11369Sdduvall /* 21369Sdduvall * CDDL HEADER START 31369Sdduvall * 41369Sdduvall * The contents of this file are subject to the terms of the 51369Sdduvall * Common Development and Distribution License (the "License"). 61369Sdduvall * You may not use this file except in compliance with the License. 71369Sdduvall * 81369Sdduvall * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 91369Sdduvall * or http://www.opensolaris.org/os/licensing. 101369Sdduvall * See the License for the specific language governing permissions 111369Sdduvall * and limitations under the License. 121369Sdduvall * 131369Sdduvall * When distributing Covered Code, include this CDDL HEADER in each 141369Sdduvall * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 151369Sdduvall * If applicable, add the following below this CDDL HEADER, with the 161369Sdduvall * fields enclosed by brackets "[]" replaced with your own identifying 171369Sdduvall * information: Portions Copyright [yyyy] [name of copyright owner] 181369Sdduvall * 191369Sdduvall * CDDL HEADER END 201369Sdduvall */ 211369Sdduvall 221369Sdduvall /* 233390Szh199473 * Copyright 2007 Sun Microsystems, Inc. All rights reserved. 241369Sdduvall * Use is subject to license terms. 251369Sdduvall */ 261369Sdduvall 271369Sdduvall #pragma ident "%Z%%M% %I% %E% SMI" 281369Sdduvall 292675Szh199473 #include "bge_impl.h" 301369Sdduvall #include <sys/sdt.h> 311369Sdduvall 321369Sdduvall /* 331369Sdduvall * This is the string displayed by modinfo, etc. 341369Sdduvall * Make sure you keep the version ID up to date! 351369Sdduvall */ 36*4588Sml149210 static char bge_ident[] = "Broadcom Gb Ethernet v0.58"; 371369Sdduvall 381369Sdduvall /* 391369Sdduvall * Property names 401369Sdduvall */ 411369Sdduvall static char debug_propname[] = "bge-debug-flags"; 421369Sdduvall static char clsize_propname[] = "cache-line-size"; 431369Sdduvall static char latency_propname[] = "latency-timer"; 441369Sdduvall static char localmac_boolname[] = "local-mac-address?"; 451369Sdduvall static char localmac_propname[] = "local-mac-address"; 461369Sdduvall static char macaddr_propname[] = "mac-address"; 471369Sdduvall static char subdev_propname[] = "subsystem-id"; 481369Sdduvall static char subven_propname[] = "subsystem-vendor-id"; 491369Sdduvall static char rxrings_propname[] = "bge-rx-rings"; 501369Sdduvall static char txrings_propname[] = "bge-tx-rings"; 511865Sdilpreet static char fm_cap[] = "fm-capable"; 521908Sly149593 static char default_mtu[] = "default_mtu"; 531369Sdduvall 541369Sdduvall static int bge_add_intrs(bge_t *, int); 551369Sdduvall static void bge_rem_intrs(bge_t *); 561369Sdduvall 571369Sdduvall /* 581369Sdduvall * Describes the chip's DMA engine 591369Sdduvall */ 601369Sdduvall static ddi_dma_attr_t dma_attr = { 611369Sdduvall DMA_ATTR_V0, /* dma_attr version */ 621369Sdduvall 0x0000000000000000ull, /* dma_attr_addr_lo */ 631369Sdduvall 0xFFFFFFFFFFFFFFFFull, /* dma_attr_addr_hi */ 641369Sdduvall 0x00000000FFFFFFFFull, /* dma_attr_count_max */ 651369Sdduvall 0x0000000000000001ull, /* dma_attr_align */ 661369Sdduvall 0x00000FFF, /* dma_attr_burstsizes */ 671369Sdduvall 0x00000001, /* dma_attr_minxfer */ 681369Sdduvall 0x000000000000FFFFull, /* dma_attr_maxxfer */ 691369Sdduvall 0xFFFFFFFFFFFFFFFFull, /* dma_attr_seg */ 701369Sdduvall 1, /* dma_attr_sgllen */ 711369Sdduvall 0x00000001, /* dma_attr_granular */ 721865Sdilpreet DDI_DMA_FLAGERR /* dma_attr_flags */ 731369Sdduvall }; 741369Sdduvall 751369Sdduvall /* 761369Sdduvall * PIO access attributes for registers 771369Sdduvall */ 781369Sdduvall static ddi_device_acc_attr_t bge_reg_accattr = { 791369Sdduvall DDI_DEVICE_ATTR_V0, 801369Sdduvall DDI_NEVERSWAP_ACC, 811865Sdilpreet DDI_STRICTORDER_ACC, 821865Sdilpreet DDI_FLAGERR_ACC 831369Sdduvall }; 841369Sdduvall 851369Sdduvall /* 861369Sdduvall * DMA access attributes for descriptors: NOT to be byte swapped. 871369Sdduvall */ 881369Sdduvall static ddi_device_acc_attr_t bge_desc_accattr = { 891369Sdduvall DDI_DEVICE_ATTR_V0, 901369Sdduvall DDI_NEVERSWAP_ACC, 911865Sdilpreet DDI_STRICTORDER_ACC, 921865Sdilpreet DDI_FLAGERR_ACC 931369Sdduvall }; 941369Sdduvall 951369Sdduvall /* 961369Sdduvall * DMA access attributes for data: NOT to be byte swapped. 971369Sdduvall */ 981369Sdduvall static ddi_device_acc_attr_t bge_data_accattr = { 991369Sdduvall DDI_DEVICE_ATTR_V0, 1001369Sdduvall DDI_NEVERSWAP_ACC, 1011369Sdduvall DDI_STRICTORDER_ACC 1021369Sdduvall }; 1031369Sdduvall 1041369Sdduvall /* 1051369Sdduvall * Versions of the O/S up to Solaris 8 didn't support network booting 1061369Sdduvall * from any network interface except the first (NET0). Patching this 1071369Sdduvall * flag to a non-zero value will tell the driver to work around this 1081369Sdduvall * limitation by creating an extra (internal) pathname node. To do 1091369Sdduvall * this, just add a line like the following to the CLIENT'S etc/system 1101369Sdduvall * file ON THE ROOT FILESYSTEM SERVER before booting the client: 1111369Sdduvall * 1121369Sdduvall * set bge:bge_net1_boot_support = 1; 1131369Sdduvall */ 1141369Sdduvall static uint32_t bge_net1_boot_support = 1; 1151369Sdduvall 1162311Sseb static int bge_m_start(void *); 1172311Sseb static void bge_m_stop(void *); 1182311Sseb static int bge_m_promisc(void *, boolean_t); 1192311Sseb static int bge_m_multicst(void *, boolean_t, const uint8_t *); 1202311Sseb static int bge_m_unicst(void *, const uint8_t *); 1212311Sseb static void bge_m_resources(void *); 1222311Sseb static void bge_m_ioctl(void *, queue_t *, mblk_t *); 1232311Sseb static boolean_t bge_m_getcapab(void *, mac_capab_t, void *); 1242331Skrgopi static int bge_unicst_set(void *, const uint8_t *, 1252331Skrgopi mac_addr_slot_t); 1262331Skrgopi static int bge_m_unicst_add(void *, mac_multi_addr_t *); 1272331Skrgopi static int bge_m_unicst_remove(void *, mac_addr_slot_t); 1282331Skrgopi static int bge_m_unicst_modify(void *, mac_multi_addr_t *); 1292331Skrgopi static int bge_m_unicst_get(void *, mac_multi_addr_t *); 1302311Sseb 1312311Sseb #define BGE_M_CALLBACK_FLAGS (MC_RESOURCES | MC_IOCTL | MC_GETCAPAB) 1322311Sseb 1332311Sseb static mac_callbacks_t bge_m_callbacks = { 1342311Sseb BGE_M_CALLBACK_FLAGS, 1352311Sseb bge_m_stat, 1362311Sseb bge_m_start, 1372311Sseb bge_m_stop, 1382311Sseb bge_m_promisc, 1392311Sseb bge_m_multicst, 1402311Sseb bge_m_unicst, 1412311Sseb bge_m_tx, 1422311Sseb bge_m_resources, 1432311Sseb bge_m_ioctl, 1442311Sseb bge_m_getcapab 1452311Sseb }; 1462311Sseb 1471369Sdduvall /* 1481369Sdduvall * ========== Transmit and receive ring reinitialisation ========== 1491369Sdduvall */ 1501369Sdduvall 1511369Sdduvall /* 1521369Sdduvall * These <reinit> routines each reset the specified ring to an initial 1531369Sdduvall * state, assuming that the corresponding <init> routine has already 1541369Sdduvall * been called exactly once. 1551369Sdduvall */ 1561369Sdduvall 1571369Sdduvall static void 1581369Sdduvall bge_reinit_send_ring(send_ring_t *srp) 1591369Sdduvall { 1603334Sgs150176 bge_queue_t *txbuf_queue; 1613334Sgs150176 bge_queue_item_t *txbuf_head; 1623334Sgs150176 sw_txbuf_t *txbuf; 1633334Sgs150176 sw_sbd_t *ssbdp; 1643334Sgs150176 uint32_t slot; 1653334Sgs150176 1661369Sdduvall /* 1671369Sdduvall * Reinitialise control variables ... 