_listen_port_both(data, 1, 0 );
}
static void
conf_set_listen_sctp_port(void *data)
{
conf_set_listen_port_both(data, 0, 1);
}
static void
conf_set_listen_sctp_sslport(void *data)
{
conf_set_listen_port_both(data, 1, 1);
}
static void
conf_set_listen_address(void *data)
{
rb_free(listener_address[1]);
listener_address[1] = listener_address[0];
listener_address[0] = rb_strdup(data);
}
static int
conf_begin_auth(struct TopConf *tc)
{
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rb_dlink_node *ptr;
rb_dlink_node *next_ptr;
if(yy_aconf)
free_conf(yy_aconf);
RB_DLINK_FOREACH_SAFE(ptr, next_ptr, yy_aconf_list.head)
{
free_conf(ptr->data);
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rb_dlinkDestroy(ptr, &yy_aconf_list);
}
yy_aconf = make_conf();
yy_aconf->status = CONF_CLIENT;
return 0;
}
static int
conf_end_auth(struct TopConf *tc)
{
struct ConfItem *yy_tmp, *found_conf;
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rb_dlink_node *ptr;
rb_dlink_node *next_ptr;
if(EmptyString(yy_aconf->info.name))
yy_aconf->info.name = rb_strdup("NOMATCH");
/* didnt even get one ->host? */
if(EmptyString(yy_aconf->host))
{
conf_report_error("Ignoring auth block -- missing user@host");
return 0;
}
/* so the stacking works in order.. */
collapse(yy_aconf->user);
collapse(yy_aconf->host);
conf_add_class_to_conf(yy_aconf);
if ((found_conf = find_exact_conf_by_address("*", CONF_CLIENT, "*")) && found_conf->spasswd == NULL)
conf_report_error("Ignoring redundant auth block (after *@*)");
else if ((found_conf = find_exact_conf_by_address(yy_aconf->host, CONF_CLIENT, yy_aconf->user)) &&
(!found_conf->spasswd || (yy_aconf->spasswd &&
0 == irccmp(found_conf->spasswd, yy_aconf->spasswd))))
conf_report_error("Ignoring duplicate auth block for %s@%s",
yy_aconf->user, yy_aconf->host);
else
add_conf_by_address(yy_aconf->host, CONF_CLIENT, yy_aconf->user, yy_aconf->spasswd, yy_aconf);
RB_DLINK_FOREACH_SAFE(ptr, next_ptr, yy_aconf_list.head)
{
yy_tmp = ptr->data;
if(yy_aconf->passwd)
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yy_tmp->passwd = rb_strdup(yy_aconf->passwd);
if(yy_aconf->spasswd)
yy_tmp->spasswd = rb_strdup(yy_aconf->spasswd);
/* this will always exist.. */
yy_tmp->info.name = rb_strdup(yy_aconf->info.name);
if(yy_aconf->className)
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yy_tmp->className = rb_strdup(yy_aconf->className);
if(yy_aconf->desc)
yy_tmp->desc = rb_strdup(yy_aconf->desc);
yy_tmp->flags = yy_aconf->flags;
yy_tmp->port = yy_aconf->port;
collapse(yy_tmp->user);
collapse(yy_tmp->host);
conf_add_class_to_conf(yy_tmp);
if ((found_conf = find_exact_conf_by_address("*", CONF_CLIENT, "*")) && found_conf->spasswd == NULL)
conf_report_error("Ignoring redundant auth block (after *@*)");
else if ((found_conf = find_exact_conf_by_address(yy_tmp->host, CONF_CLIENT, yy_tmp->user)) &&
(!found_conf->spasswd || (yy_tmp->spasswd &&
0 == irccmp(found_conf->spasswd, yy_tmp->spasswd))))
conf_report_error("Ignoring duplicate auth block for %s@%s",
yy_tmp->user, yy_tmp->host);
else
add_conf_by_address(yy_tmp->host, CONF_CLIENT, yy_tmp->user, yy_tmp->spasswd, yy_tmp);
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rb_dlinkDestroy(ptr, &yy_aconf_list);
}
yy_aconf = NULL;
return 0;
}
static void
conf_set_auth_user(void *data)
{
struct ConfItem *yy_tmp;
char *p;
/* The first user= line doesn't allocate a new conf */
if(!EmptyString(yy_aconf->host))
{
yy_tmp = make_conf();
yy_tmp->status = CONF_CLIENT;
}
else
yy_tmp = yy_aconf;
if((p = strchr(data, '@')))
{
*p++ = '\0';
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yy_tmp->user = rb_strdup(data);
yy_tmp->host = rb_strdup(p);
}
else
{
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yy_tmp->user = rb_strdup("*");
yy_tmp->host = rb_strdup(data);
}
if(yy_aconf != yy_tmp)
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rb_dlinkAddAlloc(yy_tmp, &yy_aconf_list);
}
static void
conf_set_auth_auth_user(void *data)
{
if(yy_aconf->spasswd)
memset(yy_aconf->spasswd, 0, strlen(yy_aconf->spasswd));
rb_free(yy_aconf->spasswd);
yy_aconf->spasswd = rb_strdup(data);
}
static void
conf_set_auth_passwd(void *data)
{
if(yy_aconf->passwd)
memset(yy_aconf->passwd, 0, strlen(yy_aconf->passwd));
rb_free(yy_aconf->passwd);
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yy_aconf->passwd = rb_strdup(data);
}
static void
conf_set_auth_spoof(void *data)
{
char *p;
char *user = NULL;
char *host = NULL;
host = data;
/* user@host spoof */
if((p = strchr(host, '@')) != NULL)
{
*p = '\0';
user = data;
host = p+1;
if(EmptyString(user))
{
conf_report_error("Warning -- spoof ident empty.");
return;
}
if(strlen(user) > USERLEN)
{
conf_report_error("Warning -- spoof ident length invalid.");
return;
}
if(!valid_username(user))
{
conf_report_error("Warning -- invalid spoof (ident).");
return;
}
/* this must be restored! */
*p = '@';
}
if(EmptyString(host))
{
conf_report_error("Warning -- spoof host empty.");
return;
}
if(strlen(host) > HOSTLEN)
{
conf_report_error("Warning -- spoof host length invalid.");
return;
}
if(!valid_hostname(host))
{
conf_report_error("Warning -- invalid spoof (host).");
return;
}
rb_free(yy_aconf->info.name);
yy_aconf->info.name = rb_strdup(data);
yy_aconf->flags |= CONF_FLAGS_SPOOF_IP;
}
static void
conf_set_auth_desc(void *data)
{
rb_free(yy_aconf->desc);
yy_aconf->desc = rb_strdup(data);
}
static void
conf_set_auth_flags(void *data)
{
conf_parm_t *args = data;
set_modes_from_table((int *) &yy_aconf->flags, "flag", auth_table, args);
}
static void
conf_set_auth_redir_serv(void *data)
{
yy_aconf->flags |= CONF_FLAGS_REDIR;
rb_free(yy_aconf->info.name);
yy_aconf->info.name = rb_strdup(data);
}
static void
conf_set_auth_redir_port(void *data)
{
int port = *(unsigned int *) data;
yy_aconf->flags |= CONF_FLAGS_REDIR;
yy_aconf->port = port;
}
static void
conf_set_auth_class(void *data)
{
rb_free(yy_aconf->className);
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yy_aconf->className = rb_strdup(data);
}
static void
conf_set_auth_umodes(void *data)
{
char *umodes = data;
parse_umodes(umodes, &yy_aconf->umodes, &yy_aconf->umodes_mask);
}
static int
conf_begin_connect(struct TopConf *tc)
{
if(yy_server)
free_server_conf(yy_server);
yy_server = make_server_conf();
yy_server->port = PORTNUM;
yy_server->flags |= SERVER_TB;
if(conf_cur_block_name != NULL)
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yy_server->name = rb_strdup(conf_cur_block_name);
return 0;
}
static int
conf_end_connect(struct TopConf *tc)
{
if (EmptyString(yy_server->name))
{
conf_report_error("Ignoring connect block -- missing name.");
return 0;
}
if (ServerInfo.name != NULL && !irccmp(ServerInfo.name, yy_server->name))
{
conf_report_error("Ignoring connect block for %s -- name is "
"equal to my own name.", yy_server->name);
return 0;
}
if ((EmptyString(yy_server->passwd) || EmptyString(yy_server->spasswd))
&& EmptyString(yy_server->certfp))
{
conf_report_error("Ignoring connect block for %s -- no "
"fingerprint or password credentials "
"provided.", yy_server->name);
return 0;
}
if ((yy_server->flags & SERVER_SSL) && EmptyString(yy_server->certfp))
{
conf_report_error("Ignoring connect block for %s -- no "
"fingerprint provided for SSL "
"connection.", yy_server->name);
