/* $OpenBSD: if_san_common.h,v 1.7 2005/04/01 21:42:36 canacar Exp $ */ /*- * Copyright (c) 2001-2004 Sangoma Technologies (SAN) * All rights reserved. www.sangoma.com * * This code is written by Alex Feldman for SAN. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following disclaimer * in the documentation and/or other materials provided with the * distribution. * 3. Neither the name of Sangoma Technologies nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY SANGOMA TECHNOLOGIES AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef __IF_SAN_COMMON_H #define __IF_SAN_COMMON_H # include # include #define WANPIPE_LITE_VERSION "1.1.1" #define WAN_OPENBSD_PLATFORM 0x06 #define WAN_PLATFORM_ID WAN_OPENBSD_PLATFORM #define WANPIPE_MAGIC 0x414C4453L /* signature: 'SDLA' reversed */ #define ROUTER_NAME "wanrouter" /* in case we ever change it */ #define ROUTER_IOCTL 'W' /* for IOCTL calls */ #define WANROUTER_MAJOR_VER 2 #define WANROUTER_MINOR_VER 1 /* IOCTL codes for /proc/router/ entries (up to 255) */ #define WANPIPE_DUMP _IOW(ROUTER_IOCTL, 16, wan_conf_t) #define WANPIPE_EXEC _IOWR(ROUTER_IOCTL, 17, wan_conf_t) /* get monitor statistics */ #define SIOC_WANPIPE_PIPEMON _IOWR('i', 150, struct ifreq) /* set generic device */ #define SIOC_WANPIPE_DEVICE _IOWR('i', 151, struct ifreq) /* get hwprobe string */ #define SIOC_WANPIPE_HWPROBE _IOWR('i', 152, struct ifreq) /* get memdump string (GENERIC) */ #define SIOC_WANPIPE_DUMP _IOWR('i', 153, struct ifreq) /* clocking options */ #define WAN_EXTERNAL 0 #define WAN_INTERNAL 1 /* intercace options */ #define WAN_RS232 0 #define WAN_V35 1 #define WAN_UDP_FAILED_CMD 0xCF #define WAN_UDP_INVALID_CMD 0xCE #define WAN_UDP_TIMEOUT_CMD 0xAA #define WAN_UDP_INVALID_NET_CMD 0xCD #define WAN_NO 0 #define WAN_YES 1 /* UDP Packet Management */ #define UDP_PKT_FRM_STACK 0x00 #define UDP_PKT_FRM_NETWORK 0x01 #define WANCONFIG_FR 102 /* frame relay link */ #define WANCONFIG_PPP 103 /* synchronous PPP link */ #define WANCONFIG_CHDLC 104 /* Cisco HDLC Link */ #define WANCONFIG_AFT 117 /* AFT Hardware Support */ /****** Data Types **********************************************************/ /* Front-End status */ enum fe_status { FE_UNITIALIZED = 0x00, FE_DISCONNECTED, FE_CONNECTED }; /* 'state' defines */ enum wan_states { WAN_UNCONFIGURED, /* link/channel is not configured */ WAN_DISCONNECTED, /* link/channel is disconnected */ WAN_CONNECTING, /* connection is in progress */ WAN_CONNECTED, /* link/channel is operational */ WAN_LIMIT, /* for verification only */ WAN_DUALPORT, /* for Dual Port cards */ WAN_DISCONNECTING, WAN_FT1_READY /* FT1 Configurator Ready */ }; /* 'modem_status' masks */ #define WAN_MODEM_CTS 0x0001 /* CTS line active */ #define WAN_MODEM_DCD 0x0002 /* DCD line active */ #define WAN_MODEM_DTR 0x0010 /* DTR line active */ #define WAN_MODEM_RTS 0x0020 /* RTS line active */ typedef struct