1681369Sdduvall */ 1693334Sgs150176 srp->tx_flow = 0; 1701369Sdduvall srp->tx_next = 0; 1713334Sgs150176 srp->txfill_next = 0; 1721369Sdduvall srp->tx_free = srp->desc.nslots; 1731369Sdduvall ASSERT(mutex_owned(srp->tc_lock)); 1741369Sdduvall srp->tc_next = 0; 1753334Sgs150176 srp->txpkt_next = 0; 1763334Sgs150176 srp->tx_block = 0; 1773334Sgs150176 srp->tx_nobd = 0; 1783334Sgs150176 srp->tx_nobuf = 0; 1793334Sgs150176 1803334Sgs150176 /* 1813334Sgs150176 * Initialize the tx buffer push queue 1823334Sgs150176 */ 1833334Sgs150176 mutex_enter(srp->freetxbuf_lock); 1843334Sgs150176 mutex_enter(srp->txbuf_lock); 1853334Sgs150176 txbuf_queue = &srp->freetxbuf_queue; 1863334Sgs150176 txbuf_queue->head = NULL; 1873334Sgs150176 txbuf_queue->count = 0; 1883334Sgs150176 txbuf_queue->lock = srp->freetxbuf_lock; 1893334Sgs150176 srp->txbuf_push_queue = txbuf_queue; 1903334Sgs150176 1913334Sgs150176 /* 1923334Sgs150176 * Initialize the tx buffer pop queue 1933334Sgs150176 */ 1943334Sgs150176 txbuf_queue = &srp->txbuf_queue; 1953334Sgs150176 txbuf_queue->head = NULL; 1963334Sgs150176 txbuf_queue->count = 0; 1973334Sgs150176 txbuf_queue->lock = srp->txbuf_lock; 1983334Sgs150176 srp->txbuf_pop_queue = txbuf_queue; 1993334Sgs150176 txbuf_head = srp->txbuf_head; 2003334Sgs150176 txbuf = srp->txbuf; 2013334Sgs150176 for (slot = 0; slot < srp->tx_buffers; ++slot) { 2023334Sgs150176 txbuf_head->item = txbuf; 2033334Sgs150176 txbuf_head->next = txbuf_queue->head; 2043334Sgs150176 txbuf_queue->head = txbuf_head; 2053334Sgs150176 txbuf_queue->count++; 2063334Sgs150176 txbuf++; 2073334Sgs150176 txbuf_head++; 2083334Sgs150176 } 2093334Sgs150176 mutex_exit(srp->txbuf_lock); 2103334Sgs150176 mutex_exit(srp->freetxbuf_lock); 2111369Sdduvall 2121369Sdduvall /* 2131369Sdduvall * Zero and sync all the h/w Send Buffer Descriptors 2141369Sdduvall */ 2151369Sdduvall DMA_ZERO(srp->desc); 2161369Sdduvall DMA_SYNC(srp->desc, DDI_DMA_SYNC_FORDEV); 2173334Sgs150176 bzero(srp->pktp, BGE_SEND_BUF_MAX * sizeof (*srp->pktp)); 2183334Sgs150176 ssbdp = srp->sw_sbds; 2193334Sgs150176 for (slot = 0; slot < srp->desc.nslots; ++ssbdp, ++slot) 2203334Sgs150176 ssbdp->pbuf = NULL; 2211369Sdduvall } 2221369Sdduvall 2231369Sdduvall static void 2241369Sdduvall bge_reinit_recv_ring(recv_ring_t *rrp) 2251369Sdduvall { 2261369Sdduvall /* 2271369Sdduvall * Reinitialise control variables ... 2281369Sdduvall */ 2291369Sdduvall rrp->rx_next = 0; 2301369Sdduvall } 2311369Sdduvall 2321369Sdduvall static void 2333334Sgs150176 bge_reinit_buff_ring(buff_ring_t *brp, uint32_t ring) 2341369Sdduvall { 2351369Sdduvall bge_rbd_t *hw_rbd_p; 2361369Sdduvall sw_rbd_t *srbdp; 2371369Sdduvall uint32_t bufsize; 2381369Sdduvall uint32_t nslots; 2391369Sdduvall uint32_t slot; 2401369Sdduvall 2411369Sdduvall static uint16_t ring_type_flag[BGE_BUFF_RINGS_MAX] = { 2421369Sdduvall RBD_FLAG_STD_RING, 2431369Sdduvall RBD_FLAG_JUMBO_RING, 2441369Sdduvall RBD_FLAG_MINI_RING 2451369Sdduvall }; 2461369Sdduvall 2471369Sdduvall /* 2481369Sdduvall * Zero, initialise and sync all the h/w Receive Buffer Descriptors 2491369Sdduvall * Note: all the remaining fields (<type>, <flags>, <ip_cksum>, 2501369Sdduvall * <tcp_udp_cksum>, <error_flag>, <vlan_tag>, and <reserved>) 2511369Sdduvall * should be zeroed, and so don't need to be set up specifically 2521369Sdduvall * once the whole area has been cleared. 2531369Sdduvall */ 2541369Sdduvall DMA_ZERO(brp->desc); 2551369Sdduvall 2561369Sdduvall hw_rbd_p = DMA_VPTR(brp->desc); 2571369Sdduvall nslots = brp->desc.nslots; 2581369Sdduvall ASSERT(brp->buf[0].nslots == nslots/BGE_SPLIT); 2591369Sdduvall bufsize = brp->buf[0].size; 2601369Sdduvall srbdp = brp->sw_rbds; 2611369Sdduvall for (slot = 0; slot < nslots; ++hw_rbd_p, ++srbdp, ++slot) { 2621369Sdduvall hw_rbd_p->host_buf_addr = srbdp->pbuf.cookie.dmac_laddress; 2631369Sdduvall hw_rbd_p->index = slot; 2641369Sdduvall hw_rbd_p->len = bufsize; 2651369Sdduvall hw_rbd_p->opaque = srbdp->pbuf.token; 2661369Sdduvall hw_rbd_p->flags |= ring_type_flag[ring]; 2671369Sdduvall } 2681369Sdduvall 2691369Sdduvall DMA_SYNC(brp->desc, DDI_DMA_SYNC_FORDEV); 2701369Sdduvall 2711369Sdduvall /* 2721369Sdduvall * Finally, reinitialise the ring control variables ... 2731369Sdduvall */ 2741369Sdduvall brp->rf_next = (nslots != 0) ? (nslots-1) : 0; 2751369Sdduvall } 2761369Sdduvall 2771369Sdduvall /* 2781369Sdduvall * Reinitialize all rings 2791369Sdduvall */ 2801369Sdduvall static void 2811369Sdduvall bge_reinit_rings(bge_t *bgep) 2821369Sdduvall { 2833334Sgs150176 uint32_t ring; 2841369Sdduvall 2851369Sdduvall ASSERT(mutex_owned(bgep->genlock)); 2861369Sdduvall 2871369Sdduvall /* 2881369Sdduvall * Send Rings ... 2891369Sdduvall */ 2901369Sdduvall for (ring = 0; ring < bgep->chipid.tx_rings; ++ring) 2911369Sdduvall bge_reinit_send_ring(&bgep->send[ring]); 2921369Sdduvall 2931369Sdduvall /* 2941369Sdduvall * Receive Return Rings ... 2951369Sdduvall */ 2961369Sdduvall for (ring = 0; ring < bgep->chipid.rx_rings; ++ring) 2971369Sdduvall bge_reinit_recv_ring(&bgep->recv[ring]); 2981369Sdduvall 2991369Sdduvall /* 3001369Sdduvall * Receive Producer Rings ... 3011369Sdduvall */ 3021369Sdduvall for (ring = 0; ring < BGE_BUFF_RINGS_USED; ++ring) 3031369Sdduvall bge_reinit_buff_ring(&bgep->buff[ring], ring); 3041369Sdduvall } 3051369Sdduvall 3061369Sdduvall /* 3071369Sdduvall * ========== Internal state management entry points ========== 3081369Sdduvall */ 3091369Sdduvall 3101369Sdduvall #undef BGE_DBG 3111369Sdduvall #define BGE_DBG BGE_DBG_NEMO /* debug flag for this code */ 3121369Sdduvall 3131369Sdduvall /* 3141369Sdduvall * These routines provide all the functionality required by the 3151369Sdduvall * corresponding GLD entry points, but don't update the GLD state 3161369Sdduvall * so they can be called internally without disturbing our record 3171369Sdduvall * of what GLD thinks we should be doing ... 3181369Sdduvall */ 3191369Sdduvall 3201369Sdduvall /* 3211369Sdduvall * bge_reset() -- reset h/w & rings to initial state 3221369Sdduvall */ 3231865Sdilpreet static int 3241408Srandyf #ifdef BGE_IPMI_ASF 3251408Srandyf bge_reset(bge_t *bgep, uint_t asf_mode) 3261408Srandyf #else 3271369Sdduvall bge_reset(bge_t *bgep) 3281408Srandyf #endif 3291369Sdduvall { 3303334Sgs150176 uint32_t ring; 3311865Sdilpreet int retval; 3321369Sdduvall 3331369Sdduvall BGE_TRACE(("bge_reset($%p)", (void *)bgep)); 3341369Sdduvall 3351369Sdduvall ASSERT(mutex_owned(bgep->genlock)); 3361369Sdduvall 3371369Sdduvall /* 3381369Sdduvall * Grab all the other mutexes in the world (this should 3391369Sdduvall * ensure no other threads are manipulating driver state) 3401369Sdduvall */ 3411369Sdduvall for (ring = 0; ring < BGE_RECV_RINGS_MAX; ++ring) 3421369Sdduvall mutex_enter(bgep->recv[ring].rx_lock); 3431369Sdduvall for (ring = 0; ring < BGE_BUFF_RINGS_MAX; ++ring) 3441369Sdduvall mutex_enter(bgep->buff[ring].rf_lock); 3451369Sdduvall rw_enter(bgep->errlock, RW_WRITER); 3461369Sdduvall for (ring = 0; ring < BGE_SEND_RINGS_MAX; ++ring) 3473334Sgs150176 mutex_enter(bgep->send[ring].tx_lock); 3483334Sgs150176 for (ring = 0; ring < BGE_SEND_RINGS_MAX; ++ring) 3491369Sdduvall mutex_enter(bgep->send[ring].tc_lock); 3501369Sdduvall 3511408Srandyf #ifdef BGE_IPMI_ASF 3521865Sdilpreet retval = bge_chip_reset(bgep, B_TRUE, asf_mode); 3531408Srandyf #else 3541865Sdilpreet retval = bge_chip_reset(bgep, B_TRUE); 3551408Srandyf #endif 3561369Sdduvall bge_reinit_rings(bgep); 3571369Sdduvall 3581369Sdduvall /* 3591369Sdduvall * Free the world ... 3601369Sdduvall */ 3611369Sdduvall for (ring = BGE_SEND_RINGS_MAX; ring-- > 0; ) 3621369Sdduvall mutex_exit(bgep->send[ring].tc_lock); 3633334Sgs150176 for (ring = 0; ring < BGE_SEND_RINGS_MAX; ++ring) 3643334Sgs150176 mutex_exit(bgep->send[ring].tx_lock); 3651369Sdduvall rw_exit(bgep->errlock); 3661369Sdduvall for (ring = BGE_BUFF_RINGS_MAX; ring-- > 0; ) 3671369Sdduvall mutex_exit(bgep->buff[ring].rf_lock); 3681369Sdduvall for (ring = BGE_RECV_RINGS_MAX; ring-- > 0; ) 3691369Sdduvall mutex_exit(bgep->recv[ring].rx_lock); 3701369Sdduvall 3711369Sdduvall BGE_DEBUG(("bge_reset($%p) done", (void *)bgep)); 3721865Sdilpreet return (retval); 3731369Sdduvall } 3741369Sdduvall 3751369Sdduvall /* 3761369Sdduvall * bge_stop() -- stop processing, don't reset h/w or rings 3771369Sdduvall */ 3781369Sdduvall static void 3791369Sdduvall bge_stop(bge_t *bgep) 3801369Sdduvall { 3811369Sdduvall BGE_TRACE(("bge_stop($%p)", (void *)bgep)); 3821369Sdduvall 3831369Sdduvall ASSERT(mutex_owned(bgep->genlock)); 3841369Sdduvall 3851408Srandyf #ifdef BGE_IPMI_ASF 3861408Srandyf if (bgep->asf_enabled) { 3871408Srandyf bgep->asf_pseudostop = B_TRUE; 3881408Srandyf } else { 3891408Srandyf #endif 3901408Srandyf bge_chip_stop(bgep, B_FALSE); 3911408Srandyf #ifdef BGE_IPMI_ASF 3921408Srandyf } 3931408Srandyf #endif 3941369Sdduvall 3951369Sdduvall BGE_DEBUG(("bge_stop($%p) done", (void *)bgep)); 3961369Sdduvall } 3971369Sdduvall 3981369Sdduvall /* 3991369Sdduvall * bge_start() -- start transmitting/receiving 4001369Sdduvall */ 4011865Sdilpreet static int 4021369Sdduvall bge_start(bge_t *bgep, boolean_t reset_phys) 4031369Sdduvall { 4041865Sdilpreet int retval; 4051865Sdilpreet 4061369Sdduvall BGE_TRACE(("bge_start($%p, %d)", (void *)bgep, reset_phys)); 4071369Sdduvall 4081369Sdduvall ASSERT(mutex_owned(bgep->genlock)); 4091369Sdduvall 4101369Sdduvall /* 4111369Sdduvall * Start chip processing, including enabling interrupts 4121369Sdduvall */ 4131865Sdilpreet retval = bge_chip_start(bgep, reset_phys); 4141369Sdduvall 4151369Sdduvall BGE_DEBUG(("bge_start($%p, %d) done", (void *)bgep, reset_phys)); 4161865Sdilpreet return (retval); 4171369Sdduvall } 4181369Sdduvall 4191369Sdduvall /* 4201369Sdduvall * bge_restart - restart transmitting/receiving after error or suspend 4211369Sdduvall */ 4221865Sdilpreet int 4231369Sdduvall bge_restart(bge_t *bgep, boolean_t reset_phys) 4241369Sdduvall { 4251865Sdilpreet int retval = DDI_SUCCESS; 4261369Sdduvall ASSERT(mutex_owned(bgep->genlock)); 4271369Sdduvall 4281408Srandyf #ifdef BGE_IPMI_ASF 4291408Srandyf if (bgep->asf_enabled) { 4301865Sdilpreet if (bge_reset(bgep, ASF_MODE_POST_INIT) != DDI_SUCCESS) 4311865Sdilpreet retval = DDI_FAILURE; 4321408Srandyf } else 4331865Sdilpreet if (bge_reset(bgep, ASF_MODE_NONE) != DDI_SUCCESS) 4341865Sdilpreet retval = DDI_FAILURE; 4351408Srandyf #else 4361865Sdilpreet if (bge_reset(bgep) != DDI_SUCCESS) 4371865Sdilpreet retval = DDI_FAILURE; 4381408Srandyf #endif 4393440Szh199473 if (bgep->bge_mac_state == BGE_MAC_STARTED) { 4401865Sdilpreet if (bge_start(bgep, reset_phys) != DDI_SUCCESS) 4411865Sdilpreet retval = DDI_FAILURE; 4421369Sdduvall bgep->watchdog = 0; 4433334Sgs150176 ddi_trigger_softintr(bgep->drain_id); 4441369Sdduvall } 4451369Sdduvall 4461369Sdduvall BGE_DEBUG(("bge_restart($%p, %d) done", (void *)bgep, reset_phys)); 4471865Sdilpreet return (retval); 4481369Sdduvall } 4491369Sdduvall 4501369Sdduvall 4511369Sdduvall /* 4521369Sdduvall * ========== Nemo-required management entry points ========== 4531369Sdduvall */ 4541369Sdduvall 4551369Sdduvall #undef BGE_DBG 4561369Sdduvall #define BGE_DBG BGE_DBG_NEMO /* debug flag for this code */ 4571369Sdduvall 4581369Sdduvall /* 4591369Sdduvall * bge_m_stop() -- stop transmitting/receiving 4601369Sdduvall */ 4611369Sdduvall static void 4621369Sdduvall bge_m_stop(void *arg) 4631369Sdduvall { 4641369Sdduvall bge_t *bgep = arg; /* private device info */ 4653334Sgs150176 send_ring_t *srp; 4663334Sgs150176 uint32_t ring; 4671369Sdduvall 4681369Sdduvall BGE_TRACE(("bge_m_stop($%p)", arg)); 4691369Sdduvall 4701369Sdduvall /* 4711369Sdduvall * Just stop processing, then record new GLD state 4721369Sdduvall */ 4731369Sdduvall mutex_enter(bgep->genlock); 4741865Sdilpreet if (!(bgep->progress & PROGRESS_INTR)) { 4751865Sdilpreet /* can happen during autorecovery */ 4761865Sdilpreet mutex_exit(bgep->genlock); 4771865Sdilpreet return; 4781865Sdilpreet } 4791369Sdduvall bge_stop(bgep); 4803334Sgs150176 /* 4813334Sgs150176 * Free the possible tx buffers allocated in tx process. 4823334Sgs150176 */ 4833334Sgs150176 #ifdef BGE_IPMI_ASF 4843334Sgs150176 if (!bgep->asf_pseudostop) 4853334Sgs150176 #endif 4863334Sgs150176 { 4873334Sgs150176 rw_enter(bgep->errlock, RW_WRITER); 4883334Sgs150176 for (ring = 0; ring < bgep->chipid.tx_rings; ++ring) { 4893334Sgs150176 srp = &bgep->send[ring]; 4903334Sgs150176 mutex_enter(srp->tx_lock); 4913334Sgs150176 if (srp->tx_array > 1) 4923334Sgs150176 bge_free_txbuf_arrays(srp); 4933334Sgs150176 mutex_exit(srp->tx_lock); 4943334Sgs150176 } 4953334Sgs150176 rw_exit(bgep->errlock); 4963334Sgs150176 } 4971369Sdduvall bgep->bge_mac_state = BGE_MAC_STOPPED; 4981369Sdduvall BGE_DEBUG(("bge_m_stop($%p) done", arg)); 4991865Sdilpreet if (bge_check_acc_handle(bgep, bgep->io_handle) != DDI_FM_OK) 5001865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_UNAFFECTED); 5011369Sdduvall mutex_exit(bgep->genlock); 5021369Sdduvall } 5031369Sdduvall 5041369Sdduvall /* 5051369Sdduvall * bge_m_start() -- start transmitting/receiving 5061369Sdduvall */ 5071369Sdduvall static int 5081369Sdduvall bge_m_start(void *arg) 5091369Sdduvall { 5101369Sdduvall bge_t *bgep = arg; /* private device info */ 5111369Sdduvall 5121369Sdduvall BGE_TRACE(("bge_m_start($%p)", arg)); 5131369Sdduvall 5141369Sdduvall /* 5151369Sdduvall * Start processing and record new GLD state 5161369Sdduvall */ 5171369Sdduvall mutex_enter(bgep->genlock); 5181865Sdilpreet if (!(bgep->progress & PROGRESS_INTR)) { 5191865Sdilpreet /* can happen during autorecovery */ 5201865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 5211865Sdilpreet mutex_exit(bgep->genlock); 5221865Sdilpreet return (EIO); 5231865Sdilpreet } 5241408Srandyf #ifdef BGE_IPMI_ASF 5251408Srandyf if (bgep->asf_enabled) { 5261408Srandyf if ((bgep->asf_status == ASF_STAT_RUN) && 527*4588Sml149210 (bgep->asf_pseudostop)) { 5281408Srandyf 5291408Srandyf bgep->bge_mac_state = BGE_MAC_STARTED; 5301408Srandyf mutex_exit(bgep->genlock); 5311408Srandyf return (0); 5321408Srandyf } 5331408Srandyf } 5341865Sdilpreet if (bge_reset(bgep, ASF_MODE_INIT) != DDI_SUCCESS) { 5351408Srandyf #else 5361865Sdilpreet if (bge_reset(bgep) != DDI_SUCCESS) { 5371408Srandyf #endif 5381865Sdilpreet (void) bge_check_acc_handle(bgep, bgep->cfg_handle); 5391865Sdilpreet (void) bge_check_acc_handle(bgep, bgep->io_handle); 5401865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 5411865Sdilpreet mutex_exit(bgep->genlock); 5421865Sdilpreet return (EIO); 5431865Sdilpreet } 5441865Sdilpreet if (bge_start(bgep, B_TRUE) != DDI_SUCCESS) { 5451865Sdilpreet (void) bge_check_acc_handle(bgep, bgep->cfg_handle); 5461865Sdilpreet (void) bge_check_acc_handle(bgep, bgep->io_handle); 5471865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 5481865Sdilpreet mutex_exit(bgep->genlock); 5491865Sdilpreet return (EIO); 5501865Sdilpreet } 5511369Sdduvall bgep->bge_mac_state = BGE_MAC_STARTED; 5521369Sdduvall BGE_DEBUG(("bge_m_start($%p) done", arg)); 5531408Srandyf 5541865Sdilpreet if (bge_check_acc_handle(bgep, bgep->cfg_handle) != DDI_FM_OK) { 5551865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 5561865Sdilpreet mutex_exit(bgep->genlock); 5571865Sdilpreet return (EIO); 5581865Sdilpreet } 5591865Sdilpreet if (bge_check_acc_handle(bgep, bgep->io_handle) != DDI_FM_OK) { 5601865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 5611865Sdilpreet mutex_exit(bgep->genlock); 5621865Sdilpreet return (EIO); 5631865Sdilpreet } 5641408Srandyf #ifdef BGE_IPMI_ASF 5651408Srandyf if (bgep->asf_enabled) { 5661408Srandyf if (bgep->asf_status != ASF_STAT_RUN) { 5671408Srandyf /* start ASF heart beat */ 5681408Srandyf bgep->asf_timeout_id = timeout(bge_asf_heartbeat, 569*4588Sml149210 (void *)bgep, 570*4588Sml149210 drv_usectohz(BGE_ASF_HEARTBEAT_INTERVAL)); 5711408Srandyf bgep->asf_status = ASF_STAT_RUN; 5721408Srandyf } 5731408Srandyf } 5741408Srandyf #endif 5751369Sdduvall mutex_exit(bgep->genlock); 5761369Sdduvall 5771369Sdduvall return (0); 5781369Sdduvall } 5791369Sdduvall 5801369Sdduvall /* 5812331Skrgopi * bge_m_unicst() -- set the physical network address 5821369Sdduvall */ 5831369Sdduvall static int 5841369Sdduvall bge_m_unicst(void *arg, const uint8_t *macaddr) 5851369Sdduvall { 5862331Skrgopi /* 5872331Skrgopi * Request to set address in 5882331Skrgopi * address slot 0, i.e., default address 5892331Skrgopi */ 5902331Skrgopi return (bge_unicst_set(arg, macaddr, 0)); 5912331Skrgopi } 5922331Skrgopi 5932331Skrgopi /* 5942331Skrgopi * bge_unicst_set() -- set the physical network address 5952331Skrgopi */ 5962331Skrgopi static int 5972331Skrgopi bge_unicst_set(void *arg, const uint8_t *macaddr, mac_addr_slot_t slot) 5982331Skrgopi { 5991369Sdduvall bge_t *bgep = arg; /* private device info */ 6001369Sdduvall 6011369Sdduvall BGE_TRACE(("bge_m_unicst_set($%p, %s)", arg, 602*4588Sml149210 ether_sprintf((void *)macaddr))); 6031369Sdduvall /* 6041369Sdduvall * Remember the new current address in the driver state 6051369Sdduvall * Sync the chip's idea of the address too ... 6061369Sdduvall */ 6071369Sdduvall mutex_enter(bgep->genlock); 6081865Sdilpreet if (!