return 0;
}
if (! (yy_server->flags & SERVER_SSL) && ! EmptyString(yy_server->certfp))
{
conf_report_error("Ignoring connect block for %s -- "
"fingerprint authentication has "
"been requested; but the ssl flag "
"is not set.", yy_server->name);
return 0;
}
if (EmptyString(yy_server->connect_host)
&& GET_SS_FAMILY(&yy_server->connect4) != AF_INET
&& GET_SS_FAMILY(&yy_server->connect6) != AF_INET6)
{
conf_report_error("Ignoring connect block for %s -- missing "
"host.", yy_server->name);
return 0;
}
add_server_conf(yy_server);
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rb_dlinkAdd(yy_server, &yy_server->node, &server_conf_list);
yy_server = NULL;
return 0;
}
static void
conf_set_connect_host(void *data)
{
struct rb_sockaddr_storage addr;
if(rb_inet_pton_sock(data, &addr) <= 0)
{
rb_free(yy_server->connect_host);
yy_server->connect_host = rb_strdup(data);
}
else if(GET_SS_FAMILY(&addr) == AF_INET)
{
yy_server->connect4 = addr;
}
else if(GET_SS_FAMILY(&addr) == AF_INET6)
{
yy_server->connect6 = addr;
}
else
{
conf_report_error("Unsupported IP address for server connect host (%s)",
(char *)data);
return;
}
}
static void
conf_set_connect_vhost(void *data)
{
struct rb_sockaddr_storage addr;
if(rb_inet_pton_sock(data, &addr) <= 0)
{
rb_free(yy_server->bind_host);
yy_server->bind_host = rb_strdup(data);
}
else if(GET_SS_FAMILY(&addr) == AF_INET)
{
yy_server->bind4 = addr;
}
else if(GET_SS_FAMILY(&addr) == AF_INET6)
{
yy_server->bind6 = addr;
}
else
{
conf_report_error("Unsupported IP address for server connect vhost (%s)",
(char *)data);
return;
}
}
static void
conf_set_connect_send_password(void *data)
{
if(yy_server->spasswd)
{
memset(yy_server->spasswd, 0, strlen(yy_server->spasswd));
rb_free(yy_server->spasswd);
}
if (EmptyString((const char *) data))
{
yy_server->spasswd = NULL;
conf_report_warning("Invalid send_password for connect "
"block; must not be empty if provided");
}
else if (strpbrk(data, " :"))
{
yy_server->spasswd = NULL;
conf_report_error("Invalid send_password for connect "
"block; cannot contain spaces or colons");
}
else
yy_server->spasswd = rb_strdup(data);
}
static void
conf_set_connect_accept_password(void *data)
{
if(yy_server->passwd)
{
memset(yy_server->passwd, 0, strlen(yy_server->passwd));
rb_free(yy_server->passwd);
}
if (EmptyString((const char *) data))
{
yy_server->passwd = NULL;
conf_report_warning("Invalid accept_password for connect "
"block; must not be empty if provided");
}
else if (strpbrk(data, " :"))
{
yy_server->passwd = NULL;
conf_report_error("Invalid accept_password for connect "
"block; cannot contain spaces or colons");
}
else
yy_server->passwd = rb_strdup(data);
}
static void
conf_set_connect_fingerprint(void *data)
{
if (yy_server->certfp)
rb_free(yy_server->certfp);
yy_server->certfp = rb_strdup((char *) data);
/* force SSL to be enabled if fingerprint is enabled. */
yy_server->flags |= SERVER_SSL;
}
static void
conf_set_connect_port(void *data)
{
int port = *(unsigned int *) data;
if(port < 1)
port = PORTNUM;
yy_server->port = port;
}
static void
conf_set_connect_aftype(void *data)
{
char *aft = data;
if(rb_strcasecmp(aft, "ipv4") == 0)
yy_server->aftype = AF_INET;
else if(rb_strcasecmp(aft, "ipv6") == 0)
yy_server->aftype = AF_INET6;
else
conf_report_error("connect::aftype '%s' is unknown.", aft);
}
static void
conf_set_connect_flags(void *data)
{
conf_parm_t *args = data;
set_modes_from_table(&yy_server->flags, "flag", connect_table, args);
}
static void
conf_set_connect_class(void *data)
{
rb_free(yy_server->class_name);
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yy_server->class_name = rb_strdup(data);
}
static void
conf_set_exempt_ip(void *data)
{
struct ConfItem *yy_tmp;
2020-07-05 23:45:49 +00:00
int masktype = parse_netmask_strict(data, NULL, NULL);
2020-07-05 23:45:49 +00:00
if(masktype != HM_IPV4 && masktype != HM_IPV6)
{
conf_report_error("Ignoring exempt -- invalid exempt::ip.");
return;
}
yy_tmp = make_conf();
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yy_tmp->passwd = rb_strdup("*");
yy_tmp->host = rb_strdup(data);
yy_tmp->status = CONF_EXEMPTDLINE;
add_conf_by_address(yy_tmp->host, CONF_EXEMPTDLINE, NULL, NULL, yy_tmp);
}
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static void
conf_set_secure_ip(void *data)
{
struct ConfItem *yy_tmp;
int masktype = parse_netmask_strict(data, NULL, NULL);
if(masktype != HM_IPV4 && masktype != HM_IPV6)
{
conf_report_error("Ignoring secure -- invalid secure::ip.");
return;
}
yy_tmp = make_conf();
yy_tmp->passwd = rb_strdup("*");
yy_tmp->host = rb_strdup(data);
yy_tmp->status = CONF_SECURE;
add_conf_by_address(yy_tmp->host, CONF_SECURE, NULL, NULL, yy_tmp);
}
static int
conf_cleanup_cluster(struct TopConf *tc)
{
rb_dlink_node *ptr, *next_ptr;
RB_DLINK_FOREACH_SAFE(ptr, next_ptr, yy_cluster_list.head)
{
free_remote_conf(ptr->data);
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rb_dlinkDestroy(ptr, &yy_cluster_list);
}
if(yy_shared != NULL)
{
free_remote_conf(yy_shared);
yy_shared = NULL;
}
return 0;
}
static void
conf_set_cluster_name(void *data)
{
if(yy_shared != NULL)
free_remote_conf(yy_shared);
yy_shared = make_remote_conf();
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yy_shared->server = rb_strdup(data);
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rb_dlinkAddAlloc(yy_shared, &yy_cluster_list);
yy_shared = NULL;
}
static void
conf_set_cluster_flags(void *data)
{
conf_parm_t *args = data;
int flags = 0;
rb_dlink_node *ptr, *next_ptr;
if(yy_shared != NULL)
free_remote_conf(yy_shared);
set_modes_from_table(&flags, "flag", cluster_table, args);
RB_DLINK_FOREACH_SAFE(ptr, next_ptr, yy_cluster_list.head)
{
yy_shared = ptr->data;
yy_shared->flags = flags;
2008-04-01 20:41:52 +00:00
rb_dlinkAddTail(yy_shared, &yy_shared->node, &cluster_conf_list);
rb_dlinkDestroy(ptr, &yy_cluster_list);
}
yy_shared = NULL;
}
static void
conf_set_general_havent_read_conf(void *data)
{
if(*(unsigned int *) data)
{
conf_report_error("You haven't read your config file properly.");
conf_report_error
("There is a line in the example conf that will kill your server if not removed.");
conf_report_error
("Consider actually reading/editing the conf file, and removing this line.");
if (!testing_conf)
exit(0);
}
}
static void
conf_set_general_hide_error_messages(void *data)
{
char *val = data;
if(rb_strcasecmp(val, "yes") == 0)
ConfigFileEntry.hide_error_messages = 2;
else if(rb_strcasecmp(val, "opers") == 0)
ConfigFileEntry.hide_error_messages = 1;
else if(rb_strcasecmp(val, "no") == 0)
ConfigFileEntry.hide_error_messages = 0;
else
conf_report_error("Invalid setting '%s' for general::hide_error_messages.", val);
}
static void
conf_set_general_stats_k_oper_only(void *data)
{
char *val = data;
if(rb_strcasecmp(val, "yes") == 0)
ConfigFileEntry.stats_k_oper_only = 2;
else if(rb_strcasecmp(val, "masked") == 0)
ConfigFileEntry.stats_k_oper_only = 1;
else if(rb_strcasecmp(val, "no") == 0)
ConfigFileEntry.stats_k_oper_only = 0;
else
conf_report_error("Invalid setting '%s' for general::stats_k_oper_only.", val);
}
static void
conf_set_general_stats_i_oper_only(void *data)
{
char *val = data;
if(rb_strcasecmp(val, "yes") == 0)
ConfigFileEntry.stats_i_oper_only = 2;
