uhub/src/inf.c

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2009-02-19 16:14:09 +00:00
/*
* uhub - A tiny ADC p2p connection hub
* Copyright (C) 2007-2009, Jan Vidar Krey
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
#include "uhub.h"
/*
* These flags can only be set by the hub.
* Make sure we don't allow clients to specify these themselves.
*
* NOTE: Some of them are legacy ADC flags and no longer used, these
* should be removed at some point in the future when functionality no
* longer depend on them.
*/
static void remove_server_restricted_flags(struct adc_message* cmd)
{
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_CLIENT_TYPE); /* Client type flag (CT, obsoletes BO, RG, OP, HU) */
adc_msg_remove_named_argument(cmd, "BO"); /* Obsolete: bot flag (CT) */
adc_msg_remove_named_argument(cmd, "RG"); /* Obsolete: registered user flag (CT) */
adc_msg_remove_named_argument(cmd, "OP"); /* Obsolete: operator flag (CT) */
adc_msg_remove_named_argument(cmd, "HU"); /* Obsolete: hub flag (CT) */
adc_msg_remove_named_argument(cmd, "HI"); /* Obsolete: hidden user flag */
adc_msg_remove_named_argument(cmd, "TO"); /* Client to client token - should not be seen here */
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_REFERER);
}
static int user_is_protected(struct user* user);
static int set_feature_cast_supports(struct user* u, struct adc_message* cmd)
{
char *it, *tmp;
if (adc_msg_has_named_argument(cmd, ADC_INF_FLAG_SUPPORT))
{
tmp = adc_msg_get_named_argument(cmd, ADC_INF_FLAG_SUPPORT);
user_clear_feature_cast_support(u);
it = tmp;
while (strlen(it) > 4)
{
it[4] = 0; /* FIXME: Not really needed */
user_set_feature_cast_support(u, it);
it = &it[5];
}
if (*it)
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{
user_set_feature_cast_support(u, it);
}
hub_free(tmp);
}
return 0;
}
static int check_hash_tiger(const char* cid, const char* pid)
{
char x_pid[64];
char raw_pid[64];
uint64_t tiger_res[3];
memset(x_pid, 0, MAX_CID_LEN+1);
base32_decode(pid, (unsigned char*) raw_pid, MAX_CID_LEN);
tiger((uint64_t*) raw_pid, TIGERSIZE, (uint64_t*) tiger_res);
base32_encode((unsigned char*) tiger_res, TIGERSIZE, x_pid);
x_pid[MAX_CID_LEN] = 0;
if (strncasecmp(x_pid, cid, MAX_CID_LEN) == 0)
return 1;
return 0;
}
/*
* FIXME: Only works for tiger hash. If a client doesnt support tiger we cannot let it in!
*/
static int check_cid(struct hub_info* hub, struct user* user, struct adc_message* cmd)
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{
size_t pos;
char* cid = adc_msg_get_named_argument(cmd, ADC_INF_FLAG_CLIENT_ID);
char* pid = adc_msg_get_named_argument(cmd, ADC_INF_FLAG_PRIVATE_ID);
if (!cid || !pid)
{
hub_free(cid);
hub_free(pid);
return status_msg_error_no_memory;
}
if (strlen(cid) != MAX_CID_LEN)
{
hub_free(cid);
hub_free(pid);
return status_msg_inf_error_cid_invalid;
}
if (strlen(pid) != MAX_CID_LEN)
{
hub_free(cid);
hub_free(pid);
return status_msg_inf_error_pid_invalid;
}
for (pos = 0; pos < MAX_CID_LEN; pos++)
{
if (!is_valid_base32_char(cid[pos]))
{
hub_free(cid);
hub_free(pid);
return status_msg_inf_error_cid_invalid;
}
if (!is_valid_base32_char(pid[pos]))
{
hub_free(cid);
hub_free(pid);
return status_msg_inf_error_pid_invalid;
}
}
if (!check_hash_tiger(cid, pid))
{
hub_free(cid);
hub_free(pid);
return status_msg_inf_error_cid_invalid;
}
/* Set the cid in the user object */
memcpy(user->id.cid, cid, MAX_CID_LEN);
user->id.cid[MAX_CID_LEN] = 0;
hub_free(cid);
hub_free(pid);
return 0;
}
static int check_required_login_flags(struct hub_info* hub, struct user* user, struct adc_message* cmd)
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{
int num = 0;
num = adc_msg_has_named_argument(cmd, ADC_INF_FLAG_CLIENT_ID);
if (num != 1)
{
if (!num)
return status_msg_inf_error_cid_missing;
return status_msg_inf_error_cid_invalid;
}
num = adc_msg_has_named_argument(cmd, ADC_INF_FLAG_PRIVATE_ID);
if (num != 1)
{
if (!num)
return status_msg_inf_error_pid_missing;
return status_msg_inf_error_pid_invalid;
}
num = adc_msg_has_named_argument(cmd, ADC_INF_FLAG_NICK);
if (num != 1)
{
if (!num)
return status_msg_inf_error_nick_missing;
return status_msg_inf_error_nick_multiple;
}
return 0;
}
/**
* This will check the ip address of the user, and
* remove any wrong address, and replace it with the correct one
* as seen by the hub.