wan_conf { char devname[IFNAMSIZ+1]; void* arg; } wan_conf_t; /* IOCTL numbers (up to 16) */ #define TRACE_ALL 0x00 #define TRACE_PROT 0x01 #define TRACE_DATA 0x02 /* values for request/reply byte */ #define UDPMGMT_REQUEST 0x01 #define UDPMGMT_REPLY 0x02 #define UDP_OFFSET 12 #define MAX_FT1_RETRY 100 /* General Critical Flags */ enum { SEND_CRIT, PERI_CRIT, RX_CRIT, PRIV_CRIT }; /* * Data structures for IOCTL calls. */ typedef struct sdla_dump { /* WANPIPE_DUMP */ unsigned long magic; /* for verification */ unsigned long offset; /* absolute adapter memory address */ unsigned long length; /* block length */ void* ptr; /* -> buffer */ } sdla_dump_t; typedef struct sdla_exec { /* WANPIPE_EXEC */ unsigned long magic; /* for verification */ void* cmd; /* -> command structure */ void* data; /* -> data buffer */ } sdla_exec_t; #define TRC_INCOMING_FRM 0x00 #define TRC_OUTGOING_FRM 0x01 typedef struct { unsigned char status; unsigned char data_avail; unsigned short real_length; unsigned short time_stamp; unsigned long sec; unsigned long usec; unsigned char data[0]; } wan_trace_pkt_t; typedef struct wan_trace { unsigned long tracing_enabled; struct ifqueue ifq; unsigned int trace_timeout; unsigned int max_trace_queue; } wan_trace_t; /******************************************************** * GLOBAL DEFINITION FOR SANGOMA UDP STRUCTURE * *******************************************************/ #define GLOBAL_UDP_SIGNATURE "WANPIPE" #define GLOBAL_UDP_SIGNATURE_LEN 7 #define UDPMGMT_UDP_PROTOCOL 0x11 #define WAN_UDP_CMD_START 0x60 #define WAN_GET_PROTOCOL (WAN_UDP_CMD_START+0) #define WAN_GET_PLATFORM (WAN_UDP_CMD_START+1) #define WAN_GET_MEDIA_TYPE (WAN_UDP_CMD_START+2) #define WAN_UDP_CMD_END 0x6F #define WAN_FE_CMD_START 0x90 #define WAN_FE_CMD_END 0x9F #define WAN_INTERFACE_CMD_START 0xA0 #define WAN_INTERFACE_CMD_END 0xAF #define WAN_FE_UDP_CMD_START 0xB0 #define WAN_FE_UDP_CMD_END 0xBF typedef struct { unsigned char signature[8]; unsigned char request_reply; unsigned char id; unsigned char reserved[6]; } wan_mgmt_t; /****** DEFINITION OF UDP HEADER AND STRUCTURE PER PROTOCOL ******/ typedef struct { unsigned char num_frames; unsigned char ismoredata; } wan_trace_info_t; typedef struct wan_udp_hdr{ wan_mgmt_t wan_mgmt; wan_cmd_t wan_cmd; union { struct { wan_trace_info_t trace_info; unsigned char data[WAN_MAX_DATA_SIZE]; } chdlc, aft; unsigned char data[WAN_MAX_DATA_SIZE]; } wan_udphdr_u; #define wan_udphdr_signature wan_mgmt.signature #define wan_udphdr_request_reply wan_mgmt.request_reply #define wan_udphdr_id wan_mgmt.id #define wan_udphdr_opp_flag wan_cmd.wan_cmd_opp_flag #define wan_udphdr_command wan_cmd.wan_cmd_command #define wan_udphdr_data_len wan_cmd.wan_cmd_data_len #define wan_udphdr_return_code wan_cmd.wan_cmd_return_code #define wan_udphdr_chdlc_num_frames wan_udphdr_u.chdlc.trace_info.num_frames #define wan_udphdr_chdlc_ismoredata