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Direktori : /usr/src/kernels/3.10.0-1160.88.1.el7.centos.plus.x86_64/include/net/irda/ |
Current File : //usr/src/kernels/3.10.0-1160.88.1.el7.centos.plus.x86_64/include/net/irda/irttp.h |
/********************************************************************* * * Filename: irttp.h * Version: 1.0 * Description: Tiny Transport Protocol (TTP) definitions * Status: Experimental. * Author: Dag Brattli <dagb@cs.uit.no> * Created at: Sun Aug 31 20:14:31 1997 * Modified at: Sun Dec 12 13:09:07 1999 * Modified by: Dag Brattli <dagb@cs.uit.no> * * Copyright (c) 1998-1999 Dag Brattli <dagb@cs.uit.no>, * All Rights Reserved. * Copyright (c) 2000-2002 Jean Tourrilhes <jt@hpl.hp.com> * * 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 2 of * the License, or (at your option) any later version. * * Neither Dag Brattli nor University of Tromsø admit liability nor * provide warranty for any of this software. This material is * provided "AS-IS" and at no charge. * ********************************************************************/ #ifndef IRTTP_H #define IRTTP_H #include <linux/types.h> #include <linux/skbuff.h> #include <linux/spinlock.h> #include <net/irda/irda.h> #include <net/irda/irlmp.h> /* struct lsap_cb */ #include <net/irda/qos.h> /* struct qos_info */ #include <net/irda/irqueue.h> #define TTP_MAX_CONNECTIONS LM_MAX_CONNECTIONS #define TTP_HEADER 1 #define TTP_MAX_HEADER (TTP_HEADER + LMP_MAX_HEADER) #define TTP_SAR_HEADER 5 #define TTP_PARAMETERS 0x80 #define TTP_MORE 0x80 /* Transmission queue sizes */ /* Worst case scenario, two window of data - Jean II */ #define TTP_TX_MAX_QUEUE 14 /* We need to keep at least 5 frames to make sure that we can refill * appropriately the LAP layer. LAP keeps only two buffers, and we need * to have 7 to make a full window - Jean II */ #define TTP_TX_LOW_THRESHOLD 5 /* Most clients are synchronous with respect to flow control, so we can * keep a low number of Tx buffers in TTP - Jean II */ #define TTP_TX_HIGH_THRESHOLD 7 /* Receive queue sizes */ /* Minimum of credit that the peer should hold. * If the peer has less credits than 9 frames, we will explicitly send * him some credits (through irttp_give_credit() and a specific frame). * Note that when we give credits it's likely that it won't be sent in * this LAP window, but in the next one. So, we make sure that the peer * has something to send while waiting for credits (one LAP window == 7 * + 1 frames while he process the credits). - Jean II */ #define TTP_RX_MIN_CREDIT 8 /* This is the default maximum number of credits held by the peer, so the * default maximum number of frames he can send us before needing flow * control answer from us (this may be negociated differently at TSAP setup). * We want to minimise the number of times we have to explicitly send some * credit to the peer, hoping we can piggyback it on the return data. In * particular, it doesn't make sense for us to send credit more than once * per LAP window. * Moreover, giving credits has some latency, so we need strictly more than * a LAP window, otherwise we may already have credits in our Tx queue. * But on the other hand, we don't want to keep too many Rx buffer here * before starting to flow control the other end, so make it exactly one * LAP window + 1 + MIN_CREDITS. - Jean II */ #define TTP_RX_DEFAULT_CREDIT 16 /* Maximum number of credits we can allow the peer to have, and therefore * maximum Rx queue size. * Note that we try to deliver packets to the higher layer every time we * receive something, so in normal mode the Rx queue