*/
int check_network(struct hub_info* hub, struct user* user, struct adc_message* cmd)
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{
const char* address = ip_convert_to_string(&user->ipaddr);
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/* Check for NAT override address */
if (acl_is_ip_nat_override(hub->acl, address))
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{
char* client_given_ip = adc_msg_get_named_argument(cmd, ADC_INF_FLAG_IPV4_ADDR);
if (strcmp(client_given_ip, "0.0.0.0") != 0)
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{
user_set_nat_override(user);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_IPV6_ADDR);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_IPV6_UDP_PORT);
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hub_free(client_given_ip);
return 0;
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}
hub_free(client_given_ip);
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}
if (strchr(address, '.'))
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{
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_IPV6_ADDR);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_IPV6_UDP_PORT);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_IPV4_ADDR);
adc_msg_add_named_argument(cmd, ADC_INF_FLAG_IPV4_ADDR, address);
}
else if (strchr(address, ':'))
{
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_IPV4_ADDR);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_IPV4_UDP_PORT);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_IPV6_ADDR);
adc_msg_add_named_argument(cmd, ADC_INF_FLAG_IPV6_ADDR, address);
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}
return 0;
}
void strip_network(struct user* user, struct adc_message* cmd)
{
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_IPV6_ADDR);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_IPV6_UDP_PORT);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_IPV4_ADDR);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_IPV4_UDP_PORT);
}
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static int nick_length_ok(const char* nick)
{
size_t length = strlen(nick);
if (length <= 1)
{
return nick_invalid_short;
}
if (length > MAX_NICK_LEN)
{
return nick_invalid_long;
}
return nick_ok;
}
static int nick_bad_characters(const char* nick)
{
const char* tmp;
/* Nick must not start with a space */
if (nick[0] == ' ')
return nick_invalid_spaces;
/* Check for ASCII values below 32 */
for (tmp = nick; *tmp; tmp++)
if ((*tmp < 32) && (*tmp > 0))
return nick_invalid_bad_ascii;
return nick_ok;
}
static int nick_is_utf8(const char* nick)
{
/*
* Nick should be valid utf-8, but
* perhaps we should check if the nick is unicode normalized?
*/
if (!is_valid_utf8(nick))
return nick_invalid_bad_utf8;
return nick_ok;
}
static int check_nick(struct hub_info* hub, struct user* user, struct adc_message* cmd)
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{
char* nick;
char* tmp;
enum nick_status status;
tmp = adc_msg_get_named_argument(cmd, ADC_INF_FLAG_NICK);
if (!tmp) return 0;
nick = adc_msg_unescape(tmp);
free(tmp); tmp = 0;
if (!nick) return 0;
status = nick_length_ok(nick);
if (status != nick_ok)
{
hub_free(nick);
if (status == nick_invalid_short)
return status_msg_inf_error_nick_short;
return status_msg_inf_error_nick_long;
}
status = nick_bad_characters(nick);
if (status != nick_ok)
{
hub_free(nick);
if (status == nick_invalid_spaces)
return status_msg_inf_error_nick_spaces;
return status_msg_inf_error_nick_bad_chars;
}
status = nick_is_utf8(nick);
if (status != nick_ok)
{
hub_free(nick);
return status_msg_inf_error_nick_not_utf8;
}
if (user_is_connecting(user))
{
memcpy(user->id.nick, nick, strlen(nick));
user->id.nick[strlen(nick)] = 0;
}
hub_free(nick);
return 0;
}
static int check_logged_in(struct hub_info* hub, struct user* user, struct adc_message* cmd)
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{
struct user* lookup1 = get_user_by_nick(hub, user->id.nick);
struct user* lookup2 = get_user_by_cid(hub, user->id.cid);
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if (lookup1 == user)
{
return 0;
}
if (lookup1 || lookup2)
{
if (lookup1 == lookup2)
{
hub_log(log_debug, "check_logged_in: exact same user is logged in: %s", user->id.nick);
user_disconnect(lookup1, quit_ghost_timeout);
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return 0;
}
else
{
if (lookup1)
{
hub_log(log_debug, "check_logged_in: nickname is in use: %s", user->id.nick);
return status_msg_inf_error_nick_taken;
}
else
{
hub_log(log_debug, "check_logged_in: CID is in use: %s", user->id.cid);
return status_msg_inf_error_cid_taken;
}
}
}
return 0;
}
/*
* It is possible to do user-agent checking here.