else if(rb_strcasecmp(val, "masked") == 0)
ConfigFileEntry.stats_i_oper_only = 1;
else if(rb_strcasecmp(val, "no") == 0)
ConfigFileEntry.stats_i_oper_only = 0;
else
conf_report_error("Invalid setting '%s' for general::stats_i_oper_only.", val);
}
2020-11-08 17:37:52 +00:00
static void
conf_set_general_stats_l_oper_only(void *data)
{
char *val = data;
if(rb_strcasecmp(val, "yes") == 0)
ConfigFileEntry.stats_l_oper_only = STATS_L_OPER_ONLY_YES;
else if(rb_strcasecmp(val, "self") == 0)
ConfigFileEntry.stats_l_oper_only = STATS_L_OPER_ONLY_SELF;
else if(rb_strcasecmp(val, "no") == 0)
ConfigFileEntry.stats_l_oper_only = STATS_L_OPER_ONLY_NO;
else
conf_report_error("Invalid setting '%s' for general::stats_l_oper_only.", val);
}
static void
conf_set_general_default_umodes(void *data)
{
char *umodes = data;
parse_umodes(umodes, &ConfigFileEntry.default_umodes, NULL);
}
static void
conf_set_general_oper_umodes(void *data)
{
set_modes_from_table(&ConfigFileEntry.oper_umodes, "umode", umode_table, data);
}
2015-12-07 07:49:30 +00:00
static void
conf_set_general_certfp_method(void *data)
{
char *method = data;
if (!rb_strcasecmp(method, CERTFP_NAME_CERT_SHA1))
ConfigFileEntry.certfp_method = RB_SSL_CERTFP_METH_CERT_SHA1;
else if (!rb_strcasecmp(method, CERTFP_NAME_CERT_SHA256))
ConfigFileEntry.certfp_method = RB_SSL_CERTFP_METH_CERT_SHA256;
else if (!rb_strcasecmp(method, CERTFP_NAME_CERT_SHA512))
ConfigFileEntry.certfp_method = RB_SSL_CERTFP_METH_CERT_SHA512;
else if (!rb_strcasecmp(method, CERTFP_NAME_SPKI_SHA256))
ConfigFileEntry.certfp_method = RB_SSL_CERTFP_METH_SPKI_SHA256;
else if (!rb_strcasecmp(method, CERTFP_NAME_SPKI_SHA512))
ConfigFileEntry.certfp_method = RB_SSL_CERTFP_METH_SPKI_SHA512;
2015-12-07 07:49:30 +00:00
else
{
ConfigFileEntry.certfp_method = RB_SSL_CERTFP_METH_CERT_SHA1;
2015-12-07 07:49:30 +00:00
conf_report_error("Ignoring general::certfp_method -- bogus certfp method %s", method);
}
}
static void
conf_set_general_oper_only_umodes(void *data)
{
set_modes_from_table(&ConfigFileEntry.oper_only_umodes, "umode", umode_table, data);
}
static void
conf_set_general_oper_snomask(void *data)
{
char *pm;
int what = MODE_ADD, flag;
ConfigFileEntry.oper_snomask = 0;
for (pm = (char *) data; *pm; pm++)
{
switch (*pm)
{
case '+':
what = MODE_ADD;
break;
case '-':
what = MODE_DEL;
break;
default:
if ((flag = snomask_modes[(unsigned char) *pm]))
{
if (what == MODE_ADD)
ConfigFileEntry.oper_snomask |= flag;
else
ConfigFileEntry.oper_snomask &= ~flag;
}
break;
}
}
}
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static void
conf_set_general_hidden_caps(void *data)
{
size_t n = 0;
for (conf_parm_t *arg = data; arg; arg = arg->next)
n += 1;
if (ConfigFileEntry.hidden_caps != NULL)
{
for (n = 0; ConfigFileEntry.hidden_caps[n] != NULL; n++)
rb_free(ConfigFileEntry.hidden_caps[n]);
rb_free(ConfigFileEntry.hidden_caps);
}
ConfigFileEntry.hidden_caps = rb_malloc(sizeof *ConfigFileEntry.hidden_caps * (n + 1));
n = 0;
for (conf_parm_t *arg = data; arg; arg = arg->next)
{
ConfigFileEntry.hidden_caps[n++] = rb_strdup(arg->v.string);
}
ConfigFileEntry.hidden_caps[n] = NULL;
}
static void
conf_set_serverhide_links_delay(void *data)
{
int val = *(unsigned int *) data;
ConfigServerHide.links_delay = val;
}
static void
conf_set_service_name(void *data)
{
const char *s;
char *tmp;
int dots = 0;
for(s = data; *s != '\0'; s++)
{
if(!IsServChar(*s))
{
conf_report_error("Ignoring service::name "
"-- bogus servername.");
return;
}
else if(*s == '.')
dots++;
}
if(!dots)
{
conf_report_error("Ignoring service::name -- must contain '.'");
return;
}
2008-04-01 23:26:34 +00:00
tmp = rb_strdup(data);
2008-04-01 20:41:52 +00:00
rb_dlinkAddAlloc(tmp, &service_list);
}
static int
conf_begin_alias(struct TopConf *tc)
{
2008-04-01 23:07:29 +00:00
yy_alias = rb_malloc(sizeof(struct alias_entry));
if (conf_cur_block_name != NULL)
2008-04-01 23:26:34 +00:00
yy_alias->name = rb_strdup(conf_cur_block_name);
yy_alias->flags = 0;
return 0;
}
static int
conf_end_alias(struct TopConf *tc)
{
if (yy_alias == NULL)
return -1;
if (yy_alias->name == NULL)
{
conf_report_error("Ignoring alias -- must have a name.");
rb_free(yy_alias);
return -1;
}
if (yy_alias->target == NULL)
{
conf_report_error("Ignoring alias -- must have a target.");
rb_free(yy_alias);
return -1;
}
rb_dictionary_add(alias_dict, yy_alias->name, yy_alias);
return 0;
}
static void
conf_set_alias_name(void *data)
{
if (data == NULL || yy_alias == NULL) /* this shouldn't ever happen */
return;
2008-04-01 23:26:34 +00:00
yy_alias->name = rb_strdup(data);
}
static void
conf_set_alias_target(void *data)
{
if (data == NULL || yy_alias == NULL) /* this shouldn't ever happen */
return;
2008-04-01 23:26:34 +00:00
yy_alias->target = rb_strdup(data);
}
static void
conf_set_channel_autochanmodes(void *data)
{
char *pm;
int what = MODE_ADD;
ConfigChannel.autochanmodes = 0;
for (pm = (char *) data; *pm; pm++)
{
switch (*pm)
{
case '+':
what = MODE_ADD;
break;
case '-':
what = MODE_DEL;
break;
default:
if (chmode_table[(unsigned char) *pm].set_func == chm_simple)
{
if (what == MODE_ADD)
ConfigChannel.autochanmodes |= chmode_table[(unsigned char) *pm].mode_type;
else
ConfigChannel.autochanmodes &= ~chmode_table[(unsigned char) *pm].mode_type;
}
else
{
conf_report_error("channel::autochanmodes -- Invalid channel mode %c", *pm);
continue;
}
break;
}
}
}
/* XXX for below */
static void conf_set_dnsbl_entry_reason(void *data);
#define IPTYPE_IPV4 1
#define IPTYPE_IPV6 2
static int
conf_warn_blacklist_deprecation(struct TopConf *tc)
{
conf_report_error("blacklist{} blocks have been deprecated -- use dnsbl{} blocks instead.");
return 0;
}
static void
conf_set_dnsbl_entry_host(void *data)
{
if (yy_dnsbl_entry_host)
{
conf_report_error("dnsbl::host %s overlaps existing host %s",
(char *)data, yy_dnsbl_entry_host);
/* Cleanup */
conf_set_dnsbl_entry_reason(NULL);
return;
}
yy_dnsbl_entry_iptype |= IPTYPE_IPV4;
yy_dnsbl_entry_host = rb_strdup(data);
}
static void
conf_set_dnsbl_entry_type(void *data)
{
conf_parm_t *args = data;
/* Don't assume we have either if we got here */
yy_dnsbl_entry_iptype = 0;
for (; args; args = args->next)
{
if (!rb_strcasecmp(args->v.string, "ipv4"))
yy_dnsbl_entry_iptype |= IPTYPE_IPV4;
else if (!rb_strcasecmp(args->v.string, "ipv6"))
yy_dnsbl_entry_iptype |= IPTYPE_IPV6;
else
conf_report_error("dnsbl::type has unknown address family %s",
args->v.string);
}
/* If we have neither, just default to IPv4 */
if (!yy_dnsbl_entry_iptype)
{
conf_report_warning("dnsbl::type has neither IPv4 nor IPv6 (defaulting to IPv4)");
yy_dnsbl_entry_iptype = IPTYPE_IPV4;
}
}
static void
conf_set_dnsbl_entry_matches(void *data)
{
conf_parm_t *args = data;
enum filter_t { FILTER_NONE, FILTER_ALL, FILTER_LAST };
for (; args; args = args->next)
{
char *str = args->v.string;
char *p;
enum filter_t type = FILTER_LAST;
if (CF_TYPE(args->type) != CF_QSTRING)
{
conf_report_error("dnsbl::matches -- must be quoted string");
continue;
}
if (str == NULL)
{
conf_report_error("dnsbl::matches -- invalid entry");
continue;
}
if (strlen(str) > HOSTIPLEN)
{
conf_report_error("dnsbl::matches has an entry too long: %s",
str);
continue;
}
for (p = str; *p != '\0'; p++)
{
/* Check for validity */
if (*p == '.')