(bgep->progress & PROGRESS_INTR)) { 6091865Sdilpreet /* can happen during autorecovery */ 6101865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 6111865Sdilpreet mutex_exit(bgep->genlock); 6121865Sdilpreet return (EIO); 6131865Sdilpreet } 6142331Skrgopi ethaddr_copy(macaddr, bgep->curr_addr[slot].addr); 6151408Srandyf #ifdef BGE_IPMI_ASF 6161865Sdilpreet if (bge_chip_sync(bgep, B_FALSE) == DDI_FAILURE) { 6171865Sdilpreet #else 6181865Sdilpreet if (bge_chip_sync(bgep) == DDI_FAILURE) { 6191865Sdilpreet #endif 6201865Sdilpreet (void) bge_check_acc_handle(bgep, bgep->cfg_handle); 6211865Sdilpreet (void) bge_check_acc_handle(bgep, bgep->io_handle); 6221865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 6231865Sdilpreet mutex_exit(bgep->genlock); 6241865Sdilpreet return (EIO); 6251865Sdilpreet } 6261865Sdilpreet #ifdef BGE_IPMI_ASF 6271408Srandyf if (bgep->asf_enabled) { 6281408Srandyf /* 6291408Srandyf * The above bge_chip_sync() function wrote the ethernet MAC 6301408Srandyf * addresses registers which destroyed the IPMI/ASF sideband. 6311408Srandyf * Here, we have to reset chip to make IPMI/ASF sideband work. 6321408Srandyf */ 6331408Srandyf if (bgep->asf_status == ASF_STAT_RUN) { 6341408Srandyf /* 6351408Srandyf * We must stop ASF heart beat before bge_chip_stop(), 6361408Srandyf * otherwise some computers (ex. IBM HS20 blade server) 6371408Srandyf * may crash. 6381408Srandyf */ 6391408Srandyf bge_asf_update_status(bgep); 6401408Srandyf bge_asf_stop_timer(bgep); 6411408Srandyf bgep->asf_status = ASF_STAT_STOP; 6421408Srandyf 6431408Srandyf bge_asf_pre_reset_operations(bgep, BGE_INIT_RESET); 6441408Srandyf } 6451865Sdilpreet bge_chip_stop(bgep, B_FALSE); 6461408Srandyf 6471865Sdilpreet if (bge_restart(bgep, B_FALSE) == DDI_FAILURE) { 6481865Sdilpreet (void) bge_check_acc_handle(bgep, bgep->cfg_handle); 6491865Sdilpreet (void) bge_check_acc_handle(bgep, bgep->io_handle); 6501865Sdilpreet ddi_fm_service_impact(bgep->devinfo, 6511865Sdilpreet DDI_SERVICE_DEGRADED); 6521865Sdilpreet mutex_exit(bgep->genlock); 6531865Sdilpreet return (EIO); 6541865Sdilpreet } 6551865Sdilpreet 6561408Srandyf /* 6571408Srandyf * Start our ASF heartbeat counter as soon as possible. 6581408Srandyf */ 6591408Srandyf if (bgep->asf_status != ASF_STAT_RUN) { 6601408Srandyf /* start ASF heart beat */ 6611408Srandyf bgep->asf_timeout_id = timeout(bge_asf_heartbeat, 662*4588Sml149210 (void *)bgep, 663*4588Sml149210 drv_usectohz(BGE_ASF_HEARTBEAT_INTERVAL)); 6641408Srandyf bgep->asf_status = ASF_STAT_RUN; 6651408Srandyf } 6661408Srandyf } 6671408Srandyf #endif 6681369Sdduvall BGE_DEBUG(("bge_m_unicst_set($%p) done", arg)); 6691865Sdilpreet if (bge_check_acc_handle(bgep, bgep->cfg_handle) != DDI_FM_OK) { 6701865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 6711865Sdilpreet mutex_exit(bgep->genlock); 6721865Sdilpreet return (EIO); 6731865Sdilpreet } 6741865Sdilpreet if (bge_check_acc_handle(bgep, bgep->io_handle) != DDI_FM_OK) { 6751865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 6761865Sdilpreet mutex_exit(bgep->genlock); 6771865Sdilpreet return (EIO); 6781865Sdilpreet } 6791369Sdduvall mutex_exit(bgep->genlock); 6801369Sdduvall 6811369Sdduvall return (0); 6821369Sdduvall } 6831369Sdduvall 6841369Sdduvall /* 6852331Skrgopi * The following four routines are used as callbacks for multiple MAC 6862331Skrgopi * address support: 6872331Skrgopi * - bge_m_unicst_add(void *, mac_multi_addr_t *); 6882331Skrgopi * - bge_m_unicst_remove(void *, mac_addr_slot_t); 6892331Skrgopi * - bge_m_unicst_modify(void *, mac_multi_addr_t *); 6902331Skrgopi * - bge_m_unicst_get(void *, mac_multi_addr_t *); 6912331Skrgopi */ 6922331Skrgopi 6932331Skrgopi /* 6942331Skrgopi * bge_m_unicst_add() - will find an unused address slot, set the 6952331Skrgopi * address value to the one specified, reserve that slot and enable 6962331Skrgopi * the NIC to start filtering on the new MAC address. 6972331Skrgopi * address slot. Returns 0 on success. 6982331Skrgopi */ 6992331Skrgopi static int 7002331Skrgopi bge_m_unicst_add(void *arg, mac_multi_addr_t *maddr) 7012331Skrgopi { 7022331Skrgopi bge_t *bgep = arg; /* private device info */ 7032331Skrgopi mac_addr_slot_t slot; 7042406Skrgopi int err; 7052331Skrgopi 7062331Skrgopi if (mac_unicst_verify(bgep->mh, 7072331Skrgopi maddr->mma_addr, maddr->mma_addrlen) == B_FALSE) 7082331Skrgopi return (EINVAL); 7092331Skrgopi 7102331Skrgopi mutex_enter(bgep->genlock); 7112331Skrgopi if (bgep->unicst_addr_avail == 0) { 7122331Skrgopi /* no slots available */ 7132331Skrgopi mutex_exit(bgep->genlock); 7142331Skrgopi return (ENOSPC); 7152331Skrgopi } 7162331Skrgopi 7172331Skrgopi /* 7182331Skrgopi * Primary/default address is in slot 0. The next three 7192331Skrgopi * addresses are the multiple MAC addresses. So multiple 7202331Skrgopi * MAC address 0 is in slot 1, 1 in slot 2, and so on. 7212406Skrgopi * So the first multiple MAC address resides in slot 1. 7222331Skrgopi */ 7232406Skrgopi for (slot = 1; slot < bgep->unicst_addr_total; slot++) { 7242406Skrgopi if (bgep->curr_addr[slot].set == B_FALSE) { 7252406Skrgopi bgep->curr_addr[slot].set = B_TRUE; 7262331Skrgopi break; 7272331Skrgopi } 7282331Skrgopi } 7292331Skrgopi 7302406Skrgopi ASSERT(slot < bgep->unicst_addr_total); 7312331Skrgopi bgep->unicst_addr_avail--; 7322331Skrgopi mutex_exit(bgep->genlock); 7332331Skrgopi maddr->mma_slot = slot; 7342331Skrgopi 7352331Skrgopi if ((err = bge_unicst_set(bgep, maddr->mma_addr, slot)) != 0) { 7362331Skrgopi mutex_enter(bgep->genlock); 7372406Skrgopi bgep->curr_addr[slot].set = B_FALSE; 7382331Skrgopi bgep->unicst_addr_avail++; 7392331Skrgopi mutex_exit(bgep->genlock); 7402331Skrgopi } 7412331Skrgopi return (err); 7422331Skrgopi } 7432331Skrgopi 7442331Skrgopi /* 7452331Skrgopi * bge_m_unicst_remove() - removes a MAC address that was added by a 7462331Skrgopi * call to bge_m_unicst_add(). The slot number that was returned in 7472331Skrgopi * add() is passed in the call to remove the address. 7482331Skrgopi * Returns 0 on success. 7492331Skrgopi */ 7502331Skrgopi static int 7512331Skrgopi bge_m_unicst_remove(void *arg, mac_addr_slot_t slot) 7522331Skrgopi { 7532331Skrgopi bge_t *bgep = arg; /* private device info */ 7542331Skrgopi 7552406Skrgopi if (slot <= 0 || slot >= bgep->unicst_addr_total) 7562406Skrgopi return (EINVAL); 7572406Skrgopi 7582331Skrgopi mutex_enter(bgep->genlock); 7592406Skrgopi if (bgep->curr_addr[slot].set == B_TRUE) { 7602406Skrgopi bgep->curr_addr[slot].set = B_FALSE; 7612331Skrgopi bgep->unicst_addr_avail++; 7622331Skrgopi mutex_exit(bgep->genlock); 7632331Skrgopi /* 7642331Skrgopi * Copy the default address to the passed slot 7652331Skrgopi */ 7662406Skrgopi return (bge_unicst_set(bgep, bgep->curr_addr[0].addr, slot)); 7672331Skrgopi } 7682331Skrgopi mutex_exit(bgep->genlock); 7692331Skrgopi return (EINVAL); 7702331Skrgopi } 7712331Skrgopi 7722331Skrgopi /* 7732331Skrgopi * bge_m_unicst_modify() - modifies the value of an address that 7742331Skrgopi * has been added by bge_m_unicst_add(). The new address, address 7752331Skrgopi * length and the slot number that was returned in the call to add 7762331Skrgopi * should be passed to bge_m_unicst_modify(). mma_flags should be 7772331Skrgopi * set to 0. Returns 0 on success. 