#ifndef HOOK_H #define HOOK_H #include "ucc_geth.h" #include #include #include #define EN_SIP_SWITCH (1) #define UMB_MAX_CH (192) #define UMB_MAX_GETH (3) #define UMB_MAX_RTP_CH (UMB_MAX_CH * UMB_MAX_GETH) //384 /* // 10ms rtp struct rtp_tx_buf_t{ uint16_t status; uint16_t len; uint8_t data[156]; //156 + 4 == 160 }; struct rtp_rx_buf_t { uint16_t status; uint16_t len; uint8_t data[156]; //156 + 4 == 160 }; struct rtp_ch_t { struct rtp_tx_buf_t* current_ktx; struct rtp_tx_buf_t* current_utx; struct rtp_rx_buf_t* current_krx; struct rtp_rx_buf_t* current_urx; void* netdev; //for out route device struct sock *sk; struct rtp_tx_buf_t tx[2]; struct rtp_rx_buf_t rx[4]; atomic_t hold; uint8_t pad0[36]; }; //160*6 + 4*7 + 36 = 960 + 28 + 36 = 1024; */ struct rtp_tx_buf_t{ uint16_t status; uint16_t len; uint8_t data[156]; //156 + 4 == 160 }; struct rtp_rx_buf_t { uint16_t status; uint16_t len; char* data; void* skb; }; typedef struct __CPU_TIMER_DBG__ { unsigned int uRTPSendTime; unsigned int uIRQTime; unsigned int uRTPNetTime; unsigned int uIRQHookTime; unsigned int uRTPSendCnt; unsigned int uIRQCnt; unsigned int uRTPNetCnt; unsigned int uIRQHookCnt; } CPU_TIMER_DBG, *PCPU_TIMER_DBG; typedef struct __RTP_CH_DGBS__ { uint32_t uRecBytes; uint32_t uSendBytes; uint32_t uUDPRecPackages; uint32_t uLostPackages; uint32_t uSendSeqLost; uint32_t uRecvSeqLost; uint32_t uBufStatus; } RTP_CH_DBGS, PRTP_CH_DBGS; struct rtp_ch_t { struct rtp_tx_buf_t* current_ktx; struct rtp_tx_buf_t* current_utx; struct rtp_rx_buf_t* current_krx; struct rtp_rx_buf_t* current_urx; void* netdev; //for out route device struct sock *sk; struct rtp_tx_buf_t tx[2]; struct rtp_rx_buf_t rx[3]; uint32_t weight; //atomic_t hold; }; //160*2 + 4*7 + 3*12 = 384 struct g_rtp_t { struct rtp_ch_t rtp_ch[UMB_MAX_RTP_CH]; //372 ch 4096*93 }; #define NET_DEBUG_RTP_MAX 20 struct net_debug_rtp_t { struct rtp_tx_buf_t* current_ktx; struct rtp_tx_buf_t* current_utx; void* netdev; //for out route device struct sock *sk; struct rtp_tx_buf_t tx[NET_DEBUG_RTP_MAX]; uint32_t weight; }; //160*10 + 4*5 = 1620 enum { SKB_BUFF_TYPE = 0, RTP_BUFF_TYPE = 1, } ; enum { IRQ_STOP = 0x00000001, }; struct ipstack_hook_t { //struct sk_buff_head qtx[UMB_MAX_GETH]; struct sk_buff_head qtx; uint8_t* kmap_addr; uint8_t* kmap_end; uint32_t kmap_len; uintptr_t kmap_phy; struct net_device *ucc_ndev; atomic_t hold; int (*hook_init)(struct ucc_geth_private* ); int (*hook_exit)(struct ucc_geth_private* ); int (*xmit_filter)(struct sk_buff*); int (*backlog)(struct sk_buff*); int (*hook_xmit)(void* data, int tx_type, struct net_device* dev); int (*backlog_xmit)(struct ucc_geth_private* ); int (*gptimer_init)(int); int (*gptimer_exit)(void); struct g_rtp_t* (*get_grtp)(struct ucc_geth_private* ); int (*is_rtp_kbuf)(char* ); int (*do_sock_send)(void* ); int (*do_sock_recv)(struct sk_buff *skb, int* rlt); }; #ifdef EN_SIP_SWITCH #define MAX_CH_SUBPORT (3) typedef enum __ETH_INTERFACE__ { ETH_INTERFACE_0 = 0, ETH_INTERFACE_1 = 1, ETH_INTERFACE_2 = 2, } ETH_INTERFACE; typedef enum __CH_TYPE__ { CH_TYPE_UNKNOWN = -1, CH_TYPE_UMB = 0, CH_TYPE_SIP = 1, CH_TYPE_TC = 2, } CH_TYPE; typedef enum __CH_STATUS__ { CH_STATUS_UNKONWN = -1, CH_STATUS_CONFIGUREED = 0, CH_STATUS_IDLE = 1, CH_STATUS_LINKED = 2, } CH_STATUS; typedef enum __PORT_TYPE__ { PORT_TYPE_UNKNOWN = -1, PORT_TYPE_RECA = 0, PORT_TYPE_RECB = 1, PORT_TYPE_SS = 2, PORT_TYPE_IPR = 5, PORT_TYPE_B2B = 6, PORT_TYPE_T38 = 7, PORT_TYPE_SIPRTP = 8, } PORT_TYPE; typedef struct __IP_ADDR_INFO__ { // ETH_INTERFACE ethId; char ethAddr[ETH_ALEN]; __be16 ipPort; __be32 ipAddr; } IP_ADDR_INFO, *PIP_ADDR_INFO; #pragma pack(1) typedef struct __PACKAGE_HEAD__ { struct ethhdr ethHead; struct iphdr ipHead; struct udphdr udpHead; } __attribute__((packed)) PACKAGE_HEAD, *PPACKAGE_HEAD; typedef struct __PACKAGE_INFO__ { unsigned int isUpdate; PACKAGE_HEAD headValue; } PACKAGE_INFO, *PPACKAGE_INFO; typedef struct __CH_LINK_INFO__ { int linkCh; IP_ADDR_INFO dstTarget; PACKAGE_INFO toRTPCh; PACKAGE_INFO fromRTPCh; } CH_LINK_INFO, *PCH_LINK_INFO; typedef struct __CH_PORT_INFO__ { PORT_TYPE portType; CH_STATUS chStatus; __be16 ipPort; CH_LINK_INFO chLinkInfo; } CH_PORT_INFO, *PCH_PORT_INFO; typedef enum __RFC2833_STATUS__ { RFC2833_SEND_IDLE = 0, RFC2833_SEND_BEGING, RFC2833_SENDING, RFC2833_RECV_IDLE, RFC2833_RECVING, RFC2833_RECV_UPLOAD, } RFC2833_STATUS; #define MAX_DTMF_SEND_BUF (32) #define MAX_DTMF_RECV_BUF (64) typedef struct __RFC2833_INFO__ { unsigned int timeStamps; unsigned int synIdentifier; unsigned short seqNumber; char dtmfValue; char refCount; char payloadType; RFC2833_STATUS refStatus; } RFC2833_INFO, *PRFC2833_INFO; typedef struct __RFC2833_DTFM_RECV__ { char recvBuf[MAX_DTMF_RECV_BUF]; } RFC2833_DTFM_RECV, *PRFC2833_DTFM_RECV; typedef struct __CH_DTMF_INFO__ { unsigned int refSendMask; unsigned int curSendIndex; RFC2833_INFO dtmfSendBuf; RFC2833_INFO dtmfRecvBuf[MAX_DTMF_RECV_BUF]; } CH_DTMF_INFO, *PCH_DTMF_INFO; typedef struct __SIP_CH_DBG__ { unsigned int cnt_eth0_recv; unsigned int cnt_eth0_2_ethx; unsigned int mask_eth0_2_ethx; unsigned int cnt_ethx_recv; unsigned int cnt_ethx_2_eth0; unsigned int mask_ethx_2_eth0; unsigned short eth0_seq_index; unsigned short ethx_seq_index; unsigned int eth0_seq_error; unsigned int ethx_seq_error; } SIP_CH_DBG, *PSIP_CH_DBG; typedef struct __SIP_CH_DETIAL__ { int chId; ETH_INTERFACE sipETHId; CH_PORT_INFO portIPR; CH_PORT_INFO portB2B; CH_PORT_INFO portT38; CH_PORT_INFO portRTP; CH_DTMF_INFO rfc2833DTMF; SIP_CH_DBG sipDebug; struct kfifo dtmfSendFifo; struct kfifo dtmfRecvFifo; } SIP_CH_DETIAL, *PSIP_CH_DETIAL; typedef struct __SIP_CH_INFO__ { int iTotalCh; int iPortStep; int iPortBase; int iRTPPortBase; PSIP_CH_DETIAL pSipChDetial; } SIP_CH_INFO, *PSIP_CH_INFO; #endif //#ifdef EN_SIP_SWITCH extern struct ipstack_hook_t* ipstack_hook_get(int ucc_num); extern int register_irq_poll(void *( *hooks)(int, void *obj), void* data); extern int unregister_irq_poll(int idx,void *( *hooks)(int,void *obj)); #endif