type = FILTER_ALL;
else if (!isdigit((unsigned char)*p))
{
conf_report_error("dnsbl::matches has invalid IP match entry %s",
str);
type = FILTER_NONE;
break;
}
}
if (type == FILTER_ALL)
{
/* Basic IP sanity check */
struct rb_sockaddr_storage tmp;
if (rb_inet_pton(AF_INET, str, &tmp) <= 0)
{
conf_report_error("dnsbl::matches has invalid IP match entry %s",
str);
continue;
}
}
else if (type == FILTER_LAST)
{
/* Verify it's the correct length */
if (strlen(str) > 3)
{
conf_report_error("dnsbl::matches has invalid octet match entry %s",
str);
continue;
}
}
else
{
continue; /* Invalid entry */
}
rb_dlinkAddAlloc(rb_strdup(str), &yy_dnsbl_entry_filters);
}
}
static void
conf_set_dnsbl_entry_reason(void *data)
{
rb_dlink_node *ptr, *nptr;
if (yy_dnsbl_entry_host && data)
{
yy_dnsbl_entry_reason = rb_strdup(data);
if (yy_dnsbl_entry_iptype & IPTYPE_IPV6)
{
2016-03-28 22:55:54 +00:00
/* Make sure things fit (magic number 64 = alnum count + dots)
* Example: 1.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.ip6.arpa
*/
if ((64 + strlen(yy_dnsbl_entry_host)) > IRCD_RES_HOSTLEN)
{
conf_report_error("dnsbl::host %s results in IPv6 queries that are too long",
yy_dnsbl_entry_host);
goto cleanup_bl;
}
}
/* Avoid doing redundant check, IPv6 is bigger than IPv4 --Elizabeth */
if ((yy_dnsbl_entry_iptype & IPTYPE_IPV4) && !(yy_dnsbl_entry_iptype & IPTYPE_IPV6))
{
2016-03-28 22:55:54 +00:00
/* Make sure things fit for worst case (magic number 16 = number of nums + dots)
* Example: 127.127.127.127.in-addr.arpa
*/
if ((16 + strlen(yy_dnsbl_entry_host)) > IRCD_RES_HOSTLEN)
{
conf_report_error("dnsbl::host %s results in IPv4 queries that are too long",
yy_dnsbl_entry_host);
goto cleanup_bl;
}
}
add_dnsbl_entry(yy_dnsbl_entry_host, yy_dnsbl_entry_reason, yy_dnsbl_entry_iptype, &yy_dnsbl_entry_filters);
}
cleanup_bl:
RB_DLINK_FOREACH_SAFE(ptr, nptr, yy_dnsbl_entry_filters.head)
{
rb_free(ptr->data);
rb_dlinkDestroy(ptr, &yy_dnsbl_entry_filters);
}
yy_dnsbl_entry_filters = (rb_dlink_list){ NULL, NULL, 0 };
rb_free(yy_dnsbl_entry_host);
rb_free(yy_dnsbl_entry_reason);
yy_dnsbl_entry_host = NULL;
yy_dnsbl_entry_reason = NULL;
yy_dnsbl_entry_iptype = 0;
}
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struct opm_scanner
{
const char *type;
uint16_t port;
rb_dlink_node node;
};
2016-04-01 09:11:04 +00:00
static int
conf_begin_opm(struct TopConf *tc)
{
yy_opm_address_ipv4 = yy_opm_address_ipv6 = NULL;
2016-04-02 08:33:12 +00:00
yy_opm_port_ipv4 = yy_opm_port_ipv6 = yy_opm_timeout = 0;
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delete_opm_proxy_scanner_all();
delete_opm_listener_all();
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return 0;
}
static int
conf_end_opm(struct TopConf *tc)
{
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rb_dlink_node *ptr, *nptr;
bool fail = false;
if(rb_dlink_list_length(&yy_opm_scanner_list) == 0)
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{
conf_report_error("No opm scanners configured -- disabling opm.");
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fail = true;
goto end;
}
2016-04-01 09:11:04 +00:00
if(yy_opm_port_ipv4 > 0)
{
if(yy_opm_address_ipv4 != NULL)
conf_create_opm_listener(yy_opm_address_ipv4, yy_opm_port_ipv4);
2016-04-01 09:11:04 +00:00
else
{
char ip[HOSTIPLEN];
if(!rb_inet_ntop_sock((struct sockaddr *)&ServerInfo.bind4, ip, sizeof(ip)))
2016-04-01 09:11:04 +00:00
conf_report_error("No opm::listen_ipv4 nor serverinfo::vhost directive; cannot listen on IPv4");
else
conf_create_opm_listener(ip, yy_opm_port_ipv4);
2016-04-01 09:11:04 +00:00
}
}
if(yy_opm_port_ipv6 > 0)
{
if(yy_opm_address_ipv6 != NULL)
conf_create_opm_listener(yy_opm_address_ipv6, yy_opm_port_ipv6);
2016-04-01 09:11:04 +00:00
else
{
char ip[HOSTIPLEN];
if(!rb_inet_ntop_sock((struct sockaddr *)&ServerInfo.bind6, ip, sizeof(ip)))
2016-04-01 09:11:04 +00:00
conf_report_error("No opm::listen_ipv6 nor serverinfo::vhost directive; cannot listen on IPv6");
else
conf_create_opm_listener(ip, yy_opm_port_ipv6);
2016-04-01 09:11:04 +00:00
}
}
2016-04-02 07:29:48 +00:00
/* If there's no listeners... */
fail = (yy_opm_port_ipv4 == 0 || yy_opm_port_ipv6 == 0);
if(!fail && yy_opm_timeout > 0 && yy_opm_timeout < 60)
2016-04-02 08:33:12 +00:00
/* Send timeout */
set_authd_timeout("opm_timeout", yy_opm_timeout);
else if(fail)
conf_report_error("No opm listeners -- disabling");
else if(yy_opm_timeout <= 0 || yy_opm_timeout >= 60)
conf_report_error("opm::timeout value is invalid -- ignoring");
2016-04-02 08:33:12 +00:00
2016-04-02 07:29:48 +00:00
end:
RB_DLINK_FOREACH_SAFE(ptr, nptr, yy_opm_scanner_list.head)
{
struct opm_scanner *scanner = ptr->data;
if(!fail)
create_opm_proxy_scanner(scanner->type, scanner->port);
rb_dlinkDelete(&scanner->node, &yy_opm_scanner_list);
rb_free(scanner);
}
if(!fail)
opm_check_enable(true);
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rb_free(yy_opm_address_ipv4);
rb_free(yy_opm_address_ipv6);
return 0;
}
2016-04-02 08:33:12 +00:00
static void
conf_set_opm_timeout(void *data)
{
int timeout = *((int *)data);
if(timeout <= 0 || timeout > 60)
{
conf_report_error("opm::timeout value %d is bogus, ignoring", timeout);
return;
}
yy_opm_timeout = timeout;
}
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2016-04-01 09:11:04 +00:00
static void
2016-04-02 07:29:48 +00:00
conf_set_opm_listen_address_both(void *data, bool ipv6)
2016-04-01 09:11:04 +00:00
{
struct rb_sockaddr_storage addr;
2016-04-02 07:29:48 +00:00
const char *confstr = (ipv6 ? "opm::listen_ipv6" : "opm::listen_ipv4");
2016-04-01 09:11:04 +00:00
char *ip = data;
if(!rb_inet_pton_sock(ip, &addr))
2016-04-01 09:11:04 +00:00
{
2016-04-02 07:29:48 +00:00
conf_report_error("%s is an invalid address: %s", confstr, ip);
2016-04-01 09:11:04 +00:00
return;
}
2016-04-02 07:29:48 +00:00
if(ipv6)
2016-04-01 09:11:04 +00:00
{
2016-04-02 07:29:48 +00:00
if(GET_SS_FAMILY(&addr) != AF_INET6)
{
conf_report_error("%s is of the wrong address type: %s", confstr, ip);
return;
}
if(yy_opm_address_ipv6 != NULL)
{
conf_report_error("%s overwrites previous address %s", confstr, ip);
return;
}
yy_opm_address_ipv6 = rb_strdup(ip);
}
else
2016-04-01 09:11:04 +00:00
{
2016-04-02 07:29:48 +00:00
if(GET_SS_FAMILY(&addr) != AF_INET)
{
conf_report_error("%s is of the wrong address type: %s", confstr, ip);
return;
}
if(yy_opm_address_ipv4 != NULL)
{
conf_report_error("%s overwrites previous address %s", confstr, ip);
return;
}
yy_opm_address_ipv4 = rb_strdup(ip);
2016-04-01 09:11:04 +00:00
}
2016-04-02 07:29:48 +00:00
}
2016-04-01 09:11:04 +00:00
2016-04-02 07:29:48 +00:00
static void
conf_set_opm_listen_address_ipv4(void *data)
{
conf_set_opm_listen_address_both(data, false);
2016-04-01 09:11:04 +00:00
}
static void
conf_set_opm_listen_address_ipv6(void *data)
{
2016-04-02 07:29:48 +00:00
conf_set_opm_listen_address_both(data, true);
}
2016-04-01 09:11:04 +00:00
2016-04-02 07:29:48 +00:00
static void
conf_set_opm_listen_port_both(void *data, bool ipv6)
{
int port = *((int *)data);
const char *confstr = (ipv6 ? "opm::port_ipv6" : "opm::port_ipv4");
2016-04-01 09:11:04 +00:00
2016-04-02 07:29:48 +00:00
