/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2003 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "mac.h" #include "mac_impl.h" #include "atm_inet.h" #include "ethernet_inet.h" #include "fddi_inet.h" #include "token_inet.h" #include "ibd_inet.h" /* * MAC layer interface */ boolean_t initialized; /* Boolean state */ struct mac_type mac_state; int arp_index; /* current arp table index */ static struct arptable atable[ARP_TABLE_SIZE]; #if !defined(__i386) struct ofw_net_types { char *n_name; /* OFW network media name */ int n_type; /* IFT */ } ofw_types[] = { { "atm", IFT_ATM }, { "ethernet", IFT_ETHER }, { "fddi", IFT_FDDI }, { "token-ring", IFT_ISO88025 }, { "ipib", IFT_IB } }; #endif /* !__i386 */ /* * given the mac type, initialize the mac interface state. */ void mac_init(char *bootdevicename) { int type = 0; #if !defined(__i386) static char *mtu_name = "max-frame-size"; static char *chosen_net = "chosen-network-type"; static char *supported_net = "supported-network-types"; static char *netiftype = "network-interface-type"; dnode_t node; char *wp, *media_type; int len = 0, i; #endif /* !__i386 */ char tmpbuf[MAXNAMELEN]; char devname[MAXNAMELEN]; if (initialized) return; mac_state.mac_in_timeout = MAC_IN_TIMEOUT; #ifdef DEBUG printf("mac_init: device path: %s\n", bootdevicename); #endif /* DEBUG */ if ((mac_state.mac_dev = prom_open(bootdevicename)) == 0) { (void) snprintf(tmpbuf, sizeof (tmpbuf), "Cannot prom_open network device %s.", bootdevicename); prom_panic(tmpbuf); } #if !defined(__i386) (void) prom_devname_from_pathname(bootdevicename, devname); #else (void) strcpy(devname, bootdevicename); #endif /* !__i386 */ #ifdef DEBUG printf("mac_init: Network device name: %s\n", devname); #endif /* DEBUG */ #if !defined(__i386) /* * Ask the prom for our MTU and media type. "chosen-network-type" * is of the form of ",,, * : e.g.: "ethernet,100,rj45,full" */ node = prom_finddevice(devname); if (node != OBP_NONODE && node != OBP_BADNODE) { if (prom_getproplen(node, mtu_name) == sizeof (ihandle_t)) { (void) prom_getprop(node, mtu_name, (caddr_t)&mac_state.mac_mtu); } bzero(tmpbuf, sizeof (tmpbuf)); /* * The following order of looking for properties is * from FWARC 2002/345. */ if ((len = prom_getproplen(node, netiftype)) > 0 && len < sizeof (tmpbuf)) { (void) prom_getprop(node, netiftype, tmpbuf); } else if ((len = prom_getproplen(node, chosen_net)) > 0 && len < sizeof (tmpbuf)) { (void) prom_getprop(node, chosen_net, tmpbuf); } else if ((len = prom_getproplen(node, supported_net)) > 0 && len < sizeof (tmpbuf)) { (void) prom_getprop(node, supported_net, tmpbuf); } media_type = NULL; if (len > 0) { if ((wp = strstr(tmpbuf, ",")) != NULL) *wp = '\0'; media_type = tmpbuf; } if (media_type != NULL) { #ifdef DEBUG printf("mac_init: Media type: %s\n", media_type); #endif /* DEBUG */ for (i = 0; i < sizeof (ofw_types) / sizeof (struct ofw_net_types); i++) { if (strcmp(ofw_types[i].n_name, media_type) == 0) { type = ofw_types[i].n_type; break; } } } } #else type = IFT_ETHER; /* default to ethernet */ #endif /* !