* But this is not something we want to do, and is deprecated in the ADC specification.
* One should rather look at capabilities/features.
*/
static int check_user_agent(struct hub_info* hub, struct user* user, struct adc_message* cmd)
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{
char* ua_encoded = 0;
char* ua = 0;
/* Get client user agent version */
ua_encoded = adc_msg_get_named_argument(cmd, ADC_INF_FLAG_USER_AGENT);
if (ua_encoded)
{
ua = adc_msg_unescape(ua_encoded);
if (ua)
{
memcpy(user->user_agent, ua, MIN(strlen(ua), MAX_UA_LEN));
hub_free(ua);
}
}
hub_free(ua_encoded);
return 0;
}
static int check_acl(struct hub_info* hub, struct user* user, struct adc_message* cmd)
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{
if (acl_is_cid_banned(hub->acl, user->id.cid))
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{
return status_msg_ban_permanently;
}
if (acl_is_user_banned(hub->acl, user->id.nick))
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{
return status_msg_ban_permanently;
}
if (acl_is_user_denied(hub->acl, user->id.nick))
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{
return status_msg_inf_error_nick_restricted;
}
return 0;
}
static int check_limits(struct hub_info* hub, struct user* user, struct adc_message* cmd)
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{
char* arg = adc_msg_get_named_argument(cmd, ADC_INF_FLAG_SHARED_SIZE);
if (arg)
{
int64_t shared_size = atoll(arg);
if (shared_size < 0)
shared_size = 0;
if (user_is_logged_in(user))
{
hub->users->shared_size -= user->limits.shared_size;
hub->users->shared_size += shared_size;
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}
user->limits.shared_size = shared_size;
hub_free(arg);
arg = 0;
}
arg = adc_msg_get_named_argument(cmd, ADC_INF_FLAG_SHARED_FILES);
if (arg)
{
ssize_t shared_files = atoll(arg);
if (shared_files < 0)
shared_files = 0;
if (user_is_logged_in(user))
{
hub->users->shared_files -= user->limits.shared_files;
hub->users->shared_files += shared_files;
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}
user->limits.shared_files = shared_files;
hub_free(arg);
arg = 0;
}
arg = adc_msg_get_named_argument(cmd, ADC_INF_FLAG_COUNT_HUB_NORMAL);
if (arg)
{
ssize_t num = atoll(arg);
if (num < 0) num = 0;
user->limits.hub_count_user = num;
hub_free(arg);
arg = 0;
}
arg = adc_msg_get_named_argument(cmd, ADC_INF_FLAG_COUNT_HUB_REGISTER);
if (arg)
{
ssize_t num = atoll(arg);
if (num < 0) num = 0;
user->limits.hub_count_registered = num;
hub_free(arg);
arg = 0;
}
arg = adc_msg_get_named_argument(cmd, ADC_INF_FLAG_COUNT_HUB_OPERATOR);
if (arg)
{
ssize_t num = atoll(arg);
if (num < 0) num = 0;
user->limits.hub_count_operator = num;
hub_free(arg);
arg = 0;
}
arg = adc_msg_get_named_argument(cmd, ADC_INF_FLAG_UPLOAD_SLOTS);
if (arg)
{
ssize_t num = atoll(arg);
if (num < 0) num = 0;
user->limits.upload_slots = num;
hub_free(arg);
arg = 0;
}
/* summarize total slots */
user->limits.hub_count_total = user->limits.hub_count_user + user->limits.hub_count_registered + user->limits.hub_count_operator;
if (!user_is_protected(user))
{
if (user->limits.shared_size < hub_get_min_share(hub) && hub_get_min_share(hub))
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{
return status_msg_user_share_size_low;
}
if (user->limits.shared_size > hub_get_max_share(hub) && hub_get_max_share(hub))
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{