if(port > 65535 || port <= 0)
2016-04-01 09:11:04 +00:00
{
2016-04-02 07:29:48 +00:00
conf_report_error("%s is out of range: %d", confstr, port);
2016-04-01 09:11:04 +00:00
return;
}
2016-04-02 07:29:48 +00:00
if(ipv6)
2016-04-01 09:11:04 +00:00
{
2016-04-02 07:29:48 +00:00
if(yy_opm_port_ipv4)
{
conf_report_error("%s overwrites existing port %hu",
confstr, yy_opm_port_ipv4);
return;
}
yy_opm_port_ipv4 = port;
2016-04-01 09:11:04 +00:00
}
2016-04-02 07:29:48 +00:00
else
{
if(yy_opm_port_ipv6)
{
conf_report_error("%s overwrites existing port %hu",
confstr, yy_opm_port_ipv6);
return;
}
2016-04-01 09:11:04 +00:00
2016-04-02 07:29:48 +00:00
yy_opm_port_ipv6 = port;
}
2016-04-01 09:11:04 +00:00
}
static void
conf_set_opm_listen_port_ipv4(void *data)
{
2016-04-02 07:29:48 +00:00
conf_set_opm_listen_port_both(data, false);
2016-04-01 09:11:04 +00:00
}
static void
conf_set_opm_listen_port_ipv6(void *data)
{
2016-04-02 07:29:48 +00:00
conf_set_opm_listen_port_both(data, true);
2016-04-01 09:11:04 +00:00
}
static void
conf_set_opm_listen_port(void *data)
{
2016-04-02 07:29:48 +00:00
conf_set_opm_listen_port_both(data, true);
conf_set_opm_listen_port_both(data, false);
}
2016-04-01 09:11:04 +00:00
2016-04-02 07:29:48 +00:00
static void
conf_set_opm_scan_ports_all(void *data, const char *node, const char *type)
{
conf_parm_t *args = data;
for (; args; args = args->next)
2016-04-01 09:11:04 +00:00
{
2016-04-02 07:29:48 +00:00
rb_dlink_node *ptr;
bool dup = false;
2016-04-01 09:11:04 +00:00
2016-04-02 07:29:48 +00:00
if(CF_TYPE(args->type) != CF_INT)
{
conf_report_error("%s argument is not an integer -- ignoring.", node);
continue;
}
2016-04-02 07:29:48 +00:00
if(args->v.number > 65535 || args->v.number <= 0)
{
conf_report_error("%s argument is not an integer between 1 and 65535 -- ignoring.", node);
continue;
}
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/* Check for duplicates */
RB_DLINK_FOREACH(ptr, yy_opm_scanner_list.head)
{
struct opm_scanner *scanner = ptr->data;
if(scanner->port == args->v.number && strcmp(type, scanner->type) == 0)
{
conf_report_error("%s argument is duplicate", node);
dup = true;
break;
}
}
if(!dup)
{
struct opm_scanner *scanner = rb_malloc(sizeof(struct opm_scanner));
scanner->port = args->v.number;
scanner->type = type;
rb_dlinkAdd(scanner, &scanner->node, &yy_opm_scanner_list);
}
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}
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}
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static void
conf_set_opm_scan_ports_socks4(void *data)
{
conf_set_opm_scan_ports_all(data, "opm::socks4_ports", "socks4");
}
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static void
conf_set_opm_scan_ports_socks5(void *data)
{
conf_set_opm_scan_ports_all(data, "opm::socks5_ports", "socks5");
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}
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static void
conf_set_opm_scan_ports_httpconnect(void *data)
{
conf_set_opm_scan_ports_all(data, "opm::httpconnect_ports", "httpconnect");
}
static void
conf_set_opm_scan_ports_httpsconnect(void *data)
{
conf_set_opm_scan_ports_all(data, "opm::httpsconnect_ports", "httpsconnect");
}
/* public functions */
void
conf_report_error(const char *fmt, ...)
{
va_list ap;
char msg[BUFSIZE + 1] = { 0 };
va_start(ap, fmt);
vsnprintf(msg, sizeof msg, fmt, ap);
va_end(ap);
if (testing_conf)
{
fprintf(stderr, "\"%s\", line %d: %s\n", current_file, lineno + 1, msg);
return;
}
ierror("\"%s\", line %d: %s", current_file, lineno + 1, msg);
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sendto_realops_snomask(SNO_GENERAL, L_NETWIDE, "error: \"%s\", line %d: %s", current_file, lineno + 1, msg);
}
void
conf_report_warning(const char *fmt, ...)
{
va_list ap;
char msg[BUFSIZE + 1] = { 0 };
va_start(ap, fmt);
vsnprintf(msg, sizeof msg, fmt, ap);
va_end(ap);
if (testing_conf)
{
fprintf(stderr, "\"%s\", line %d: %s\n", current_file, lineno + 1, msg);
return;
}
iwarn("\"%s\", line %d: %s", current_file, lineno + 1, msg);
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sendto_realops_snomask(SNO_GENERAL, L_NETWIDE, "warning: \"%s\", line %d: %s", current_file, lineno + 1, msg);
}
int
conf_start_block(char *block, char *name)
{
if((conf_cur_block = find_top_conf(block)) == NULL)
{
conf_report_error("Configuration block '%s' is not defined.", block);
return -1;
}
if(name)
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conf_cur_block_name = rb_strdup(name);
else
conf_cur_block_name = NULL;
if(conf_cur_block->tc_sfunc)
if(conf_cur_block->tc_sfunc(conf_cur_block) < 0)
return -1;
return 0;
}
int
conf_end_block(struct TopConf *tc)
{
int ret = 0;
if(tc->tc_efunc)
ret = tc->tc_efunc(tc);
rb_free(conf_cur_block_name);
conf_cur_block_name = NULL;
return ret;
}
static void
conf_set_generic_int(void *data, void *location)
{
*((int *) location) = *((unsigned int *) data);
}
static void
conf_set_generic_string(void *data, int len, void *location)
{
char **loc = location;
char *input = data;
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if(len && strlen(input) > (unsigned int)len)
input[len] = '\0';
rb_free(*loc);
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*loc = rb_strdup(input);
}
int
conf_call_set(struct TopConf *tc, char *item, conf_parm_t * value)
{
struct ConfEntry *cf;
conf_parm_t *cp;
if(!tc)
return -1;
if((cf = find_conf_item(tc, item)) == NULL)
{
conf_report_error
("Non-existent configuration setting %s::%s.", tc->tc_name, (char *) item);
return -1;
}
/* if it takes one thing, make sure they only passed one thing,
and handle as needed. */
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if((value->v.list->type & CF_FLIST) && !(cf->cf_type & CF_FLIST))
{
conf_report_error
("Option %s::%s does not take a list of values.", tc->tc_name, item);
return -1;
}
cp = value->v.list;
if(CF_TYPE(value->v.list->type) != CF_TYPE(cf->cf_type))
{
/* if it expects a string value, but we got a yesno,
* convert it back
*/
if((CF_TYPE(value->v.list->type) == CF_YESNO) &&
(CF_TYPE(cf->cf_type) == CF_STRING))
{
value->v.list->type = CF_STRING;
if(cp->v.number == 1)
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cp->v.string = rb_strdup("yes");
else
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cp->v.string = rb_strdup("no");
}
/* maybe it's a CF_TIME and they passed CF_INT --
should still be valid */
else if(!((CF_TYPE(value->v.list->type) == CF_INT) &&
(CF_TYPE(cf->cf_type) == CF_TIME)))
{
conf_report_error
("Wrong type for %s::%s (expected %s, got %s)",
tc->tc_name, (char *) item,
conf_strtype(cf->cf_type), conf_strtype(value->v.list->type));
return -1;
}
}
if(cf->cf_type & CF_FLIST)
{
#if 0
if(cf->cf_arg)
conf_set_generic_list(value->v.list, cf->cf_arg);
else
#endif
/* just pass it the extended argument list */
cf->cf_func(value->v.list);
}
else
{
/* it's old-style, needs only one arg */
switch (cf->cf_type)
{
case CF_INT:
case CF_TIME:
case CF_YESNO:
if(cf->cf_arg)
conf_set_generic_int(&cp->v.number, cf->cf_arg);
else
cf->cf_func(&cp->v.number);
break;
case CF_STRING:
case CF_QSTRING:
if(EmptyString(cp->v.string))