7782331Skrgopi */ 7792331Skrgopi static int 7802331Skrgopi bge_m_unicst_modify(void *arg, mac_multi_addr_t *maddr) 7812331Skrgopi { 7822331Skrgopi bge_t *bgep = arg; /* private device info */ 7832331Skrgopi mac_addr_slot_t slot; 7842331Skrgopi 7852331Skrgopi if (mac_unicst_verify(bgep->mh, 7862331Skrgopi maddr->mma_addr, maddr->mma_addrlen) == B_FALSE) 7872331Skrgopi return (EINVAL); 7882331Skrgopi 7892331Skrgopi slot = maddr->mma_slot; 7902331Skrgopi 7912406Skrgopi if (slot <= 0 || slot >= bgep->unicst_addr_total) 7922406Skrgopi return (EINVAL); 7932406Skrgopi 7942331Skrgopi mutex_enter(bgep->genlock); 7952406Skrgopi if (bgep->curr_addr[slot].set == B_TRUE) { 7962331Skrgopi mutex_exit(bgep->genlock); 7972331Skrgopi return (bge_unicst_set(bgep, maddr->mma_addr, slot)); 7982331Skrgopi } 7992331Skrgopi mutex_exit(bgep->genlock); 8002331Skrgopi 8012331Skrgopi return (EINVAL); 8022331Skrgopi } 8032331Skrgopi 8042331Skrgopi /* 8052331Skrgopi * bge_m_unicst_get() - will get the MAC address and all other 8062331Skrgopi * information related to the address slot passed in mac_multi_addr_t. 8072331Skrgopi * mma_flags should be set to 0 in the call. 8082331Skrgopi * On return, mma_flags can take the following values: 8092331Skrgopi * 1) MMAC_SLOT_UNUSED 8102331Skrgopi * 2) MMAC_SLOT_USED | MMAC_VENDOR_ADDR 8112331Skrgopi * 3) MMAC_SLOT_UNUSED | MMAC_VENDOR_ADDR 8122331Skrgopi * 4) MMAC_SLOT_USED 8132331Skrgopi */ 8142331Skrgopi static int 8152331Skrgopi bge_m_unicst_get(void *arg, mac_multi_addr_t *maddr) 8162331Skrgopi { 8172331Skrgopi bge_t *bgep = arg; /* private device info */ 8182331Skrgopi mac_addr_slot_t slot; 8192331Skrgopi 8202331Skrgopi slot = maddr->mma_slot; 8212331Skrgopi 8222406Skrgopi if (slot <= 0 || slot >= bgep->unicst_addr_total) 8232331Skrgopi return (EINVAL); 8242331Skrgopi 8252331Skrgopi mutex_enter(bgep->genlock); 8262406Skrgopi if (bgep->curr_addr[slot].set == B_TRUE) { 8272406Skrgopi ethaddr_copy(bgep->curr_addr[slot].addr, 8282331Skrgopi maddr->mma_addr); 8292331Skrgopi maddr->mma_flags = MMAC_SLOT_USED; 8302331Skrgopi } else { 8312331Skrgopi maddr->mma_flags = MMAC_SLOT_UNUSED; 8322331Skrgopi } 8332331Skrgopi mutex_exit(bgep->genlock); 8342331Skrgopi 8352331Skrgopi return (0); 8362331Skrgopi } 8372331Skrgopi 8382331Skrgopi /* 8391369Sdduvall * Compute the index of the required bit in the multicast hash map. 8401369Sdduvall * This must mirror the way the hardware actually does it! 8411369Sdduvall * See Broadcom document 570X-PG102-R page 125. 8421369Sdduvall */ 8431369Sdduvall static uint32_t 8441369Sdduvall bge_hash_index(const uint8_t *mca) 8451369Sdduvall { 8461369Sdduvall uint32_t hash; 8471369Sdduvall 8481369Sdduvall CRC32(hash, mca, ETHERADDRL, -1U, crc32_table); 8491369Sdduvall 8501369Sdduvall return (hash); 8511369Sdduvall } 8521369Sdduvall 8531369Sdduvall /* 8541369Sdduvall * bge_m_multicst_add() -- enable/disable a multicast address 8551369Sdduvall */ 8561369Sdduvall static int 8571369Sdduvall bge_m_multicst(void *arg, boolean_t add, const uint8_t *mca) 8581369Sdduvall { 8591369Sdduvall bge_t *bgep = arg; /* private device info */ 8601369Sdduvall uint32_t hash; 8611369Sdduvall uint32_t index; 8621369Sdduvall uint32_t word; 8631369Sdduvall uint32_t bit; 8641369Sdduvall uint8_t *refp; 8651369Sdduvall 8661369Sdduvall BGE_TRACE(("bge_m_multicst($%p, %s, %s)", arg, 867*4588Sml149210 (add) ? "add" : "remove", ether_sprintf((void *)mca))); 8681369Sdduvall 8691369Sdduvall /* 8701369Sdduvall * Precalculate all required masks, pointers etc ... 8711369Sdduvall */ 8721369Sdduvall hash = bge_hash_index(mca); 8731369Sdduvall index = hash % BGE_HASH_TABLE_SIZE; 8741369Sdduvall word = index/32u; 8751369Sdduvall bit = 1 << (index % 32u); 8761369Sdduvall refp = &bgep->mcast_refs[index]; 8771369Sdduvall 8781369Sdduvall BGE_DEBUG(("bge_m_multicst: hash 0x%x index %d (%d:0x%x) = %d", 879*4588Sml149210 hash, index, word, bit, *refp)); 8801369Sdduvall 8811369Sdduvall /* 8821369Sdduvall * We must set the appropriate bit in the hash map (and the 8831369Sdduvall * corresponding h/w register) when the refcount goes from 0 8841369Sdduvall * to >0, and clear it when the last ref goes away (refcount 8851369Sdduvall * goes from >0 back to 0). If we change the hash map, we 8861369Sdduvall * must also update the chip's hardware map registers. 8871369Sdduvall */ 8881369Sdduvall mutex_enter(bgep->genlock); 8891865Sdilpreet if (!(bgep->progress & PROGRESS_INTR)) { 8901865Sdilpreet /* can happen during autorecovery */ 8911865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 8921865Sdilpreet mutex_exit(bgep->genlock); 8931865Sdilpreet return (EIO); 8941865Sdilpreet } 8951369Sdduvall if (add) { 8961369Sdduvall if ((*refp)++ == 0) { 8971369Sdduvall bgep->mcast_hash[word] |= bit; 8981408Srandyf #ifdef BGE_IPMI_ASF 8991865Sdilpreet if (bge_chip_sync(bgep, B_TRUE) == DDI_FAILURE) { 9001408Srandyf #else 9011865Sdilpreet if (bge_chip_sync(bgep) == DDI_FAILURE) { 9021408Srandyf #endif 9031865Sdilpreet (void) bge_check_acc_handle(bgep, 9041865Sdilpreet bgep->cfg_handle); 9051865Sdilpreet (void) bge_check_acc_handle(bgep, 9061865Sdilpreet bgep->io_handle); 9071865Sdilpreet ddi_fm_service_impact(bgep->devinfo, 9081865Sdilpreet DDI_SERVICE_DEGRADED); 9091865Sdilpreet mutex_exit(bgep->genlock); 9101865Sdilpreet return (EIO); 9111865Sdilpreet } 9121369Sdduvall } 9131369Sdduvall } else { 9141369Sdduvall if (--(*refp) == 0) { 9151369Sdduvall bgep->mcast_hash[word] &= ~bit; 9161408Srandyf #ifdef BGE_IPMI_ASF 9171865Sdilpreet if (bge_chip_sync(bgep, B_TRUE) == DDI_FAILURE) { 9181408Srandyf #else 9191865Sdilpreet if (bge_chip_sync(bgep) == DDI_FAILURE) { 9201408Srandyf #endif 9211865Sdilpreet (void) bge_check_acc_handle(bgep, 9221865Sdilpreet bgep->cfg_handle); 9231865Sdilpreet (void) bge_check_acc_handle(bgep, 9241865Sdilpreet bgep->io_handle); 9251865Sdilpreet ddi_fm_service_impact(bgep->devinfo, 9261865Sdilpreet DDI_SERVICE_DEGRADED); 9271865Sdilpreet mutex_exit(bgep->genlock); 9281865Sdilpreet return (EIO); 9291865Sdilpreet } 9301369Sdduvall } 9311369Sdduvall } 9321369Sdduvall BGE_DEBUG(("bge_m_multicst($%p) done", arg)); 9331865Sdilpreet if (bge_check_acc_handle(bgep, bgep->cfg_handle) != DDI_FM_OK) { 9341865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 9351865Sdilpreet mutex_exit(bgep->genlock); 9361865Sdilpreet return (EIO); 9371865Sdilpreet } 9381865Sdilpreet if (bge_check_acc_handle(bgep, bgep->io_handle) != DDI_FM_OK) { 9391865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 9401865Sdilpreet mutex_exit(bgep->genlock); 9411865Sdilpreet return (EIO); 9421865Sdilpreet } 9431369Sdduvall mutex_exit(bgep->genlock); 9441369Sdduvall 9451369Sdduvall return (0); 9461369Sdduvall } 9471369Sdduvall 9481369Sdduvall /* 9491369Sdduvall * bge_m_promisc() -- set or reset promiscuous mode on the board 9501369Sdduvall * 9511369Sdduvall * Program the hardware to enable/disable promiscuous and/or 9521369Sdduvall * receive-all-multicast modes. 9531369Sdduvall */ 9541369Sdduvall static int 9551369Sdduvall bge_m_promisc(void *arg, boolean_t on) 9561369Sdduvall { 9571369Sdduvall bge_t *bgep = arg; 9581369Sdduvall 9591369Sdduvall BGE_TRACE(("bge_m_promisc_set($%p, %d)", arg, on)); 9601369Sdduvall 9611369Sdduvall /* 9621369Sdduvall * Store MAC layer specified mode and pass to chip layer to update h/w 9631369Sdduvall */ 9641369Sdduvall mutex_enter(bgep->genlock); 9651865Sdilpreet if (!(bgep->progress & PROGRESS_INTR)) { 9661865Sdilpreet /* can happen during autorecovery */ 9671865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 9681865Sdilpreet mutex_exit(bgep->genlock); 9691865Sdilpreet return (EIO); 9701865Sdilpreet } 9711369Sdduvall bgep->promisc = on; 9721408Srandyf #ifdef BGE_IPMI_ASF 9731865Sdilpreet if (bge_chip_sync(bgep, B_TRUE) == DDI_FAILURE) { 9741408Srandyf #else 9751865Sdilpreet if (bge_chip_sync(bgep) == DDI_FAILURE) { 9761408Srandyf #endif 9771865Sdilpreet (void) bge_check_acc_handle(bgep, bgep->cfg_handle); 9781865Sdilpreet (void) bge_check_acc_handle(bgep, bgep->io_handle); 9791865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 9801865Sdilpreet mutex_exit(bgep->genlock); 9811865Sdilpreet return (EIO); 9821865Sdilpreet } 9831369Sdduvall BGE_DEBUG(("bge_m_promisc_set($%p) done", arg)); 9841865Sdilpreet if (bge_check_acc_handle(bgep, bgep->cfg_handle) != DDI_FM_OK) { 9851865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 9861865Sdilpreet mutex_exit(bgep->genlock); 9871865Sdilpreet return (EIO); 9881865Sdilpreet } 9891865Sdilpreet if (bge_check_acc_handle(bgep, bgep->io_handle) != DDI_FM_OK) { 9901865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 9911865Sdilpreet mutex_exit(bgep->genlock); 9921865Sdilpreet return (EIO); 9931865Sdilpreet } 9941369Sdduvall mutex_exit(bgep->genlock); 9951369Sdduvall return (0); 9961369Sdduvall } 9971369Sdduvall 9982311Sseb /*ARGSUSED*/ 9992311Sseb static boolean_t 10002311Sseb bge_m_getcapab(void *arg, mac_capab_t cap, void *cap_data) 10012311Sseb { 10022331Skrgopi bge_t *bgep = arg; 10032331Skrgopi 10042311Sseb switch (cap) { 10052311Sseb case MAC_CAPAB_HCKSUM: { 10062311Sseb uint32_t *txflags = cap_data; 10072311Sseb 10082311Sseb *txflags = HCKSUM_INET_FULL_V4 | HCKSUM_IPHDRCKSUM; 10092311Sseb break; 10102311Sseb } 10112331Skrgopi 10122311Sseb case MAC_CAPAB_POLL: 10132311Sseb /* 10142311Sseb * There's nothing for us to fill in, simply returning 10152311Sseb * B_TRUE stating that we support polling is sufficient. 