return status_msg_user_share_size_high;
}
if ((user->limits.hub_count_user > hub_get_max_hubs_user(hub) && hub_get_max_hubs_user(hub)) ||
(user->limits.hub_count_registered > hub_get_max_hubs_reg(hub) && hub_get_max_hubs_reg(hub)) ||
(user->limits.hub_count_operator > hub_get_max_hubs_op(hub) && hub_get_max_hubs_op(hub)) ||
(user->limits.hub_count_total > hub_get_max_hubs_total(hub) && hub_get_max_hubs_total(hub)))
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{
return status_msg_user_hub_limit_high;
}
if ((user->limits.hub_count_user < hub_get_min_hubs_user(hub) && hub_get_min_hubs_user(hub)) ||
(user->limits.hub_count_registered < hub_get_min_hubs_reg(hub) && hub_get_min_hubs_reg(hub)) ||
(user->limits.hub_count_operator < hub_get_min_hubs_op(hub) && hub_get_min_hubs_op(hub)))
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{
return status_msg_user_hub_limit_low;
}
if (user->limits.upload_slots < hub_get_min_slots(hub) && hub_get_min_slots(hub))
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{
return status_msg_user_slots_low;
}
if (user->limits.upload_slots > hub_get_max_slots(hub) && hub_get_max_slots(hub))
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{
return status_msg_user_slots_high;
}
}
return 0;
}
/*
* Set the expected credentials, and returns 1 if authentication is needed,
* or 0 if not.
* If the hub is configured to allow only registered users and the user
* is not recognized this will return 1.
*/
static int set_credentials(struct hub_info* hub, struct user* user, struct adc_message* cmd)
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{
int ret = 0;
struct user_access_info* info = acl_get_access_info(hub->acl, user->id.nick);
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if (info)
{
user->credentials = info->status;
ret = 1;
}
else
{
user->credentials = cred_guest;
}
switch (user->credentials)
{
case cred_none:
break;
case cred_bot:
adc_msg_add_argument(cmd, ADC_INF_FLAG_CLIENT_TYPE ADC_CLIENT_TYPE_BOT);
break;
case cred_guest:
/* Nothing to be added to the info message */
break;
case cred_user:
adc_msg_add_argument(cmd, ADC_INF_FLAG_CLIENT_TYPE ADC_CLIENT_TYPE_REGISTERED_USER);
break;
case cred_operator:
adc_msg_add_argument(cmd, ADC_INF_FLAG_CLIENT_TYPE ADC_CLIENT_TYPE_OPERATOR);
break;
case cred_super:
adc_msg_add_argument(cmd, ADC_INF_FLAG_CLIENT_TYPE ADC_CLIENT_TYPE_SUPER_USER);
break;
case cred_admin:
adc_msg_add_argument(cmd, ADC_INF_FLAG_CLIENT_TYPE ADC_CLIENT_TYPE_ADMIN);
break;
case cred_link:
break;
}
return ret;
}
/**
* Determines if a user is to be let into the hub even if the hub is "full".
*/
static int user_is_protected(struct user* user)
{
switch (user->credentials)
{
case cred_bot:
case cred_operator:
case cred_super:
case cred_admin:
case cred_link:
return 1;
default:
break;
}
return 0;
}
/**
* Returns 1 if a user is registered.
* Only registered users will be let in if the hub is configured for registered
* users only.
*/
static int user_is_registered(struct user* user)
{
switch (user->credentials)
{
case cred_bot:
case cred_user:
case cred_operator:
case cred_super:
case cred_admin:
case cred_link:
return 1;
default:
break;
}
return 0;
}
static int check_is_hub_full(struct hub_info* hub, struct user* user)
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{
/*
* If hub is full, don't let users in, but we still want to allow
* operators and admins to enter the hub.