conf_report_error("Ignoring %s::%s -- empty field",
tc->tc_name, item);
else if(cf->cf_arg)
conf_set_generic_string(cp->v.string, cf->cf_len, cf->cf_arg);
else
cf->cf_func(cp->v.string);
break;
}
}
return 0;
}
int
add_conf_item(const char *topconf, const char *name, int type, void (*func) (void *))
{
struct TopConf *tc;
struct ConfEntry *cf;
if((tc = find_top_conf(topconf)) == NULL)
return -1;
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if(find_conf_item(tc, name) != NULL)
return -1;
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cf = rb_malloc(sizeof(struct ConfEntry));
cf->cf_name = name;
cf->cf_type = type;
cf->cf_func = func;
cf->cf_arg = NULL;
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rb_dlinkAddAlloc(cf, &tc->tc_items);
return 0;
}
int
remove_conf_item(const char *topconf, const char *name)
{
struct TopConf *tc;
struct ConfEntry *cf;
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rb_dlink_node *ptr;
if((tc = find_top_conf(topconf)) == NULL)
return -1;
if((cf = find_conf_item(tc, name)) == NULL)
return -1;
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if((ptr = rb_dlinkFind(cf, &tc->tc_items)) == NULL)
return -1;
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rb_dlinkDestroy(ptr, &tc->tc_items);
rb_free(cf);
return 0;
}
/* *INDENT-OFF* */
static struct ConfEntry conf_serverinfo_table[] =
{
{ "description", CF_QSTRING, NULL, 0, &ServerInfo.description },
{ "network_name", CF_QSTRING, conf_set_serverinfo_network_name, 0, NULL },
{ "name", CF_QSTRING, conf_set_serverinfo_name, 0, NULL },
{ "sid", CF_QSTRING, conf_set_serverinfo_sid, 0, NULL },
{ "vhost", CF_QSTRING, conf_set_serverinfo_vhost, 0, NULL },
{ "vhost6", CF_QSTRING, conf_set_serverinfo_vhost6, 0, NULL },
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{ "ssl_private_key", CF_QSTRING, NULL, 0, &ServerInfo.ssl_private_key },
{ "ssl_ca_cert", CF_QSTRING, NULL, 0, &ServerInfo.ssl_ca_cert },
{ "ssl_cert", CF_QSTRING, NULL, 0, &ServerInfo.ssl_cert },
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{ "ssl_dh_params", CF_QSTRING, NULL, 0, &ServerInfo.ssl_dh_params },
{ "ssl_cipher_list", CF_QSTRING, NULL, 0, &ServerInfo.ssl_cipher_list },
{ "ssld_count", CF_INT, NULL, 0, &ServerInfo.ssld_count },
{ "default_max_clients",CF_INT, NULL, 0, &ServerInfo.default_max_clients },
{ "nicklen", CF_INT, conf_set_serverinfo_nicklen, 0, NULL },
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_admin_table[] =
{
{ "name", CF_QSTRING, NULL, 200, &AdminInfo.name },
{ "description",CF_QSTRING, NULL, 200, &AdminInfo.description },
{ "email", CF_QSTRING, NULL, 200, &AdminInfo.email },
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_log_table[] =
{
{ "fname_userlog", CF_QSTRING, NULL, PATH_MAX, &ConfigFileEntry.fname_userlog },
{ "fname_fuserlog", CF_QSTRING, NULL, PATH_MAX, &ConfigFileEntry.fname_fuserlog },
{ "fname_operlog", CF_QSTRING, NULL, PATH_MAX, &ConfigFileEntry.fname_operlog },
{ "fname_foperlog", CF_QSTRING, NULL, PATH_MAX, &ConfigFileEntry.fname_foperlog },
{ "fname_serverlog", CF_QSTRING, NULL, PATH_MAX, &ConfigFileEntry.fname_serverlog },
{ "fname_killlog", CF_QSTRING, NULL, PATH_MAX, &ConfigFileEntry.fname_killlog },
{ "fname_klinelog", CF_QSTRING, NULL, PATH_MAX, &ConfigFileEntry.fname_klinelog },
{ "fname_operspylog", CF_QSTRING, NULL, PATH_MAX, &ConfigFileEntry.fname_operspylog },
{ "fname_ioerrorlog", CF_QSTRING, NULL, PATH_MAX, &ConfigFileEntry.fname_ioerrorlog },
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_operator_table[] =
{
{ "rsa_public_key_file", CF_QSTRING, conf_set_oper_rsa_public_key_file, 0, NULL },
{ "flags", CF_STRING | CF_FLIST, conf_set_oper_flags, 0, NULL },
{ "umodes", CF_STRING | CF_FLIST, conf_set_oper_umodes, 0, NULL },
{ "privset", CF_QSTRING, conf_set_oper_privset, 0, NULL },
{ "snomask", CF_QSTRING, conf_set_oper_snomask, 0, NULL },
{ "user", CF_QSTRING, conf_set_oper_user, 0, NULL },
{ "password", CF_QSTRING, conf_set_oper_password, 0, NULL },
{ "fingerprint", CF_QSTRING, conf_set_oper_fingerprint, 0, NULL },
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_privset_table[] =
{
{ "extends", CF_QSTRING, conf_set_privset_extends, 0, NULL },
{ "privs", CF_STRING | CF_FLIST, conf_set_privset_privs, 0, NULL },
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_class_table[] =
{
{ "ping_time", CF_TIME, conf_set_class_ping_time, 0, NULL },
{ "cidr_ipv4_bitlen", CF_INT, conf_set_class_cidr_ipv4_bitlen, 0, NULL },
{ "cidr_ipv6_bitlen", CF_INT, conf_set_class_cidr_ipv6_bitlen, 0, NULL },
{ "number_per_cidr", CF_INT, conf_set_class_number_per_cidr, 0, NULL },
{ "number_per_ip", CF_INT, conf_set_class_number_per_ip, 0, NULL },
{ "number_per_ip_global", CF_INT,conf_set_class_number_per_ip_global, 0, NULL },
{ "number_per_ident", CF_INT, conf_set_class_number_per_ident, 0, NULL },
{ "connectfreq", CF_TIME, conf_set_class_connectfreq, 0, NULL },
{ "max_number", CF_INT, conf_set_class_max_number, 0, NULL },
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{ "max_autoconn", CF_INT, conf_set_class_max_autoconn, 0, NULL },
{ "sendq", CF_TIME, conf_set_class_sendq, 0, NULL },
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_auth_table[] =
{
{ "user", CF_QSTRING, conf_set_auth_user, 0, NULL },
{ "auth_user", CF_QSTRING, conf_set_auth_auth_user, 0, NULL },
{ "password", CF_QSTRING, conf_set_auth_passwd, 0, NULL },
{ "class", CF_QSTRING, conf_set_auth_class, 0, NULL },
{ "spoof", CF_QSTRING, conf_set_auth_spoof, 0, NULL },
{ "redirserv", CF_QSTRING, conf_set_auth_redir_serv, 0, NULL },
{ "redirport", CF_INT, conf_set_auth_redir_port, 0, NULL },
{ "flags", CF_STRING | CF_FLIST, conf_set_auth_flags, 0, NULL },
{ "umodes", CF_QSTRING, conf_set_auth_umodes, 0, NULL},
{ "description",CF_QSTRING, conf_set_auth_desc, 0, NULL},
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_connect_table[] =
{
{ "send_password", CF_QSTRING, conf_set_connect_send_password, 0, NULL },
{ "accept_password", CF_QSTRING, conf_set_connect_accept_password, 0, NULL },
{ "fingerprint", CF_QSTRING, conf_set_connect_fingerprint, 0, NULL },
{ "flags", CF_STRING | CF_FLIST, conf_set_connect_flags, 0, NULL },
{ "host", CF_QSTRING, conf_set_connect_host, 0, NULL },
{ "vhost", CF_QSTRING, conf_set_connect_vhost, 0, NULL },
{ "port", CF_INT, conf_set_connect_port, 0, NULL },
{ "aftype", CF_STRING, conf_set_connect_aftype, 0, NULL },
{ "class", CF_QSTRING, conf_set_connect_class, 0, NULL },
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_general_table[] =
{
{ "oper_only_umodes", CF_STRING | CF_FLIST, conf_set_general_oper_only_umodes, 0, NULL },
{ "oper_umodes", CF_STRING | CF_FLIST, conf_set_general_oper_umodes, 0, NULL },
{ "oper_snomask", CF_QSTRING, conf_set_general_oper_snomask, 0, NULL },
{ "havent_read_conf", CF_YESNO, conf_set_general_havent_read_conf, 0, NULL },
{ "hide_error_messages",CF_STRING, conf_set_general_hide_error_messages,0, NULL },
{ "stats_i_oper_only", CF_STRING, conf_set_general_stats_i_oper_only, 0, NULL },
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{ "stats_k_oper_only", CF_STRING, conf_set_general_stats_k_oper_only, 0, NULL },
