/* * * =================================== * HARP | Host ATM Research Platform * =================================== * * * This Host ATM Research Platform ("HARP") file (the "Software") is * made available by Network Computing Services, Inc. ("NetworkCS") * "AS IS". NetworkCS does not provide maintenance, improvements or * support of any kind. * * NETWORKCS MAKES NO WARRANTIES OR REPRESENTATIONS, EXPRESS OR IMPLIED, * INCLUDING, BUT NOT LIMITED TO, IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS FOR A PARTICULAR PURPOSE, AS TO ANY ELEMENT OF THE * SOFTWARE OR ANY SUPPORT PROVIDED IN CONNECTION WITH THIS SOFTWARE. * In no event shall NetworkCS be responsible for any damages, including * but not limited to consequential damages, arising from or relating to * any use of the Software or related support. * * Copyright 1994-1998 Network Computing Services, Inc. * * Copies of this Software may be made, however, the above copyright * notice must be reproduced on all copies. * * @(#) $FreeBSD: src/usr.sbin/atm/scspd/scsp_config.c,v 1.3 1999/08/28 01:15:32 peter Exp $ * @(#) $DragonFly: src/usr.sbin/atm/scspd/scsp_config.c,v 1.4 2003/11/15 20:33:43 eirikn Exp $ */ /* * Server Cache Synchronization Protocol (SCSP) Support * ---------------------------------------------------- * * Configuration file processing * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "scsp_msg.h" #include "scsp_if.h" #include "scsp_var.h" extern int yyparse(void); /* * Global variables */ FILE *cfg_file; Scsp_server *current_server; Scsp_dcs *current_dcs; /* * Process the configuration file * * This routine is called when the daemon starts, and it can also be * called while it is running, as the result of a SIGHUP signal. It * therefore has to be capable of both configuring the daemon from * scratch and modifying the configuration of a running daemon. * * Arguments: * cfn configuration file name * * Returns: * 0 configuration read with no errors * else error found in configuration file * */ int scsp_config(char *cfn) { int rc; Scsp_server *ssp, *snext; /* * Open the configuration file */ cfg_file = fopen(cfn, "r"); if (!cfg_file) { scsp_log(LOG_ERR, "can't open config file %s", (void *)cfn); exit(1); } /* * Initialize current interface pointer */ current_server = (Scsp_server *)0; /* * Clear marks on any existing servers */ for (ssp = scsp_server_head; ssp; ssp = ssp->ss_next) { ssp->ss_mark = 0; } /* * Scan the configuration file, processing each line as * it is read */ rc = yyparse(); /* * Close the configuration file */ fclose(cfg_file); /* * Delete any server entries that weren't updated */ for (ssp = scsp_server_head; ssp; ssp = snext) { snext = ssp->ss_next; if (!ssp->ss_mark) scsp_server_delete(ssp); } return(rc); } /* * Prepare for SCSP DCS setup * * This routine is called from yyparse() when a DCS command is found. * * Arguments: * none * * Returns: * 0 success * 1 error encountered * */ int start_dcs(void) { Scsp_dcs *dcsp; /* * Make sure we have a current server block */ if (!current_server) { parse_error("server not found"); return(1); } /* * Allocate a DCS block */ dcsp = (Scsp_dcs *)UM_ALLOC(sizeof(Scsp_dcs)); if (!dcsp) { scsp_mem_err("start_dcs: sizeof(Scsp_dcs)"); } UM_ZERO(dcsp, sizeof(Scsp_dcs)); /* * Fill out DCS links and default values */ dcsp->sd_server = current_server; dcsp->sd_addr.address_format = T_ATM_ABSENT; dcsp->sd_subaddr.address_format = T_ATM_ABSENT; dcsp->sd_sock = -1; dcsp->sd_ca_rexmt_int = SCSP_CAReXmitInterval; dcsp->sd_csus_rexmt_int = SCSP_CSUSReXmitInterval; dcsp->sd_hops = SCSP_CSA_HOP_CNT; dcsp->sd_csu_rexmt_int = SCSP_CSUReXmitInterval; dcsp->sd_csu_rexmt_max = SCSP_CSUReXmitMax; LINK2TAIL(dcsp, Scsp_dcs, current_server->ss_dcs, sd_next); current_dcs = dcsp; return(0); } /* * Finish up server configuration * * This routine is called from yyparse() to at the end of a DCS * command. It checks that required fields are set and finishes * up the DCS block. * * Arguments: * none * * Returns: * 0 success * 1 error encountered * */ int finish_dcs(void) { int rc = 0; Scsp_dcs *dcsp; Scsp_server *ssp; /* * Make sure we have a current server block and DCS block */ if (!current_server) { parse_error("server not found"); return(1); } if (!current_dcs) { parse_error("server not found"); return(1); } ssp = current_server; dcsp = current_dcs; /* * Make sure the DCS ID is set */ if (dcsp->sd_dcsid.id_len == 0) { parse_error("DCS ID not set"); rc++; } /* * Make sure the ATM address is set */ if (dcsp->sd_addr.address_format == T_ATM_ABSENT) { parse_error("DCS ATM address not set"); rc++; } current_dcs = (Scsp_dcs *)0; return(rc); } /* * Configure DCS ATM address * * This routine is called from yyparse() to process an ATMaddr command. * * Arguments: * ap pointer to DCS's ATM address (in ASCII) * sap pointer to DCS's ATM subaddress (in ASCII) * * Returns: * 0 success * 1 error encountered * */ int set_dcs_addr(char *ap, char *sap) { Scsp_dcs *dcsp; Atm_addr addr, subaddr; /* * Make sure we have a current server block and DCS block */ if (!current_server) { parse_error("server not found"); return(1); } if (!current_dcs) { parse_error("server not found"); return(1); } dcsp = current_dcs; /* * Initialize */ UM_ZERO(&addr, sizeof(addr)); addr.address_format = T_ATM_ABSENT; UM_ZERO(&subaddr, sizeof(subaddr)); subaddr.address_format = T_ATM_ABSENT; /* * Convert the ATM address from character to internal format */ if (ap) { addr.address_length = get_hex_atm_addr(ap, (u_char *)addr.address, strlen(ap)); if (addr.address_length == 0) { parse_error("invalid ATM address"); return(1); } if (addr.address_length == sizeof(Atm_addr_nsap)) { addr.address_format = T_ATM_ENDSYS_ADDR; } else if (addr.address_length <= sizeof(Atm_addr_e164)) { addr.address_format = T_ATM_E164_ADDR; } else { parse_error("invalid ATM address"); return(1); } } /* * Convert the ATM subaddress from character to internal format */ if (sap) { subaddr.address_length = get_hex_atm_addr(sap, (u_char *)subaddr.address, strlen(sap)); if (subaddr.address_length == 0) { parse_error("invalid ATM address"); return(1); } if (subaddr.address_length == sizeof(Atm_addr_nsap)) { subaddr.address_format = T_ATM_ENDSYS_ADDR; } else if (subaddr.address_length <= sizeof(Atm_addr_e164)) { subaddr.address_format = T_ATM_E164_ADDR; } else { parse_error("invalid ATM subaddress"); return(1); } } /* * Make sure we have a legal ATM address type combination */ if (((addr.address_format != T_ATM_ENDSYS_ADDR) || (subaddr.address_format != T_ATM_ABSENT)) && ((addr.address_format != T_ATM_E164_ADDR) || (subaddr.address_format != T_ATM_ENDSYS_ADDR))) { parse_error("invalid address/subaddress combination"); return(1); } /* * Save the address and subaddress */ ATM_ADDR_COPY(&addr, &dcsp->sd_addr); ATM_ADDR_COPY(&subaddr, &dcsp->sd_subaddr); return(0); } /* * Configure CA retransmit interval for DCS * * This routine is called from yyparse() to process a CAReXmitInt * command. * * Arguments: * val time interval * * Returns: * 0 success * 1 error encountered * */ int set_dcs_ca_rexmit(int val) { Scsp_dcs *dcsp; /* * Make sure we have a current server block and DCS block */ if (!current_server) { parse_error("server not found"); return(1); } if (!current_dcs) { parse_error("server