wan_udphdr_u.chdlc.trace_info.ismoredata #define wan_udphdr_chdlc_data wan_udphdr_u.chdlc.data #define wan_udphdr_aft_num_frames wan_udphdr_u.aft.trace_info.num_frames #define wan_udphdr_aft_ismoredata wan_udphdr_u.aft.trace_info.ismoredata #define wan_udphdr_aft_data wan_udphdr_u.aft.data #define wan_udphdr_data wan_udphdr_u.data } wan_udp_hdr_t; #define MAX_LGTH_UDP_MGNT_PKT 2000 /* This is used for interrupt testing */ #define INTR_TEST_MODE 0x02 #define WUM_SIGNATURE_L 0x50495046 #define WUM_SIGNATURE_H 0x444E3845 #define WUM_KILL 0x50 #define WUM_EXEC 0x51 #if defined(_KERNEL) /****** Kernel Interface ****************************************************/ #define MAX_E1_CHANNELS 32 #define MAX_FR_CHANNELS (991+1) #ifndef min #define min(a,b) (((a)<(b))?(a):(b)) #endif #ifndef max #define max(a,b) (((a)>(b))?(a):(b)) #endif #define is_digit(ch) (((ch)>=(unsigned)'0'&&(ch)<=(unsigned)'9')?1:0) #define is_alpha(ch) ((((ch)>=(unsigned)'a'&&(ch)<=(unsigned)'z')|| \ ((ch)>=(unsigned)'A'&&(ch)<=(unsigned)'Z'))?1:0) #define is_hex_digit(ch) ((((ch)>=(unsigned)'0'&&(ch)<=(unsigned)'9')|| \ ((ch)>=(unsigned)'a'&&(ch)<=(unsigned)'f')||\ ((ch)>=(unsigned)'A'&&(ch)<=(unsigned)'F'))?1:0) #if !defined(offsetof) # define offsetof(type, member) ((size_t)(&((type*)0)->member)) #endif # define irqreturn_t void /* Unsafe sprintf and vsprintf function removed from the kernel */ # define WAN_IRQ_RETVAL(a) return; #define _bit_byte(bit) ((bit) >> 3) #define _bit_mask(bit) (1 << ((bit)&0x7)) /* is bit N of bitstring name set? */ #define bit_test(name, bit) ((name)[_bit_byte(bit)] & _bit_mask(bit)) /* set bit N of bitstring name */ #define bit_set(name, bit) ((name)[_bit_byte(bit)] |= _bit_mask(bit)) /* clear bit N of bitstring name */ #define bit_clear(name, bit) ((name)[_bit_byte(bit)] &= ~_bit_mask(bit)) /* Sangoma assert macro */ #define SAN_ASSERT(a) \ if (a){ \ log(LOG_INFO, "%s:%d: Critical Error!\n", \ __FUNCTION__,__LINE__); \ return (EINVAL); \ } /****** Data Structures *****************************************************/ typedef struct wan_udp_pkt { struct ip ip_hdr; struct udphdr udp_hdr; wan_udp_hdr_t wan_udp_hdr; #define wan_udp_cmd wan_udp_hdr.wan_cmd #define wan_udp_signature wan_udp_hdr.wan_udphdr_signature #define wan_udp_request_reply wan_udp_hdr.wan_udphdr_request_reply #define wan_udp_id wan_udp_hdr.wan_udphdr_id #define wan_udp_opp_flag wan_udp_hdr.wan_udphdr_opp_flag #define wan_udp_command wan_udp_hdr.wan_udphdr_command #define wan_udp_data_len wan_udp_hdr.wan_udphdr_data_len #define wan_udp_return_code wan_udp_hdr.wan_udphdr_return_code #define wan_udp_hdlc_PF_bit wan_udp_hdr.wan_udphdr_hdlc_PF_bit #define wan_udp_fr_dlci wan_udp_hdr.wan_udphdr_fr_dlci #define wan_udp_fr_attr wan_udp_hdr.wan_udphdr_fr_attr #define wan_udp_fr_rxlost1 wan_udp_hdr.wan_udphdr_fr_rxlost1 #define wan_udp_fr_rxlost2 wan_udp_hdr.wan_udphdr_fr_rxlost2 #define