10162311Sseb */ 10172311Sseb break; 10182331Skrgopi 10192331Skrgopi case MAC_CAPAB_MULTIADDRESS: { 10202331Skrgopi multiaddress_capab_t *mmacp = cap_data; 10212331Skrgopi 10222331Skrgopi mutex_enter(bgep->genlock); 10232406Skrgopi /* 10242406Skrgopi * The number of MAC addresses made available by 10252406Skrgopi * this capability is one less than the total as 10262406Skrgopi * the primary address in slot 0 is counted in 10272406Skrgopi * the total. 10282406Skrgopi */ 10292406Skrgopi mmacp->maddr_naddr = bgep->unicst_addr_total - 1; 10302331Skrgopi mmacp->maddr_naddrfree = bgep->unicst_addr_avail; 10312331Skrgopi /* No multiple factory addresses, set mma_flag to 0 */ 10322331Skrgopi mmacp->maddr_flag = 0; 10332331Skrgopi mmacp->maddr_handle = bgep; 10342331Skrgopi mmacp->maddr_add = bge_m_unicst_add; 10352331Skrgopi mmacp->maddr_remove = bge_m_unicst_remove; 10362331Skrgopi mmacp->maddr_modify = bge_m_unicst_modify; 10372331Skrgopi mmacp->maddr_get = bge_m_unicst_get; 10382331Skrgopi mmacp->maddr_reserve = NULL; 10392331Skrgopi mutex_exit(bgep->genlock); 10402331Skrgopi break; 10412331Skrgopi } 10422331Skrgopi 10432311Sseb default: 10442311Sseb return (B_FALSE); 10452311Sseb } 10462311Sseb return (B_TRUE); 10472311Sseb } 10482311Sseb 10491369Sdduvall /* 10501369Sdduvall * Loopback ioctl code 10511369Sdduvall */ 10521369Sdduvall 10531369Sdduvall static lb_property_t loopmodes[] = { 10541369Sdduvall { normal, "normal", BGE_LOOP_NONE }, 10551369Sdduvall { external, "1000Mbps", BGE_LOOP_EXTERNAL_1000 }, 10561369Sdduvall { external, "100Mbps", BGE_LOOP_EXTERNAL_100 }, 10571369Sdduvall { external, "10Mbps", BGE_LOOP_EXTERNAL_10 }, 10581369Sdduvall { internal, "PHY", BGE_LOOP_INTERNAL_PHY }, 10591369Sdduvall { internal, "MAC", BGE_LOOP_INTERNAL_MAC } 10601369Sdduvall }; 10611369Sdduvall 10621369Sdduvall static enum ioc_reply 10631369Sdduvall bge_set_loop_mode(bge_t *bgep, uint32_t mode) 10641369Sdduvall { 10651369Sdduvall /* 10661369Sdduvall * If the mode isn't being changed, there's nothing to do ... 10671369Sdduvall */ 10681369Sdduvall if (mode == bgep->param_loop_mode) 10691369Sdduvall return (IOC_ACK); 10701369Sdduvall 10711369Sdduvall /* 10721369Sdduvall * Validate the requested mode and prepare a suitable message 10731369Sdduvall * to explain the link down/up cycle that the change will 10741369Sdduvall * probably induce ... 10751369Sdduvall */ 10761369Sdduvall switch (mode) { 10771369Sdduvall default: 10781369Sdduvall return (IOC_INVAL); 10791369Sdduvall 10801369Sdduvall case BGE_LOOP_NONE: 10811369Sdduvall case BGE_LOOP_EXTERNAL_1000: 10821369Sdduvall case BGE_LOOP_EXTERNAL_100: 10831369Sdduvall case BGE_LOOP_EXTERNAL_10: 10841369Sdduvall case BGE_LOOP_INTERNAL_PHY: 10851369Sdduvall case BGE_LOOP_INTERNAL_MAC: 10861369Sdduvall break; 10871369Sdduvall } 10881369Sdduvall 10891369Sdduvall /* 10901369Sdduvall * All OK; tell the caller to reprogram 10911369Sdduvall * the PHY and/or MAC for the new mode ... 10921369Sdduvall */ 10931369Sdduvall bgep->param_loop_mode = mode; 10941369Sdduvall return (IOC_RESTART_ACK); 10951369Sdduvall } 10961369Sdduvall 10971369Sdduvall static enum ioc_reply 10981369Sdduvall bge_loop_ioctl(bge_t *bgep, queue_t *wq, mblk_t *mp, struct iocblk *iocp) 10991369Sdduvall { 11001369Sdduvall lb_info_sz_t *lbsp; 11011369Sdduvall lb_property_t *lbpp; 11021369Sdduvall uint32_t *lbmp; 11031369Sdduvall int cmd; 11041369Sdduvall 11051369Sdduvall _NOTE(ARGUNUSED(wq)) 11061369Sdduvall 11071369Sdduvall /* 11081369Sdduvall * Validate format of ioctl 11091369Sdduvall */ 11101369Sdduvall if (mp->b_cont == NULL) 11111369Sdduvall return (IOC_INVAL); 11121369Sdduvall 11131369Sdduvall cmd = iocp->ioc_cmd; 11141369Sdduvall switch (cmd) { 11151369Sdduvall default: 11161369Sdduvall /* NOTREACHED */ 11171369Sdduvall bge_error(bgep, "bge_loop_ioctl: invalid cmd 0x%x", cmd); 11181369Sdduvall return (IOC_INVAL); 11191369Sdduvall 11201369Sdduvall case LB_GET_INFO_SIZE: 11211369Sdduvall if (iocp->ioc_count != sizeof (lb_info_sz_t)) 11221369Sdduvall return (IOC_INVAL); 11231369Sdduvall lbsp = (lb_info_sz_t *)mp->b_cont->b_rptr; 11241369Sdduvall *lbsp = sizeof (loopmodes); 11251369Sdduvall return (IOC_REPLY); 11261369Sdduvall 11271369Sdduvall case LB_GET_INFO: 11281369Sdduvall if (iocp->ioc_count != sizeof (loopmodes)) 11291369Sdduvall return (IOC_INVAL); 11301369Sdduvall lbpp = (lb_property_t *)mp->b_cont->b_rptr; 11311369Sdduvall bcopy(loopmodes, lbpp, sizeof (loopmodes)); 11321369Sdduvall return (IOC_REPLY); 11331369Sdduvall 11341369Sdduvall case LB_GET_MODE: 11351369Sdduvall if (iocp->ioc_count != sizeof (uint32_t)) 11361369Sdduvall return (IOC_INVAL); 11371369Sdduvall lbmp = (uint32_t *)mp->b_cont->b_rptr; 11381369Sdduvall *lbmp = bgep->param_loop_mode; 11391369Sdduvall return (IOC_REPLY); 11401369Sdduvall 11411369Sdduvall case LB_SET_MODE: 11421369Sdduvall if (iocp->ioc_count != sizeof (uint32_t)) 11431369Sdduvall return (IOC_INVAL); 11441369Sdduvall lbmp = (uint32_t *)mp->b_cont->b_rptr; 11451369Sdduvall return (bge_set_loop_mode(bgep, *lbmp)); 11461369Sdduvall } 11471369Sdduvall } 11481369Sdduvall 11491369Sdduvall /* 11501369Sdduvall * Specific bge IOCTLs, the gld module handles the generic ones. 11511369Sdduvall */ 11521369Sdduvall static void 11531369Sdduvall bge_m_ioctl(void *arg, queue_t *wq, mblk_t *mp) 11541369Sdduvall { 11551369Sdduvall bge_t *bgep = arg; 11561369Sdduvall struct iocblk *iocp; 11571369Sdduvall enum ioc_reply status; 11581369Sdduvall boolean_t need_privilege; 11591369Sdduvall int err; 11601369Sdduvall int cmd; 11611369Sdduvall 11621369Sdduvall /* 11631369Sdduvall * Validate the command before bothering with the mutex ... 11641369Sdduvall */ 11651369Sdduvall iocp = (struct iocblk *)mp->b_rptr; 11661369Sdduvall iocp->ioc_error = 0; 11671369Sdduvall need_privilege = B_TRUE; 11681369Sdduvall cmd = iocp->ioc_cmd; 11691369Sdduvall switch (cmd) { 11701369Sdduvall default: 11711369Sdduvall miocnak(wq, mp, 0, EINVAL); 11721369Sdduvall return; 11731369Sdduvall 11741369Sdduvall case BGE_MII_READ: 11751369Sdduvall case BGE_MII_WRITE: 11761369Sdduvall case BGE_SEE_READ: 11771369Sdduvall case BGE_SEE_WRITE: 11782675Szh199473 case BGE_FLASH_READ: 11792675Szh199473 case BGE_FLASH_WRITE: 11801369Sdduvall case BGE_DIAG: 11811369Sdduvall case BGE_PEEK: 11821369Sdduvall case BGE_POKE: 11831369Sdduvall case BGE_PHY_RESET: 11841369Sdduvall case BGE_SOFT_RESET: 11851369Sdduvall case BGE_HARD_RESET: 11861369Sdduvall break; 11871369Sdduvall 11881369Sdduvall case LB_GET_INFO_SIZE: 11891369Sdduvall case LB_GET_INFO: 11901369Sdduvall case LB_GET_MODE: 11911369Sdduvall need_privilege = B_FALSE; 11921369Sdduvall /* FALLTHRU */ 11931369Sdduvall case LB_SET_MODE: 11941369Sdduvall break; 11951369Sdduvall 11961369Sdduvall case ND_GET: 11971369Sdduvall need_privilege = B_FALSE; 11981369Sdduvall /* FALLTHRU */ 11991369Sdduvall case ND_SET: 12001369Sdduvall break; 12011369Sdduvall } 12021369Sdduvall 12031369Sdduvall if (need_privilege) { 12041369Sdduvall /* 12051369Sdduvall * Check for specific net_config privilege on Solaris 10+. 12061369Sdduvall */ 12072681Sgs150176 err = secpolicy_net_config(iocp->ioc_cr, B_FALSE); 12081369Sdduvall if (err != 0) { 12091369Sdduvall miocnak(wq, mp, 0, err); 12101369Sdduvall return; 12111369Sdduvall } 12121369Sdduvall } 12131369Sdduvall 12141369Sdduvall mutex_enter(bgep->genlock); 12151865Sdilpreet if (!