not found"); return(1); } dcsp = current_dcs; /* * Validate the interval */ if (val <= 0 || val > 1024) { parse_error("invalid CA retransmit interval"); return(1); } /* * Set CA retransmit interval */ dcsp->sd_ca_rexmt_int = val; return(0); } /* * Configure CSUS retransmit interval for DCS * * This routine is called from yyparse() to process a CSUSReXmitInt * command. * * Arguments: * val time interval * * Returns: * 0 success * 1 error encountered * */ int set_dcs_csus_rexmit(int val) { Scsp_dcs *dcsp; /* * Make sure we have a current server block and DCS block */ if (!current_server) { parse_error("server not found"); return(1); } if (!current_dcs) { parse_error("server not found"); return(1); } dcsp = current_dcs; /* * Validate the interval */ if (val <= 0 || val > 1024) { parse_error("invalid CSUS retransmit interval"); return(1); } /* * Set CSUS retransmit interval */ dcsp->sd_csus_rexmt_int = val; return(0); } /* * Configure CSU retransmit interval for DCS * * This routine is called from yyparse() to process a CSUReXmitInt * command. * * Arguments: * val time interval * * Returns: * 0 success * 1 error encountered * */ int set_dcs_csu_rexmit(int val) { Scsp_dcs *dcsp; /* * Make sure we have a current server block and DCS block */ if (!current_server) { parse_error("server not found"); return(1); } if (!current_dcs) { parse_error("server not found"); return(1); } dcsp = current_dcs; /* * Validate the interval */ if (val <= 0 || val > 1024) { parse_error("invalid CSU retransmit interval"); return(1); } /* * Set CSU retransmit interval */ dcsp->sd_csu_rexmt_int = val; return(0); } /* * Configure CSU retransmit limit for DCS * * This routine is called from yyparse() to process a CSUReXmitMax * command. * * Arguments: * val time interval * * Returns: * 0 success * 1 error encountered * */ int set_dcs_csu_rexmit_max(int val) { Scsp_dcs *dcsp; /* * Make sure we have a current server block and DCS block */ if (!current_server) { parse_error("server not found"); return(1); } if (!current_dcs) { parse_error("server not found"); return(1); } dcsp = current_dcs; /* * Validate the interval */ if (val <= 0 || val > 1024) { parse_error("invalid CSU retransmit maximum"); return(1); } /* * Set CSU retransmit limit */ dcsp->sd_csu_rexmt_max = val; return(0); } /* * Configure Hello dead factor for DCS * * This routine is called from yyparse() to process a HelloDead * command. * * Arguments: * val number of times Hello interval has to expire before * a DCS is considered dead * * Returns: * 0 success * 1 error encountered * */ int set_dcs_hello_df(int val) { Scsp_dcs *dcsp; /* * Make sure we have a current server block and DCS block */ if (!current_server) { parse_error("server not found"); return(1); } if (!current_dcs) { parse_error("server not found"); return(1); } dcsp = current_dcs; /* * Validate the limit */ if (val <= 0 || val > 1024) { parse_error("invalid Hello dead factor"); return(1); } /* * Set Hello dead factor */ dcsp->sd_hello_df = val; return(0); } /* * Configure Hello interval for DCS * * This routine is called from yyparse() to process a HelloInt * command. * * Arguments: * val time interval * * Returns: * 0 success * 1 error encountered * */ int set_dcs_hello_int(int val) { Scsp_dcs *dcsp; /* * Make sure we have a current server block and DCS block */ if (!current_server) { parse_error("server not found"); return(1); } if (!current_dcs) { parse_error("server not found"); return(1); } dcsp = current_dcs; /* * Validate the interval */ if (val <= 0 || val > 1024) { parse_error("invalid Hello interval"); return(1); } /* * Set Hello