*/
if (hub->config->max_users && hub->users->count >= hub->config->max_users && !user_is_protected(user))
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{
return 1;
}
return 0;
}
static int check_registered_users_only(struct hub_info* hub, struct user* user)
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{
if (hub->config->registered_users_only && !user_is_registered(user))
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{
return 1;
}
return 0;
}
static int hub_handle_info_common(struct user* user, struct adc_message* cmd)
{
/* Remove server restricted flags */
remove_server_restricted_flags(cmd);
/* Update/set the feature cast flags. */
set_feature_cast_supports(user, cmd);
return 0;
}
static int hub_handle_info_low_bandwidth(struct hub_info* hub, struct user* user, struct adc_message* cmd)
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{
if (hub->config->low_bandwidth_mode)
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{
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_USER_AGENT);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_SHARED_FILES);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_COUNT_HUB_NORMAL);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_COUNT_HUB_REGISTER);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_COUNT_HUB_OPERATOR);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_UPLOAD_SPEED);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_DOWNLOAD_SPEED);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_AUTO_SLOTS);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_AUTO_SLOTS_MAX);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_AWAY);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_DESCRIPTION);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_EMAIL);
}
return 0;
}
#define INF_CHECK(FUNC, HUB, USER, CMD) \
do { \
int ret = FUNC(HUB, USER, CMD); \
if (ret < 0) \
return ret; \
} while(0)
int hub_perform_login_checks(struct hub_info* hub, struct user* user, struct adc_message* cmd)
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{
/* Make syntax checks. */
INF_CHECK(check_required_login_flags, hub, user, cmd);
INF_CHECK(check_cid, hub, user, cmd);
INF_CHECK(check_nick, hub, user, cmd);
INF_CHECK(check_network, hub, user, cmd);
INF_CHECK(check_user_agent, hub, user, cmd);
INF_CHECK(check_acl, hub, user, cmd);
INF_CHECK(check_logged_in, hub, user, cmd);
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return 0;
}
int hub_handle_info_login(struct hub_info* hub, struct user* user, struct adc_message* cmd)
{
int need_auth = 0;
INF_CHECK(hub_perform_login_checks, hub, user, cmd);
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/* Private ID must never be broadcasted - drop it! */
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_PRIVATE_ID);
/* FIXME: This needs some cleaning up */
need_auth = set_credentials(hub, user, cmd);
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/* Note: this must be done *after* set_credentials. */
if (check_is_hub_full(hub, user))
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{
return status_msg_hub_full;
}
if (check_registered_users_only(hub, user))
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{
return status_msg_hub_registered_users_only;
}
INF_CHECK(check_limits, hub, user, cmd);
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/* strip off stuff if low_bandwidth_mode is enabled */
hub_handle_info_low_bandwidth(hub, user, cmd);
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/* Set initial user info */
user_set_info(user, cmd);
return need_auth;
}
/*
* If user is in the connecting state, we need to do fairly
* strict checking of all arguments.
* This means we disconnect users when they provide invalid data
* during the login sequence.
* When users are merely updating their data after successful login
* we can just ignore any invalid data and not broadcast it.
*
* The data we need to check is:
* - nick name (valid, not taken, etc)
* - CID/PID (valid, not taken, etc).
* - IP addresses (IPv4 and IPv6)
*/
int hub_handle_info(struct hub_info* hub, struct user* user, const struct adc_message* cmd_unmodified)
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{
struct adc_message* cmd = adc_msg_copy(cmd_unmodified);
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if (!cmd) return -1; /* OOM */
cmd->priority = 1;
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hub_handle_info_common(user, cmd);
/* If user is logging in, perform more checks,
otherwise only a few things need to be checked.
*/
if (user_is_connecting(user))
{
/*
* Don't allow the user to send multiple INF messages in this stage!
* Since that can have serious side-effects.
*/
if (user->info)
{
adc_msg_free(cmd);
return 0;
}
int ret = hub_handle_info_login(hub, user, cmd);
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if (ret < 0)
{
on_login_failure(hub, user, ret);
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adc_msg_free(cmd);
return -1;
}
else
{
/* Post a message, the user has joined */
struct event_data post;
memset(&post, 0, sizeof(post));
post.id = UHUB_EVENT_USER_JOIN;
post.ptr = user;
post.flags = ret; /* 0 - all OK, 1 - need authentication */
event_queue_post(hub->queue, &post);
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adc_msg_free(cmd);
return 0;
}
}
else
{
/* These must not be allowed updated, let's remove them! */
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_PRIVATE_ID);
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_CLIENT_ID);
/*
* If the nick is not accepted, do not relay it.
* Otherwise, the nickname will be updated.
*/
if (adc_msg_has_named_argument(cmd, ADC_INF_FLAG_NICK))
{
#if ALLOW_CHANGE_NICK
if (!check_nick(hub, user, cmd))
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#endif
adc_msg_remove_named_argument(cmd, ADC_INF_FLAG_NICK);
}
/* FIXME - What if limits are not met ? */
check_limits(hub, user, cmd);
strip_network(user, cmd);
hub_handle_info_low_bandwidth(hub, user, cmd);
user_update_info(user, cmd);
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if (!adc_msg_is_empty(cmd))
{
route_message(user, cmd);
}
adc_msg_free(cmd);
}
return 0;
}