(bgep->progress & PROGRESS_INTR)) { 12161865Sdilpreet /* can happen during autorecovery */ 12171865Sdilpreet mutex_exit(bgep->genlock); 12181865Sdilpreet miocnak(wq, mp, 0, EIO); 12191865Sdilpreet return; 12201865Sdilpreet } 12211369Sdduvall 12221369Sdduvall switch (cmd) { 12231369Sdduvall default: 12241369Sdduvall _NOTE(NOTREACHED) 12251369Sdduvall status = IOC_INVAL; 12261369Sdduvall break; 12271369Sdduvall 12281369Sdduvall case BGE_MII_READ: 12291369Sdduvall case BGE_MII_WRITE: 12301369Sdduvall case BGE_SEE_READ: 12311369Sdduvall case BGE_SEE_WRITE: 12322675Szh199473 case BGE_FLASH_READ: 12332675Szh199473 case BGE_FLASH_WRITE: 12341369Sdduvall case BGE_DIAG: 12351369Sdduvall case BGE_PEEK: 12361369Sdduvall case BGE_POKE: 12371369Sdduvall case BGE_PHY_RESET: 12381369Sdduvall case BGE_SOFT_RESET: 12391369Sdduvall case BGE_HARD_RESET: 12401369Sdduvall status = bge_chip_ioctl(bgep, wq, mp, iocp); 12411369Sdduvall break; 12421369Sdduvall 12431369Sdduvall case LB_GET_INFO_SIZE: 12441369Sdduvall case LB_GET_INFO: 12451369Sdduvall case LB_GET_MODE: 12461369Sdduvall case LB_SET_MODE: 12471369Sdduvall status = bge_loop_ioctl(bgep, wq, mp, iocp); 12481369Sdduvall break; 12491369Sdduvall 12501369Sdduvall case ND_GET: 12511369Sdduvall case ND_SET: 12521369Sdduvall status = bge_nd_ioctl(bgep, wq, mp, iocp); 12531369Sdduvall break; 12541369Sdduvall } 12551369Sdduvall 12561369Sdduvall /* 12571369Sdduvall * Do we need to reprogram the PHY and/or the MAC? 12581369Sdduvall * Do it now, while we still have the mutex. 12591369Sdduvall * 12601369Sdduvall * Note: update the PHY first, 'cos it controls the 12611369Sdduvall * speed/duplex parameters that the MAC code uses. 12621369Sdduvall */ 12631369Sdduvall switch (status) { 12641369Sdduvall case IOC_RESTART_REPLY: 12651369Sdduvall case IOC_RESTART_ACK: 12661865Sdilpreet if (bge_phys_update(bgep) != DDI_SUCCESS) { 12671865Sdilpreet ddi_fm_service_impact(bgep->devinfo, 12681865Sdilpreet DDI_SERVICE_DEGRADED); 12691865Sdilpreet status = IOC_INVAL; 12701865Sdilpreet } 12711408Srandyf #ifdef BGE_IPMI_ASF 12722675Szh199473 if (bge_chip_sync(bgep, B_TRUE) == DDI_FAILURE) { 12731408Srandyf #else 12741865Sdilpreet if (bge_chip_sync(bgep) == DDI_FAILURE) { 12751408Srandyf #endif 12761865Sdilpreet ddi_fm_service_impact(bgep->devinfo, 12771865Sdilpreet DDI_SERVICE_DEGRADED); 12781865Sdilpreet status = IOC_INVAL; 12791865Sdilpreet } 12801369Sdduvall if (bgep->intr_type == DDI_INTR_TYPE_MSI) 12811369Sdduvall bge_chip_msi_trig(bgep); 12821369Sdduvall break; 12831369Sdduvall } 12841369Sdduvall 12851865Sdilpreet if (bge_check_acc_handle(bgep, bgep->cfg_handle) != DDI_FM_OK) { 12861865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 12871865Sdilpreet status = IOC_INVAL; 12881865Sdilpreet } 12891865Sdilpreet if (bge_check_acc_handle(bgep, bgep->io_handle) != DDI_FM_OK) { 12901865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 12911865Sdilpreet status = IOC_INVAL; 12921865Sdilpreet } 12931369Sdduvall mutex_exit(bgep->genlock); 12941369Sdduvall 12951369Sdduvall /* 12961369Sdduvall * Finally, decide how to reply 12971369Sdduvall */ 12981369Sdduvall switch (status) { 12991369Sdduvall default: 13001369Sdduvall case IOC_INVAL: 13011369Sdduvall /* 13021369Sdduvall * Error, reply with a NAK and EINVAL or the specified error 13031369Sdduvall */ 13041369Sdduvall miocnak(wq, mp, 0, iocp->ioc_error == 0 ? 1305*4588Sml149210 EINVAL : iocp->ioc_error); 13061369Sdduvall break; 13071369Sdduvall 13081369Sdduvall case IOC_DONE: 13091369Sdduvall /* 13101369Sdduvall * OK, reply already sent 13111369Sdduvall */ 13121369Sdduvall break; 13131369Sdduvall 13141369Sdduvall case IOC_RESTART_ACK: 13151369Sdduvall case IOC_ACK: 13161369Sdduvall /* 13171369Sdduvall * OK, reply with an ACK 13181369Sdduvall */ 13191369Sdduvall miocack(wq, mp, 0, 0); 13201369Sdduvall break; 13211369Sdduvall 13221369Sdduvall case IOC_RESTART_REPLY: 13231369Sdduvall case IOC_REPLY: 13241369Sdduvall /* 13251369Sdduvall * OK, send prepared reply as ACK or NAK 13261369Sdduvall */ 13271369Sdduvall mp->b_datap->db_type = iocp->ioc_error == 0 ? 1328*4588Sml149210 M_IOCACK : M_IOCNAK; 13291369Sdduvall qreply(wq, mp); 13301369Sdduvall break; 13311369Sdduvall } 13321369Sdduvall } 13331369Sdduvall 13341369Sdduvall static void 13351369Sdduvall bge_m_resources(void *arg) 13361369Sdduvall { 13371369Sdduvall bge_t *bgep = arg; 13381369Sdduvall recv_ring_t *rrp; 13391369Sdduvall mac_rx_fifo_t mrf; 13401369Sdduvall int ring; 13411369Sdduvall 13421369Sdduvall mutex_enter(bgep->genlock); 13431369Sdduvall 13441369Sdduvall /* 13451369Sdduvall * Register Rx rings as resources and save mac 13461369Sdduvall * resource id for future reference 13471369Sdduvall */ 13481369Sdduvall mrf.mrf_type = MAC_RX_FIFO; 13491369Sdduvall mrf.mrf_blank = bge_chip_blank; 13501369Sdduvall mrf.mrf_arg = (void *)bgep; 13511369Sdduvall mrf.mrf_normal_blank_time = bge_rx_ticks_norm; 13521369Sdduvall mrf.mrf_normal_pkt_count = bge_rx_count_norm; 13531369Sdduvall 13541369Sdduvall for (ring = 0; ring < bgep->chipid.rx_rings; ring++) { 13551369Sdduvall rrp = &bgep->recv[ring]; 13562311Sseb rrp->handle = mac_resource_add(bgep->mh, 13571369Sdduvall (mac_resource_t *)&mrf); 13581369Sdduvall } 13591369Sdduvall 13601369Sdduvall mutex_exit(bgep->genlock); 13611369Sdduvall } 13621369Sdduvall 13631369Sdduvall /* 13641369Sdduvall * ========== Per-instance setup/teardown code ========== 13651369Sdduvall */ 13661369Sdduvall 13671369Sdduvall #undef BGE_DBG 13681369Sdduvall #define BGE_DBG BGE_DBG_INIT /* debug flag for this code */ 13693334Sgs150176 /* 13703334Sgs150176 * Allocate an area of memory and a DMA handle for accessing it 13713334Sgs150176 */ 13723334Sgs150176 static int 13733334Sgs150176 bge_alloc_dma_mem(bge_t *bgep, size_t memsize, ddi_device_acc_attr_t *attr_p, 13743334Sgs150176 uint_t dma_flags, dma_area_t *dma_p) 13753334Sgs150176 { 13763334Sgs150176 caddr_t va; 13773334Sgs150176 int err; 13783334Sgs150176 13793334Sgs150176 BGE_TRACE(("bge_alloc_dma_mem($%p, %ld, $%p, 0x%x, $%p)", 1380*4588Sml149210 (void *)bgep, memsize, attr_p, dma_flags, dma_p)); 13813334Sgs150176 13823334Sgs150176 /* 13833334Sgs150176 * Allocate handle 13843334Sgs150176 */ 13853334Sgs150176 err = ddi_dma_alloc_handle(bgep->devinfo, &dma_attr, 1386*4588Sml149210 DDI_DMA_DONTWAIT, NULL, &dma_p->dma_hdl); 13873334Sgs150176 if (err != DDI_SUCCESS) 13883334Sgs150176 return (DDI_FAILURE); 13893334Sgs150176 13903334Sgs150176 /* 13913334Sgs150176 * Allocate memory 13923334Sgs150176 */ 13933334Sgs150176 err = ddi_dma_mem_alloc(dma_p->dma_hdl, memsize, attr_p, 1394*4588Sml149210 dma_flags, DDI_DMA_DONTWAIT, NULL, &va, &dma_p->alength, 1395*4588Sml149210 &dma_p->acc_hdl); 13963334Sgs150176 if (err != DDI_SUCCESS) 13973334Sgs150176 return (DDI_FAILURE); 13983334Sgs150176 13993334Sgs150176 /* 14003334Sgs150176 * Bind the two together 14013334Sgs150176 */ 14023334Sgs150176 dma_p->mem_va = va; 14033334Sgs150176 err = ddi_dma_addr_bind_handle(dma_p->dma_hdl, NULL, 1404*4588Sml149210 va, dma_p->alength, dma_flags, DDI_DMA_DONTWAIT, NULL, 1405*4588Sml149210 &dma_p->cookie, &dma_p->ncookies); 14063334Sgs150176 14073334Sgs150176 BGE_DEBUG(("bge_alloc_dma_mem(): bind %d bytes; err %d, %d cookies", 1408*4588Sml149210 dma_p->alength, err, dma_p->ncookies)); 14093334Sgs150176 14103334Sgs150176 if (err != DDI_DMA_MAPPED || dma_p->ncookies != 1) 14113334Sgs150176 return (DDI_FAILURE); 14123334Sgs150176 14133334Sgs150176 dma_p->nslots = ~0U; 14143334Sgs150176 dma_p->size = ~0U; 14153334Sgs150176 dma_p->token = ~0U; 14163334Sgs150176 dma_p->offset = 0; 14173334Sgs150176 return (DDI_SUCCESS); 14183334Sgs150176 } 14193334Sgs150176 14203334Sgs150176 /* 14213334Sgs150176 * Free one allocated area of DMAable memory 14223334Sgs150176 */ 14233334Sgs150176 static void 14243334Sgs150176 bge_free_dma_mem(dma_area_t *dma_p) 14253334Sgs150176 { 14263334Sgs150176 if (dma_p->dma_hdl != NULL) { 14273334Sgs150176 if (dma_p->ncookies) { 14283334Sgs150176 (void) ddi_dma_unbind_handle(dma_p->dma_hdl); 14293334Sgs150176 dma_p->ncookies = 0; 14303334Sgs150176 } 14313334Sgs150176 ddi_dma_free_handle(&dma_p->dma_hdl); 14323334Sgs150176 dma_p->dma_hdl = NULL; 14333334Sgs150176 } 14343334Sgs150176 14353334Sgs150176 if (dma_p->acc_hdl != NULL) { 14363334Sgs150176 ddi_dma_mem_free(&dma_p->acc_hdl); 14373334Sgs150176 dma_p->acc_hdl = NULL; 14383334Sgs150176 } 14393334Sgs150176 } 14401369Sdduvall /* 14411369Sdduvall * Utility routine to carve a slice off a chunk of allocated memory, 14421369Sdduvall * updating the chunk descriptor accordingly. The size of the slice 14431369Sdduvall * is given by the product of the <qty> and <size> parameters. 