wan_udp_chdlc_num_frames wan_udp_hdr.wan_udphdr_chdlc_num_frames #define wan_udp_chdlc_ismoredata wan_udp_hdr.wan_udphdr_chdlc_ismoredata #define wan_udp_chdlc_data wan_udp_hdr.wan_udphdr_chdlc_data #define wan_udp_aft_num_frames wan_udp_hdr.wan_udphdr_aft_num_frames #define wan_udp_aft_ismoredata wan_udp_hdr.wan_udphdr_aft_ismoredata #define wan_udp_data wan_udp_hdr.wan_udphdr_data } wan_udp_pkt_t; #define WAN_IFP_TO_COMMON(ifp) (wanpipe_common_t*)((ifp)->if_softc) typedef struct wanpipe_common { struct sppp ifp; void *card; struct timeout dev_timer; unsigned int protocol; struct ifmedia ifm; LIST_ENTRY(wanpipe_common) next; } wanpipe_common_t; typedef struct { unsigned long time_slot_map; unsigned long logic_ch_map; unsigned char num_of_time_slots; unsigned char top_logic_ch; unsigned long bar; void *trace_info; void *dev_to_ch_map[MAX_E1_CHANNELS]; void *rx_dma_ptr; void *tx_dma_ptr; unsigned short num_of_ch;/* Number of logical channels */ unsigned short dma_per_ch;/* DMA buffers per logic channel */ unsigned short mru_trans;/* MRU of transparent channels */ unsigned long dma_mtu_off; unsigned short dma_mtu; unsigned char state_change_exit_isr; unsigned long active_ch_map; unsigned long fifo_addr_map; struct timeout led_timer; } sdla_xilinx_t; /* Adapter Data Space. * This structure is needed because we handle multiple cards, otherwise * static data would do it. */ typedef struct sdla { unsigned magic; char devname[IFNAMSIZ+1]; /* card name */ void *hw; /* hw configuration */ unsigned int type; /* adapter type */ unsigned char line_idle; char state; /* device state */ unsigned long critical; /* critical section flag */ int(*iface_up) (struct ifnet*); int(*iface_down) (struct ifnet*); int(*iface_send) (struct mbuf* skb, struct ifnet*); int(*iface_ioctl) (struct ifnet*, int, struct ifreq*); unsigned long state_tick; /* link state timestamp */ unsigned long in_isr; /* interrupt-in-service flag */ unsigned long configured; /* configurations status */ int(*del_if) (struct sdla*, struct ifnet*); void(*isr)(struct sdla*); /* interrupt service routine */ void(*poll)(struct sdla*); /* polling routine */ int(*exec)(struct sdla*, void*, void*); int(*ioctl) (struct ifnet*, int, struct ifreq*); union { sdla_xilinx_t xilinx; } u; sdla_fe_iface_t fe_iface; union { #define fe_te u_fe.te_sc sdla_te_softc_t te_sc; } u_fe; unsigned char front_end_status; WRITE_FRONT_END_REG_T* write_front_end_reg; READ_FRONT_END_REG_T* read_front_end_reg; void(*te_enable_timer) (void*); void(*te_link_state) (void*); LIST_HEAD(,wanpipe_common) dev_head; LIST_ENTRY(sdla) next; /* -> next device */ } sdla_t; /****** Public Functions ****************************************************/ void* wan_xilinx_init(sdla_t*); /* Xilinx Hardware Support */ struct mbuf* wan_mbuf_alloc(int); int wan_mbuf_to_buffer(struct mbuf**); #endif /* __KERNEL__ */ #endif /* __IF_SAN_COMMON_H */