will never contains * more than one or two packets. - Jean II */ #define TTP_RX_MAX_CREDIT 21 /* What clients should use when calling ttp_open_tsap() */ #define DEFAULT_INITIAL_CREDIT TTP_RX_DEFAULT_CREDIT /* Some priorities for disconnect requests */ #define P_NORMAL 0 #define P_HIGH 1 #define TTP_SAR_DISABLE 0 #define TTP_SAR_UNBOUND 0xffffffff /* Parameters */ #define TTP_MAX_SDU_SIZE 0x01 /* * This structure contains all data associated with one instance of a TTP * connection. */ struct tsap_cb { irda_queue_t q; /* Must be first */ magic_t magic; /* Just in case */ __u8 stsap_sel; /* Source TSAP */ __u8 dtsap_sel; /* Destination TSAP */ struct lsap_cb *lsap; /* Corresponding LSAP to this TSAP */ __u8 connected; /* TSAP connected */ __u8 initial_credit; /* Initial credit to give peer */ int avail_credit; /* Available credit to return to peer */ int remote_credit; /* Credit held by peer TTP entity */ int send_credit; /* Credit held by local TTP entity */ struct sk_buff_head tx_queue; /* Frames to be transmitted */ struct sk_buff_head rx_queue; /* Received frames */ struct sk_buff_head rx_fragments; int tx_queue_lock; int rx_queue_lock; spinlock_t lock; notify_t notify; /* Callbacks to client layer */ struct net_device_stats stats; struct timer_list todo_timer; __u32 max_seg_size; /* Max data that fit into an IrLAP frame */ __u8 max_header_size; int rx_sdu_busy; /* RxSdu.busy */ __u32 rx_sdu_size; /* Current size of a partially received frame */ __u32 rx_max_sdu_size; /* Max receive user data size */ int tx_sdu_busy; /* TxSdu.busy */ __u32 tx_max_sdu_size; /* Max transmit user data size */ int close_pend; /* Close, but disconnect_pend */ unsigned long disconnect_pend; /* Disconnect, but still data to send */ struct sk_buff *disconnect_skb; }; struct irttp_cb { magic_t magic; hashbin_t *tsaps; }; int irttp_init(void); void irttp_cleanup(void); struct tsap_cb *irttp_open_tsap(__u8 stsap_sel, int credit, notify_t *notify); int irttp_close_tsap(struct tsap_cb *self); int irttp_data_request(struct tsap_cb *self, struct sk_buff *skb); int irttp_udata_request(struct tsap_cb *self, struct sk_buff *skb); int irttp_connect_request(struct tsap_cb *self, __u8 dtsap_sel, __u32 saddr, __u32 daddr, struct qos_info *qos, __u32 max_sdu_size, struct sk_buff *userdata); int irttp_connect_response(struct tsap_cb *self, __u32 max_sdu_size, struct sk_buff *userdata); int irttp_disconnect_request(struct tsap_cb *self, struct sk_buff *skb, int priority); void irttp_flow_request(struct tsap_cb *self, LOCAL_FLOW flow); struct tsap_cb *irttp_dup(struct tsap_cb *self, void *instance); static inline __u32 irttp_get_saddr(struct tsap_cb *self) { return irlmp_get_saddr(self->lsap); } static inline __u32 irttp_get_daddr(struct tsap_cb *self) { return irlmp_get_daddr(self->lsap); } static inline __u32 irttp_get_max_seg_size(struct tsap_cb *self) { return self->max_seg_size; } /* After doing a irttp_dup(), this get one of the two socket back into * a state where it's waiting incoming connections. * Note : this can be used *only* if the socket is not yet connected * (i.e. NO irttp_connect_response() done on this socket). * - Jean II */ static inline void irttp_listen(struct tsap_cb *self) { irlmp_listen(self->lsap); self->dtsap_sel = LSAP_ANY; } /* Return TRUE if the node is in primary mode (i.e. master) * - Jean II */ static inline int irttp_is_primary(struct tsap_cb *self) { if ((self == NULL) || (self->lsap == NULL) || (self->lsap->lap == NULL) || (self->lsap->lap->irlap == NULL)) return -2; return irlap_is_primary(self->lsap->lap->irlap); } #endif /* IRTTP_H */