__i386 */ switch (type) { case IFT_ATM: /* * ATM is currently treated mostly like ethernet, * with the exception that the MTU is most likely * different. */ mac_state.mac_type = IFT_ATM; mac_state.mac_arp_timeout = ATM_ARP_TIMEOUT; mac_state.mac_in_timeout = ATM_IN_TIMEOUT; if (mac_state.mac_mtu == 0) mac_state.mac_mtu = ATMSIZE; mac_state.mac_addr_len = sizeof (ether_addr_t); mac_state.mac_addr_buf = bkmem_alloc(mac_state.mac_addr_len); if (mac_state.mac_addr_buf == NULL) prom_panic("mac_init: Cannot allocate memory."); if (prom_getmacaddr(mac_state.mac_dev, (caddr_t)mac_state.mac_addr_buf) != 0) prom_panic("mac_init: Cannot obtain MAC address."); mac_state.mac_arp = ether_arp; mac_state.mac_rarp = ether_revarp; mac_state.mac_header_len = ether_header_len; mac_state.mac_input = ether_input; mac_state.mac_output = ether_output; break; case IFT_FDDI: /* * FDDI is currently treated mostly like ethernet, * with the exception that the MTU is most likely * different. */ mac_state.mac_type = IFT_FDDI; mac_state.mac_arp_timeout = FDDI_ARP_TIMEOUT; mac_state.mac_in_timeout = FDDI_IN_TIMEOUT; if (mac_state.mac_mtu == 0) mac_state.mac_mtu = FDDISIZE; mac_state.mac_addr_len = sizeof (ether_addr_t); mac_state.mac_addr_buf = bkmem_alloc(mac_state.mac_addr_len); if (mac_state.mac_addr_buf == NULL) prom_panic("mac_init: Cannot allocate memory."); if (prom_getmacaddr(mac_state.mac_dev, (caddr_t)mac_state.mac_addr_buf) != 0) prom_panic("mac_init: Cannot obtain MAC address."); mac_state.mac_arp = ether_arp; mac_state.mac_rarp = ether_revarp; mac_state.mac_header_len = ether_header_len; mac_state.mac_input = ether_input; mac_state.mac_output = ether_output; break; case IFT_ISO88025: /* * Token ring is currently treated mostly like ethernet, * with the exception that the MTU is most likely different. */ mac_state.mac_type = IFT_ISO88025; mac_state.mac_arp_timeout = TOKEN_ARP_TIMEOUT; mac_state.mac_in_timeout = TOKEN_IN_TIMEOUT; if (mac_state.mac_mtu == 0) mac_state.mac_mtu = TOKENSIZE; mac_state.mac_addr_len = sizeof (ether_addr_t); mac_state.mac_addr_buf = bkmem_alloc(mac_state.mac_addr_len); if (mac_state.mac_addr_buf == NULL) prom_panic("mac_init: Cannot allocate memory."); if (prom_getmacaddr(mac_state.mac_dev, (caddr_t)mac_state.mac_addr_buf) != 0) prom_panic("mac_init: Cannot obtain MAC address."); mac_state.mac_arp = ether_arp; mac_state.mac_rarp = ether_revarp; mac_state.mac_header_len = ether_header_len; mac_state.mac_input = ether_input; mac_state.mac_output = ether_output; break; case IFT_IB: mac_state.mac_type = IFT_IB; ibd_init(); break; case IFT_ETHER: /* FALLTHRU - default to ethernet */ default: mac_state.mac_type = IFT_ETHER; mac_state.mac_mtu = ETHERSIZE; mac_state.mac_arp_timeout = ETHER_ARP_TIMEOUT; mac_state.mac_in_timeout = ETHER_IN_TIMEOUT; if (mac_state.mac_mtu == 0) mac_state.mac_mtu = ETHERSIZE; mac_state.mac_addr_len = sizeof (ether_addr_t); mac_state.mac_addr_buf = bkmem_alloc(mac_state.mac_addr_len); if (mac_state.mac_addr_buf == NULL) prom_panic("mac_init: Cannot allocate memory."); if (prom_getmacaddr(mac_state.mac_dev, (caddr_t)mac_state.mac_addr_buf) != 0) prom_panic("mac_init: Cannot obtain MAC address."); mac_state.mac_arp = ether_arp; mac_state.mac_rarp = ether_revarp; mac_state.mac_header_len = ether_header_len; mac_state.mac_input = ether_input; mac_state.mac_output = ether_output; break; } mac_state.mac_buf = bkmem_alloc(mac_state.mac_mtu); if (mac_state.mac_buf == NULL) prom_panic("mac_init: Cannot allocate netbuf memory."); else initialized = B_TRUE; } void mac_fini() { if (mac_state.mac_addr_buf != NULL) { bkmem_free((caddr_t)mac_state.mac_addr_buf, mac_state.mac_addr_len); mac_state.mac_addr_buf = NULL; } if (mac_state.mac_buf != NULL) { bkmem_free(mac_state.mac_buf, mac_state.mac_mtu); mac_state.mac_buf = NULL; } (void) prom_close(mac_state.mac_dev); initialized = B_FALSE; } /* MAC layer specific socket initialization */ void mac_socket_init(struct inetboot_socket *isp) { isp->input[MEDIA_LVL] = mac_state.mac_input; isp->output[MEDIA_LVL] = mac_state.mac_output; isp->close[MEDIA_LVL] = NULL; isp->headerlen[MEDIA_LVL] = mac_state.mac_header_len; isp->in_timeout = mac_state.mac_in_timeout; } /* * Add an entry to the ARP table. All values in table are network order. * No checking is done to determine whether there's duplicates. */ void mac_set_arp(struct in_addr *ip, void *hp, int hl) { atable[arp_index].ia.s_addr = ip->s_addr; bcopy(hp, (char *)atable[arp_index].ha, hl); atable[arp_index].hl = hl; arp_index++; if (arp_index >= ARP_TABLE_SIZE) arp_index = 0; } /* * Retrieve an entry from the ARP table using network-order IP address as * search criteria. HW address buffer is filled in up to hl in len. (make * sure the buffer is big enough given the mac type) * * Returns TRUE if successful, FALSE otherwise. Will wait timeout milliseconds * for a response. */ int mac_get_arp(struct in_addr *ip, void *hp, int hl, uint32_t timeout) { int i, result; for (i = 0; i < ARP_TABLE_SIZE; i++) { if (ip->s_addr == atable[i].ia.s_addr) { bcopy((char *)atable[i].ha, hp, hl); return (TRUE); } } /* Not found. ARP for it. */ bzero(hp, hl); result = mac_state.mac_arp(ip, hp, timeout); if (result) { /* Cool - add it to the arp table */ mac_set_arp(ip, hp, hl); } return (result); } int mac_get_mtu(void) { if (!initialized) return (-1); else return (mac_state.mac_mtu); } int mac_get_dev(void) { if (!initialized) return (-1); else return (mac_state.mac_dev); } uint8_t * mac_get_addr_buf(void) { if (!initialized) return (NULL); else return (mac_state.mac_addr_buf); } int mac_get_addr_len(void) { if (!initialized) return (-1); else return (mac_state.mac_addr_len); } int mac_get_type(void) { if (!initialized) return (-1); else return (mac_state.mac_type); } int mac_get_arp_timeout(void) { if (!initialized) return (-1); else return (mac_state.mac_arp_timeout); } int mac_get_hdr_len(void) { if (!initialized) return (-1); else return (mac_state.mac_header_len(NULL)); } int mac_call_arp(struct in_addr *addr, void *buf, uint32_t timeout) { return (mac_state.mac_arp(addr, buf, timeout)); } void mac_call_rarp(void) { mac_state.mac_rarp(); } /* * Map a IFT_ type to an RFC 1700 arp hwtype. */ uint8_t mac_arp_type(uint8_t ift_type) { uint8_t arptype; switch (ift_type) { case IFT_ISO88025: arptype = 4; /* token ring */ break; case IFT_ATM: arptype = 16; /* ATM */ break; case IFT_FDDI: arptype = 18; /* Fiber Channel */ break; case IFT_IB: arptype = 32; /* Infiniband */ break; case IFT_ETHER: /* FALLTHRU */ default: arptype = 1; /* default to ethernet */ break; } return (arptype); }