interval */ dcsp->sd_hello_int = val; return(0); } /* * Configure hop count for SCSP server * * This routine is called from yyparse() to process a Hops command. * * Arguments: * hops number of hops * * Returns: * 0 success * 1 error encountered * */ int set_dcs_hops(int hops) { Scsp_dcs *dcsp; /* * Make sure we have a current server block and DCS block */ if (!current_server) { parse_error("server not found"); return(1); } if (!current_dcs) { parse_error("server not found"); return(1); } dcsp = current_dcs; /* * Validate the count */ if (hops <= 0 || hops > 1024) { parse_error("invalid hop count"); return(1); } /* * Set hop count */ dcsp->sd_hops = hops; return(0); } /* * Configure DCS ID * * This routine is called from yyparse() to process an ID command. * * Arguments: * name pointer to DCS's DNS name or IP address (in ASCII) * * Returns: * 0 success * 1 error encountered * */ int set_dcs_id(char *name) { Scsp_dcs *dcsp; Scsp_server *ssp; struct sockaddr_in *ip_addr; /* * Make sure we have a current server block and DCS block */ if (!current_server) { parse_error("server not found"); return(1); } if (!current_dcs) { parse_error("server not found"); return(1); } ssp = current_server; dcsp = current_dcs; /* * Convert the DNS name or IP address */ ip_addr = get_ip_addr(name); if (!ip_addr) { parse_error("invalid DCS IP address"); return(1); } /* * Verify the address length */ if (ssp->ss_id_len != sizeof(ip_addr->sin_addr)) { parse_error("invalid DCS ID length"); return(1); } /* * Set the ID in the DCS block */ dcsp->sd_dcsid.id_len = ssp->ss_id_len; UM_COPY(&ip_addr->sin_addr, dcsp->sd_dcsid.id, ssp->ss_id_len); return(0); } /* * Configure network interface for SCSP server * * This routine is called from yyparse() to process a Netif command. * It verifies the network interface name, gets interface information * from the kernel, and sets the appropriate fields in the server * control block. * * Arguments: * netif pointer to network interface name * * Returns: * 0 success * 1 error encountered * */ int set_intf(char *netif) { int rc; Scsp_server *ssp; /* * Get the current network interface address */ ssp = current_server; if (!ssp) { parse_error("Server not found"); rc = 1; goto set_intf_done; } /* * Make sure we're configuring a valid * network interface */ rc = verify_nif_name(netif); if (rc == 0) { parse_error("%s is not a valid network interface", (void *)netif); rc = 1; goto set_intf_done; } else if (rc < 0) { scsp_log(LOG_ERR, "Netif name verify error"); exit(1); } /* * Save the server's network interface name */ strcpy(ssp->ss_intf, netif); rc = 0; set_intf_done: return(rc); } /* * Configure protocol for SCSP server * * This routine is called from yyparse() to process a Protocol command. * * Arguments: * proto SCSP protocol being configured * * Returns: * 0 success * 1 error encountered * */ int set_protocol(int proto) { Scsp_server *ssp; /* * Get address of current server block */ ssp = current_server; if (!ssp) { parse_error("server not found"); return(1); } /* * Process based on protocol ID */ switch(proto) { case SCSP_PROTO_ATMARP: ssp->ss_pid = proto; ssp->ss_id_len = SCSP_ATMARP_ID_LEN; ssp->ss_ckey_len = SCSP_ATMARP_KEY_LEN; break; case SCSP_PROTO_NHRP: ssp->ss_pid = proto; ssp->ss_id_len = SCSP_NHRP_ID_LEN; ssp->ss_ckey_len = SCSP_NHRP_KEY_LEN; break; case SCSP_PROTO_MARS: case SCSP_PROTO_DHCP: case SCSP_PROTO_LNNI: default: parse_error("invalid protocol"); return(1); } return(0); } /* * Configure server group for SCSP server * * This routine is called from yyparse() to process a ServerGroupID * command. * * Arguments: * sgid server group