{ "stats_l_oper_only", CF_STRING, conf_set_general_stats_l_oper_only, 0, NULL },
{ "default_umodes", CF_QSTRING, conf_set_general_default_umodes, 0, NULL },
{ "default_operstring", CF_QSTRING, NULL, REALLEN, &ConfigFileEntry.default_operstring },
{ "default_adminstring",CF_QSTRING, NULL, REALLEN, &ConfigFileEntry.default_adminstring },
{ "servicestring", CF_QSTRING, NULL, REALLEN, &ConfigFileEntry.servicestring },
{ "kline_reason", CF_QSTRING, NULL, REALLEN, &ConfigFileEntry.kline_reason },
{ "identify_service", CF_QSTRING, NULL, REALLEN, &ConfigFileEntry.identifyservice },
{ "identify_command", CF_QSTRING, NULL, REALLEN, &ConfigFileEntry.identifycommand },
{ "sasl_service", CF_QSTRING, NULL, REALLEN, &ConfigFileEntry.sasl_service },
{ "anti_spam_exit_message_time", CF_TIME, NULL, 0, &ConfigFileEntry.anti_spam_exit_message_time },
{ "disable_fake_channels", CF_YESNO, NULL, 0, &ConfigFileEntry.disable_fake_channels },
{ "min_nonwildcard_simple", CF_INT, NULL, 0, &ConfigFileEntry.min_nonwildcard_simple },
{ "non_redundant_klines", CF_YESNO, NULL, 0, &ConfigFileEntry.non_redundant_klines },
{ "tkline_expire_notices", CF_YESNO, NULL, 0, &ConfigFileEntry.tkline_expire_notices },
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{ "hidden_caps", CF_QSTRING | CF_FLIST, conf_set_general_hidden_caps, 0, NULL },
{ "anti_nick_flood", CF_YESNO, NULL, 0, &ConfigFileEntry.anti_nick_flood },
{ "burst_away", CF_YESNO, NULL, 0, &ConfigFileEntry.burst_away },
{ "caller_id_wait", CF_TIME, NULL, 0, &ConfigFileEntry.caller_id_wait },
{ "client_exit", CF_YESNO, NULL, 0, &ConfigFileEntry.client_exit },
{ "collision_fnc", CF_YESNO, NULL, 0, &ConfigFileEntry.collision_fnc },
{ "resv_fnc", CF_YESNO, NULL, 0, &ConfigFileEntry.resv_fnc },
{ "post_registration_delay", CF_TIME, NULL, 0, &ConfigFileEntry.post_registration_delay },
{ "connect_timeout", CF_TIME, NULL, 0, &ConfigFileEntry.connect_timeout },
{ "default_floodcount", CF_INT, NULL, 0, &ConfigFileEntry.default_floodcount },
{ "default_ident_timeout", CF_INT, NULL, 0, &ConfigFileEntry.default_ident_timeout },
{ "disable_auth", CF_YESNO, NULL, 0, &ConfigFileEntry.disable_auth },
{ "dots_in_ident", CF_INT, NULL, 0, &ConfigFileEntry.dots_in_ident },
{ "failed_oper_notice", CF_YESNO, NULL, 0, &ConfigFileEntry.failed_oper_notice },
{ "global_snotices", CF_YESNO, NULL, 0, &ConfigFileEntry.global_snotices },
{ "hide_spoof_ips", CF_YESNO, NULL, 0, &ConfigFileEntry.hide_spoof_ips },
{ "dline_with_reason", CF_YESNO, NULL, 0, &ConfigFileEntry.dline_with_reason },
{ "kline_with_reason", CF_YESNO, NULL, 0, &ConfigFileEntry.kline_with_reason },
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{ "hide_tkdline_duration", CF_YESNO, NULL, 0, &ConfigFileEntry.hide_tkdline_duration },
{ "map_oper_only", CF_YESNO, NULL, 0, &ConfigFileEntry.map_oper_only },
{ "max_accept", CF_INT, NULL, 0, &ConfigFileEntry.max_accept },
{ "max_monitor", CF_INT, NULL, 0, &ConfigFileEntry.max_monitor },
{ "max_nick_time", CF_TIME, NULL, 0, &ConfigFileEntry.max_nick_time },
{ "max_nick_changes", CF_INT, NULL, 0, &ConfigFileEntry.max_nick_changes },
{ "max_targets", CF_INT, NULL, 0, &ConfigFileEntry.max_targets },
{ "min_nonwildcard", CF_INT, NULL, 0, &ConfigFileEntry.min_nonwildcard },
{ "nick_delay", CF_TIME, NULL, 0, &ConfigFileEntry.nick_delay },
{ "no_oper_flood", CF_YESNO, NULL, 0, &ConfigFileEntry.no_oper_flood },
{ "operspy_admin_only", CF_YESNO, NULL, 0, &ConfigFileEntry.operspy_admin_only },
{ "operspy_dont_care_user_info", CF_YESNO, NULL, 0, &ConfigFileEntry.operspy_dont_care_user_info },
{ "pace_wait", CF_TIME, NULL, 0, &ConfigFileEntry.pace_wait },
{ "pace_wait_simple", CF_TIME, NULL, 0, &ConfigFileEntry.pace_wait_simple },
{ "ping_cookie", CF_YESNO, NULL, 0, &ConfigFileEntry.ping_cookie },
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{ "ping_warn_time", CF_TIME, NULL, 0, &ConfigFileEntry.ping_warn_time },
{ "reject_after_count", CF_INT, NULL, 0, &ConfigFileEntry.reject_after_count },
{ "reject_ban_time", CF_TIME, NULL, 0, &ConfigFileEntry.reject_ban_time },
{ "reject_duration", CF_TIME, NULL, 0, &ConfigFileEntry.reject_duration },
{ "throttle_count", CF_INT, NULL, 0, &ConfigFileEntry.throttle_count },
{ "throttle_duration", CF_TIME, NULL, 0, &ConfigFileEntry.throttle_duration },
{ "short_motd", CF_YESNO, NULL, 0, &ConfigFileEntry.short_motd },
{ "stats_c_oper_only", CF_YESNO, NULL, 0, &ConfigFileEntry.stats_c_oper_only },
{ "stats_e_disabled", CF_YESNO, NULL, 0, &ConfigFileEntry.stats_e_disabled },
{ "stats_o_oper_only", CF_YESNO, NULL, 0, &ConfigFileEntry.stats_o_oper_only },
{ "stats_P_oper_only", CF_YESNO, NULL, 0, &ConfigFileEntry.stats_P_oper_only },
{ "stats_y_oper_only", CF_YESNO, NULL, 0, &ConfigFileEntry.stats_y_oper_only },
{ "target_change", CF_YESNO, NULL, 0, &ConfigFileEntry.target_change },
{ "ts_max_delta", CF_TIME, NULL, 0, &ConfigFileEntry.ts_max_delta },
{ "ts_warn_delta", CF_TIME, NULL, 0, &ConfigFileEntry.ts_warn_delta },
{ "use_whois_actually", CF_YESNO, NULL, 0, &ConfigFileEntry.use_whois_actually },
{ "warn_no_nline", CF_YESNO, NULL, 0, &ConfigFileEntry.warn_no_nline },
{ "use_propagated_bans",CF_YESNO, NULL, 0, &ConfigFileEntry.use_propagated_bans },
{ "client_flood_max_lines", CF_INT, NULL, 0, &ConfigFileEntry.client_flood_max_lines },
{ "client_flood_burst_rate", CF_INT, NULL, 0, &ConfigFileEntry.client_flood_burst_rate },
{ "client_flood_burst_max", CF_INT, NULL, 0, &ConfigFileEntry.client_flood_burst_max },
{ "client_flood_message_num", CF_INT, NULL, 0, &ConfigFileEntry.client_flood_message_num },
{ "client_flood_message_time", CF_INT, NULL, 0, &ConfigFileEntry.client_flood_message_time },
{ "max_ratelimit_tokens", CF_INT, NULL, 0, &ConfigFileEntry.max_ratelimit_tokens },
{ "away_interval", CF_INT, NULL, 0, &ConfigFileEntry.away_interval },
{ "hide_opers_in_whois", CF_YESNO, NULL, 0, &ConfigFileEntry.hide_opers_in_whois },
{ "hide_opers", CF_YESNO, NULL, 0, &ConfigFileEntry.hide_opers },
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{ "certfp_method", CF_STRING, conf_set_general_certfp_method, 0, NULL },
{ "drain_reason", CF_QSTRING, NULL, BUFSIZE, &ConfigFileEntry.drain_reason },
{ "sasl_only_client_message", CF_QSTRING, NULL, BUFSIZE, &ConfigFileEntry.sasl_only_client_message },
{ "identd_only_client_message", CF_QSTRING, NULL, BUFSIZE, &ConfigFileEntry.identd_only_client_message },
{ "sctp_forbidden_client_message", CF_QSTRING, NULL, BUFSIZE, &ConfigFileEntry.sctp_forbidden_client_message },
{ "ssltls_only_client_message", CF_QSTRING, NULL, BUFSIZE, &ConfigFileEntry.ssltls_only_client_message },
{ "not_authorised_client_message", CF_QSTRING, NULL, BUFSIZE, &ConfigFileEntry.not_authorised_client_message },
{ "illegal_hostname_client_message", CF_QSTRING, NULL, BUFSIZE, &ConfigFileEntry.not_authorised_client_message },
{ "server_full_client_message", CF_QSTRING, NULL, BUFSIZE, &ConfigFileEntry.server_full_client_message },
{ "illegal_name_long_client_message", CF_QSTRING, NULL, BUFSIZE, &ConfigFileEntry.illegal_name_long_client_message },
{ "illegal_name_short_client_message", CF_QSTRING, NULL, BUFSIZE, &ConfigFileEntry.illegal_name_short_client_message },
