#ifndef __AP_SESSION_H__ #define __AP_SESSION_H__ #include #include "triton.h" #include "ap_net.h" //#define AP_SESSIONID_LEN 16 #define AP_IFNAME_LEN 16 #define AP_STATE_STARTING 1 #define AP_STATE_ACTIVE 2 #define AP_STATE_FINISHING 3 #define AP_STATE_RESTORE 4 #define TERM_USER_REQUEST 1 #define TERM_SESSION_TIMEOUT 2 #define TERM_ADMIN_RESET 3 #define TERM_USER_ERROR 4 #define TERM_NAS_ERROR 5 #define TERM_NAS_REQUEST 6 #define TERM_NAS_REBOOT 7 #define TERM_AUTH_ERROR 8 #define TERM_LOST_CARRIER 9 #define TERM_IDLE_TIMEOUT 10 #define CTRL_TYPE_PPTP 1 #define CTRL_TYPE_L2TP 2 #define CTRL_TYPE_PPPOE 3 #define CTRL_TYPE_IPOE 4 #define CTRL_TYPE_OPENVPN 5 #define CTRL_TYPE_SSTP 6 #define MPPE_UNSET -2 #define MPPE_ALLOW -1 #define MPPE_DENY 0 #define MPPE_PREFER 1 #define MPPE_REQUIRE 2 struct ap_session; struct backup_data; struct rtnl_link_stats; struct ap_ctrl { struct triton_context_t *ctx; int type; const char *name; const char *ifname; int max_mtu; int mppe; char *calling_station_id; char *called_station_id; unsigned int dont_ifcfg:1; unsigned int ppp:1; unsigned int ppp_npmode:2; void (*started)(struct ap_session*); void (*finished)(struct ap_session *); int (*terminate)(struct ap_session *, int hard); }; struct ap_private { struct list_head entry; void *key; }; struct ap_session { struct list_head entry; int state; char *chan_name; char ifname[AP_IFNAME_LEN]; char *ifname_rename; char *vrf_name; int unit_idx; int ifindex; char sessionid[AP_SESSIONID_LEN+1]; time_t start_time; time_t stop_time; time_t idle_time; char *username; struct ipv4db_item_t *ipv4; struct ipv6db_item_t *ipv6; struct ipv6db_prefix_t *ipv6_dp; char *ipv4_pool_name; char *ipv6_pool_name; char *dpv6_pool_name; struct ap_net *net; const struct ap_ctrl *ctrl; const char *comp; #ifdef USE_BACKUP struct backup_data *backup; #endif struct triton_context_t *wakeup; unsigned int terminating:1; unsigned int terminated:1; unsigned int down:1; int terminate_cause; struct list_head pd_list; int idle_timeout; int session_timeout; struct triton_timer_t timer; uint32_t acct_rx_bytes; uint32_t acct_tx_bytes; uint32_t acct_input_gigawords; uint32_t acct_output_gigawords; uint32_t acct_rx_packets_i; uint32_t acct_tx_packets_i; uint32_t acct_rx_bytes_i; uint32_t acct_tx_bytes_i; int acct_start; }; struct ap_session_stat { unsigned int active; unsigned int starting; unsigned int finishing; }; extern pthread_rwlock_t ses_lock; extern struct list_head ses_list; extern int ap_shutdown; extern int sock_fd; extern int sock6_fd; extern int urandom_fd; extern struct ap_session_stat ap_session_stat; extern int conf_max_sessions; extern int conf_max_starting; void ap_session_init(struct ap_session *ses); void ap_session_set_ifindex(struct ap_session *ses); int ap_session_starting(struct ap_session *ses); void ap_session_finished(struct ap_session *ses); void ap_session_terminate(struct ap_session *ses, int cause, int hard); void ap_session_activate(struct ap_session *ses); void ap_session_accounting_started(struct ap_session *ses); int ap_session_set_username(struct ap_session *ses, char *username); int ap_check_username(const char *username); void ap_session_ifup(struct ap_session *ses); void ap_session_ifdown(struct ap_session *ses); int ap_session_rename(struct ap_session *ses, const char *ifname, int len); #ifdef HAVE_VRF int ap_session_vrf(struct ap_session *ses, const char *vrf_name, int len); #endif int ap_session_read_stats(struct ap_session *ses, struct rtnl_link_stats *stats); int ap_shutdown_soft(void (*cb)(void), int term); #endif