id * * Returns: * 0 success * 1 error encountered * */ int set_server_group(int sgid) { Scsp_server *ssp; /* * Get address of current server block */ ssp = current_server; if (!ssp) { parse_error("server not found"); return(1); } /* * Validate server group ID */ if (sgid <= 0) { parse_error("invalid server group ID"); return(1); } /* * Save the ID */ ssp->ss_sgid = sgid; return(0); } /* * Prepare for SCSP server setup * * This routine is called from yyparse() when a Server statment is * found. * * Arguments: * name pointer to LIS name * * Returns: * 0 success * else error encountered * */ int start_server(char *name) { int i; Scsp_server *ssp; Scsp_dcs *dcsp, *next_dcs; Scsp_cse *csep, *next_cse; /* * See if we already have an entry for this name */ for (ssp = scsp_server_head; ssp; ssp = ssp->ss_next) { if (strcasecmp(ssp->ss_name, name) == 0) break; } if (ssp) { /* * Log the fact that we're updating the entry */ scsp_log(LOG_INFO, "updating server entry for %s", (void *)name); /* * Free the existing cache */ for (i = 0; i < SCSP_HASHSZ; i++) { for (csep = ssp->ss_cache[i]; csep; csep = next_cse) { next_cse = csep->sc_next; UNLINK(csep, Scsp_cse, ssp->ss_cache[i], sc_next); UM_FREE(csep); } } /* * Delete existing DCS blocks */ for (dcsp = ssp->ss_dcs; dcsp; dcsp = next_dcs) { next_dcs = dcsp->sd_next; scsp_dcs_delete(dcsp); } } else { /* * Get a new server entry */ ssp = (Scsp_server *)UM_ALLOC(sizeof(Scsp_server)); if (!ssp) { scsp_log(LOG_ERR, "unable to allocate server entry"); exit(1); } UM_ZERO(ssp, sizeof(Scsp_server)); ssp->ss_sock = -1; ssp->ss_dcs_lsock = -1; /* * Set the name */ ssp->ss_name = strdup(name); /* * Link in the new interface entry */ LINK2TAIL(ssp, Scsp_server, scsp_server_head, ss_next); } /* * If the mark is already set, this is a duplicate command */ if (ssp->ss_mark) { parse_error("duplicate server \"%s\"", name); return(1); } /* * Make this the current interface */ current_server = ssp; return(0); } /* * Finish up server configuration * * This routine is called from yyparse() when the end of a server * statement is reached. It checks that required fields are set * and marks the entry as processed. * * Arguments: * None * * Returns: * 0 OK * 1 Error * */ int finish_server(void) { int rc = 0; Scsp_server *ssp; /* * Get the current network interface address */ ssp = current_server; if (!ssp) { parse_error("Server not found"); rc++; } /* * Mark the interface as processed */ ssp->ss_mark = 1; /* * Make sure the interface has been configured */ if (ssp->ss_intf == (char *)0) { parse_error("netif missing from server specification"); rc++; } /* * Make sure the protocol is set */ if (ssp->ss_pid == 0) { parse_error("protocol missing from server specification"); rc++; } /* * Make sure the server group is set */ if (ssp->ss_sgid == 0) { parse_error("server group ID missing from server specification"); rc++; } /* * Make sure at least one DCS is configured */ if (ssp->ss_dcs == (Scsp_dcs *)0) { parse_error("no DCS configured for server"); rc++; } /* * Mark the end of the server */ current_server = (Scsp_server *)0; return(rc); } /* * Configure log file for SCSP server * * This routine is called from yyparse() to process a log File command. * * Arguments: * file name of logging file * * Returns: * 0 success * 1 error encountered * */ int set_log_file(char *file) { /* * Make sure we haven't already got a log file */ if (scsp_log_file) { parse_error("multiple log files specified"); return(1); } /* * Open the file */ scsp_log_file = fopen(file, "a"); if (!scsp_log_file) { parse_error("can't open log file"); return(1); } return(0); }