2020-07-05 20:05:18 +00:00
{ "tls_ciphers_oper_only", CF_YESNO, NULL, 0, &ConfigFileEntry.tls_ciphers_oper_only },
{ "oper_secure_only", CF_YESNO, NULL, 0, &ConfigFileEntry.oper_secure_only },
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_channel_table[] =
{
{ "default_split_user_count", CF_INT, NULL, 0, &ConfigChannel.default_split_user_count },
{ "default_split_server_count", CF_INT, NULL, 0, &ConfigChannel.default_split_server_count },
{ "burst_topicwho", CF_YESNO, NULL, 0, &ConfigChannel.burst_topicwho },
{ "kick_on_split_riding", CF_YESNO, NULL, 0, &ConfigChannel.kick_on_split_riding },
{ "knock_delay", CF_TIME, NULL, 0, &ConfigChannel.knock_delay },
{ "knock_delay_channel",CF_TIME, NULL, 0, &ConfigChannel.knock_delay_channel },
{ "max_bans", CF_INT, NULL, 0, &ConfigChannel.max_bans },
{ "max_bans_large", CF_INT, NULL, 0, &ConfigChannel.max_bans_large },
{ "max_chans_per_user", CF_INT, NULL, 0, &ConfigChannel.max_chans_per_user },
{ "max_chans_per_user_large", CF_INT, NULL, 0, &ConfigChannel.max_chans_per_user_large },
{ "no_create_on_split", CF_YESNO, NULL, 0, &ConfigChannel.no_create_on_split },
{ "no_join_on_split", CF_YESNO, NULL, 0, &ConfigChannel.no_join_on_split },
{ "only_ascii_channels", CF_YESNO, NULL, 0, &ConfigChannel.only_ascii_channels },
{ "use_except", CF_YESNO, NULL, 0, &ConfigChannel.use_except },
{ "use_invex", CF_YESNO, NULL, 0, &ConfigChannel.use_invex },
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{ "use_forward", CF_YESNO, NULL, 0, &ConfigChannel.use_forward },
{ "use_knock", CF_YESNO, NULL, 0, &ConfigChannel.use_knock },
{ "resv_forcepart", CF_YESNO, NULL, 0, &ConfigChannel.resv_forcepart },
{ "channel_target_change", CF_YESNO, NULL, 0, &ConfigChannel.channel_target_change },
{ "disable_local_channels", CF_YESNO, NULL, 0, &ConfigChannel.disable_local_channels },
{ "autochanmodes", CF_QSTRING, conf_set_channel_autochanmodes, 0, NULL },
{ "displayed_usercount", CF_INT, NULL, 0, &ConfigChannel.displayed_usercount },
{ "strip_topic_colors", CF_YESNO, NULL, 0, &ConfigChannel.strip_topic_colors },
{ "opmod_send_statusmsg", CF_YESNO, NULL, 0, &ConfigChannel.opmod_send_statusmsg },
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{ "ip_bans_through_vhost", CF_YESNO, NULL, 0, &ConfigChannel.ip_bans_through_vhost },
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_serverhide_table[] =
{
{ "disable_hidden", CF_YESNO, NULL, 0, &ConfigServerHide.disable_hidden },
{ "flatten_links", CF_YESNO, NULL, 0, &ConfigServerHide.flatten_links },
{ "hidden", CF_YESNO, NULL, 0, &ConfigServerHide.hidden },
{ "links_delay", CF_TIME, conf_set_serverhide_links_delay, 0, NULL },
{ "\0", 0, NULL, 0, NULL }
};
/* *INDENT-ON* */
void
newconf_init()
{
add_top_conf("modules", NULL, NULL, NULL);
add_conf_item("modules", "path", CF_QSTRING, conf_set_modules_path);
add_conf_item("modules", "module", CF_QSTRING, conf_set_modules_module);
add_top_conf("serverinfo", NULL, NULL, conf_serverinfo_table);
add_top_conf("admin", NULL, NULL, conf_admin_table);
add_top_conf("log", NULL, NULL, conf_log_table);
add_top_conf("operator", conf_begin_oper, conf_end_oper, conf_operator_table);
add_top_conf("class", conf_begin_class, conf_end_class, conf_class_table);
add_top_conf("privset", NULL, NULL, conf_privset_table);
add_top_conf("listen", conf_begin_listen, conf_end_listen, NULL);
add_conf_item("listen", "defer_accept", CF_YESNO, conf_set_listen_defer_accept);
add_conf_item("listen", "wsock", CF_YESNO, conf_set_listen_wsock);
add_conf_item("listen", "port", CF_INT | CF_FLIST, conf_set_listen_port);
add_conf_item("listen", "sslport", CF_INT | CF_FLIST, conf_set_listen_sslport);
add_conf_item("listen", "sctp_port", CF_INT | CF_FLIST, conf_set_listen_sctp_port);
add_conf_item("listen", "sctp_sslport", CF_INT | CF_FLIST, conf_set_listen_sctp_sslport);
add_conf_item("listen", "ip", CF_QSTRING, conf_set_listen_address);
add_conf_item("listen", "host", CF_QSTRING, conf_set_listen_address);
add_top_conf("auth", conf_begin_auth, conf_end_auth, conf_auth_table);
add_top_conf("connect", conf_begin_connect, conf_end_connect, conf_connect_table);
add_top_conf("exempt", NULL, NULL, NULL);
add_conf_item("exempt", "ip", CF_QSTRING, conf_set_exempt_ip);
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add_top_conf("secure", NULL, NULL, NULL);
add_conf_item("secure", "ip", CF_QSTRING, conf_set_secure_ip);
add_top_conf("cluster", conf_cleanup_cluster, conf_cleanup_cluster, NULL);
add_conf_item("cluster", "name", CF_QSTRING, conf_set_cluster_name);
add_conf_item("cluster", "flags", CF_STRING | CF_FLIST, conf_set_cluster_flags);
add_top_conf("general", NULL, NULL, conf_general_table);
add_top_conf("channel", NULL, NULL, conf_channel_table);
add_top_conf("serverhide", NULL, NULL, conf_serverhide_table);
add_top_conf("service", NULL, NULL, NULL);
add_conf_item("service", "name", CF_QSTRING, conf_set_service_name);
add_top_conf("alias", conf_begin_alias, conf_end_alias, NULL);
add_conf_item("alias", "name", CF_QSTRING, conf_set_alias_name);
add_conf_item("alias", "target", CF_QSTRING, conf_set_alias_target);
add_top_conf("dnsbl", NULL, NULL, NULL);
add_conf_item("dnsbl", "host", CF_QSTRING, conf_set_dnsbl_entry_host);
add_conf_item("dnsbl", "type", CF_STRING | CF_FLIST, conf_set_dnsbl_entry_type);
add_conf_item("dnsbl", "matches", CF_QSTRING | CF_FLIST, conf_set_dnsbl_entry_matches);
add_conf_item("dnsbl", "reject_reason", CF_QSTRING, conf_set_dnsbl_entry_reason);
add_top_conf("blacklist", conf_warn_blacklist_deprecation, NULL, NULL);
add_conf_item("blacklist", "host", CF_QSTRING, conf_set_dnsbl_entry_host);
add_conf_item("blacklist", "type", CF_STRING | CF_FLIST, conf_set_dnsbl_entry_type);
add_conf_item("blacklist", "matches", CF_QSTRING | CF_FLIST, conf_set_dnsbl_entry_matches);
add_conf_item("blacklist", "reject_reason", CF_QSTRING, conf_set_dnsbl_entry_reason);
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add_top_conf("opm", conf_begin_opm, conf_end_opm, NULL);
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add_conf_item("opm", "timeout", CF_INT, conf_set_opm_timeout);
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add_conf_item("opm", "listen_ipv4", CF_QSTRING, conf_set_opm_listen_address_ipv4);
add_conf_item("opm", "listen_ipv6", CF_QSTRING, conf_set_opm_listen_address_ipv6);
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add_conf_item("opm", "port_v4", CF_INT, conf_set_opm_listen_port_ipv4);
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add_conf_item("opm", "port_v6", CF_INT, conf_set_opm_listen_port_ipv6);
add_conf_item("opm", "listen_port", CF_INT, conf_set_opm_listen_port);
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add_conf_item("opm", "socks4_ports", CF_INT | CF_FLIST, conf_set_opm_scan_ports_socks4);
add_conf_item("opm", "socks5_ports", CF_INT | CF_FLIST, conf_set_opm_scan_ports_socks5);
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add_conf_item("opm", "httpconnect_ports", CF_INT | CF_FLIST, conf_set_opm_scan_ports_httpconnect);
add_conf_item("opm", "httpsconnect_ports", CF_INT | CF_FLIST, conf_set_opm_scan_ports_httpsconnect);
}