14441369Sdduvall */ 14451369Sdduvall static void 14461369Sdduvall bge_slice_chunk(dma_area_t *slice, dma_area_t *chunk, 14471369Sdduvall uint32_t qty, uint32_t size) 14481369Sdduvall { 14491369Sdduvall static uint32_t sequence = 0xbcd5704a; 14501369Sdduvall size_t totsize; 14511369Sdduvall 14521369Sdduvall totsize = qty*size; 14531369Sdduvall ASSERT(size >= 0); 14541369Sdduvall ASSERT(totsize <= chunk->alength); 14551369Sdduvall 14561369Sdduvall *slice = *chunk; 14571369Sdduvall slice->nslots = qty; 14581369Sdduvall slice->size = size; 14591369Sdduvall slice->alength = totsize; 14601369Sdduvall slice->token = ++sequence; 14611369Sdduvall 14621369Sdduvall chunk->mem_va = (caddr_t)chunk->mem_va + totsize; 14631369Sdduvall chunk->alength -= totsize; 14641369Sdduvall chunk->offset += totsize; 14651369Sdduvall chunk->cookie.dmac_laddress += totsize; 14661369Sdduvall chunk->cookie.dmac_size -= totsize; 14671369Sdduvall } 14681369Sdduvall 14691369Sdduvall /* 14701369Sdduvall * Initialise the specified Receive Producer (Buffer) Ring, using 14711369Sdduvall * the information in the <dma_area> descriptors that it contains 14721369Sdduvall * to set up all the other fields. This routine should be called 14731369Sdduvall * only once for each ring. 14741369Sdduvall */ 14751369Sdduvall static void 14761369Sdduvall bge_init_buff_ring(bge_t *bgep, uint64_t ring) 14771369Sdduvall { 14781369Sdduvall buff_ring_t *brp; 14791369Sdduvall bge_status_t *bsp; 14801369Sdduvall sw_rbd_t *srbdp; 14811369Sdduvall dma_area_t pbuf; 14821369Sdduvall uint32_t bufsize; 14831369Sdduvall uint32_t nslots; 14841369Sdduvall uint32_t slot; 14851369Sdduvall uint32_t split; 14861369Sdduvall 14871369Sdduvall static bge_regno_t nic_ring_addrs[BGE_BUFF_RINGS_MAX] = { 14881369Sdduvall NIC_MEM_SHADOW_BUFF_STD, 14891369Sdduvall NIC_MEM_SHADOW_BUFF_JUMBO, 14901369Sdduvall NIC_MEM_SHADOW_BUFF_MINI 14911369Sdduvall }; 14921369Sdduvall static bge_regno_t mailbox_regs[BGE_BUFF_RINGS_MAX] = { 14931369Sdduvall RECV_STD_PROD_INDEX_REG, 14941369Sdduvall RECV_JUMBO_PROD_INDEX_REG, 14951369Sdduvall RECV_MINI_PROD_INDEX_REG 14961369Sdduvall }; 14971369Sdduvall static bge_regno_t buff_cons_xref[BGE_BUFF_RINGS_MAX] = { 14981369Sdduvall STATUS_STD_BUFF_CONS_INDEX, 14991369Sdduvall STATUS_JUMBO_BUFF_CONS_INDEX, 15001369Sdduvall STATUS_MINI_BUFF_CONS_INDEX 15011369Sdduvall }; 15021369Sdduvall 15031369Sdduvall BGE_TRACE(("bge_init_buff_ring($%p, %d)", 1504*4588Sml149210 (void *)bgep, ring)); 15051369Sdduvall 15061369Sdduvall brp = &bgep->buff[ring]; 15071369Sdduvall nslots = brp->desc.nslots; 15081369Sdduvall ASSERT(brp->buf[0].nslots == nslots/BGE_SPLIT); 15091369Sdduvall bufsize = brp->buf[0].size; 15101369Sdduvall 15111369Sdduvall /* 15121369Sdduvall * Set up the copy of the h/w RCB 15131369Sdduvall * 15141369Sdduvall * Note: unlike Send & Receive Return Rings, (where the max_len 15151369Sdduvall * field holds the number of slots), in a Receive Buffer Ring 15161369Sdduvall * this field indicates the size of each buffer in the ring. 15171369Sdduvall */ 15181369Sdduvall brp->hw_rcb.host_ring_addr = brp->desc.cookie.dmac_laddress; 15191369Sdduvall brp->hw_rcb.max_len = bufsize; 15201369Sdduvall brp->hw_rcb.flags = nslots > 0 ? 0 : RCB_FLAG_RING_DISABLED; 15211369Sdduvall brp->hw_rcb.nic_ring_addr = nic_ring_addrs[ring]; 15221369Sdduvall 15231369Sdduvall /* 15241369Sdduvall * Other one-off initialisation of per-ring data 15251369Sdduvall */ 15261369Sdduvall brp->bgep = bgep; 15271369Sdduvall bsp = DMA_VPTR(bgep->status_block); 15281369Sdduvall brp->cons_index_p = &bsp->buff_cons_index[buff_cons_xref[ring]]; 15291369Sdduvall brp->chip_mbx_reg = mailbox_regs[ring]; 15301369Sdduvall mutex_init(brp->rf_lock, NULL, MUTEX_DRIVER, 15311369Sdduvall DDI_INTR_PRI(bgep->intr_pri)); 15321369Sdduvall 15331369Sdduvall /* 15341369Sdduvall * Allocate the array of s/w Receive Buffer Descriptors 15351369Sdduvall */ 15361369Sdduvall srbdp = kmem_zalloc(nslots*sizeof (*srbdp), KM_SLEEP); 15371369Sdduvall brp->sw_rbds = srbdp; 15381369Sdduvall 15391369Sdduvall /* 15401369Sdduvall * Now initialise each array element once and for all 15411369Sdduvall */ 15421369Sdduvall for (split = 0; split < BGE_SPLIT; ++split) { 15431369Sdduvall pbuf = brp->buf[split]; 15441369Sdduvall for (slot = 0; slot < nslots/BGE_SPLIT; ++srbdp, ++slot) 15451369Sdduvall bge_slice_chunk(&srbdp->pbuf, &pbuf, 1, bufsize); 15461369Sdduvall ASSERT(pbuf.alength == 0); 15471369Sdduvall } 15481369Sdduvall } 15491369Sdduvall 15501369Sdduvall /* 15511369Sdduvall * Clean up initialisation done above before the memory is freed 15521369Sdduvall */ 15531369Sdduvall static void 15541369Sdduvall bge_fini_buff_ring(bge_t *bgep, uint64_t ring) 15551369Sdduvall { 15561369Sdduvall buff_ring_t *brp; 15571369Sdduvall sw_rbd_t *srbdp; 15581369Sdduvall 15591369Sdduvall BGE_TRACE(("bge_fini_buff_ring($%p, %d)", 1560*4588Sml149210 (void *)bgep, ring)); 15611369Sdduvall 15621369Sdduvall brp = &bgep->buff[ring]; 15631369Sdduvall srbdp = brp->sw_rbds; 15641369Sdduvall kmem_free(srbdp, brp->desc.nslots*sizeof (*srbdp)); 15651369Sdduvall 15661369Sdduvall mutex_destroy(brp->rf_lock); 15671369Sdduvall } 15681369Sdduvall 15691369Sdduvall /* 15701369Sdduvall * Initialise the specified Receive (Return) Ring, using the 15711369Sdduvall * information in the <dma_area> descriptors that it contains 15721369Sdduvall * to set up all the other fields. This routine should be called 15731369Sdduvall * only once for each ring. 15741369Sdduvall */ 15751369Sdduvall static void 15761369Sdduvall bge_init_recv_ring(bge_t *bgep, uint64_t ring) 15771369Sdduvall { 15781369Sdduvall recv_ring_t *rrp; 15791369Sdduvall bge_status_t *bsp; 15801369Sdduvall uint32_t nslots; 15811369Sdduvall 15821369Sdduvall BGE_TRACE(("bge_init_recv_ring($%p, %d)", 1583*4588Sml149210 (void *)bgep, ring)); 15841369Sdduvall 15851369Sdduvall /* 15861369Sdduvall * The chip architecture requires that receive return rings have 15871369Sdduvall * 512 or 1024 or 2048 elements per ring. See 570X-PG108-R page 103. 15881369Sdduvall */ 15891369Sdduvall rrp = &bgep->recv[ring]; 15901369Sdduvall nslots = rrp->desc.nslots; 15911369Sdduvall ASSERT(nslots == 0 || nslots == 512 || 1592*4588Sml149210 nslots == 1024 || nslots == 2048); 15931369Sdduvall 15941369Sdduvall /* 15951369Sdduvall * Set up the copy of the h/w RCB 15961369Sdduvall */ 15971369Sdduvall rrp->hw_rcb.host_ring_addr = rrp->desc.cookie.dmac_laddress; 15981369Sdduvall rrp->hw_rcb.max_len = nslots; 15991369Sdduvall rrp->hw_rcb.flags = nslots > 0 ? 0 : RCB_FLAG_RING_DISABLED; 16001369Sdduvall rrp->hw_rcb.nic_ring_addr = 0; 16011369Sdduvall 16021369Sdduvall /* 16031369Sdduvall * Other one-off initialisation of per-ring data 16041369Sdduvall */ 16051369Sdduvall rrp->bgep = bgep; 16061369Sdduvall bsp = DMA_VPTR(bgep->status_block); 16071369Sdduvall rrp->prod_index_p = RECV_INDEX_P(bsp, ring); 16081369Sdduvall rrp->chip_mbx_reg = RECV_RING_CONS_INDEX_REG(ring); 16091369Sdduvall mutex_init(rrp->rx_lock, NULL, MUTEX_DRIVER, 16101369Sdduvall DDI_INTR_PRI(bgep->intr_pri)); 16111369Sdduvall } 16121369Sdduvall 16131369Sdduvall 16141369Sdduvall /* 16151369Sdduvall * Clean up initialisation done above before the memory is freed 16161369Sdduvall */ 16171369Sdduvall static void 16181369Sdduvall bge_fini_recv_ring(bge_t *bgep, uint64_t ring) 16191369Sdduvall { 16201369Sdduvall recv_ring_t *rrp; 16211369Sdduvall 16221369Sdduvall BGE_TRACE(("bge_fini_recv_ring($%p, %d)", 1623*4588Sml149210 (void *)bgep, ring)); 16241369Sdduvall 16251369Sdduvall rrp = &bgep->recv[ring]; 16261369Sdduvall if (rrp->rx_softint) 16271369Sdduvall ddi_remove_softintr(rrp->rx_softint); 16281369Sdduvall mutex_destroy(rrp->rx_lock); 16291369Sdduvall } 16301369Sdduvall 16311369Sdduvall /* 16321369Sdduvall * Initialise the specified Send Ring, using the information in the 16331369Sdduvall * <dma_area> descriptors that it contains to set up all the other 16341369Sdduvall * fields. This routine should be called only once for each ring. 16351369Sdduvall */ 16361369Sdduvall static void 16371369Sdduvall bge_init_send_ring(bge_t *bgep, uint64_t ring) 16381369Sdduvall { 16391369Sdduvall send_ring_t *srp; 16401369Sdduvall bge_status_t *bsp; 16411369Sdduvall sw_sbd_t *ssbdp; 16421369Sdduvall dma_area_t desc; 16431369Sdduvall dma_area_t pbuf; 16441369Sdduvall uint32_t nslots; 16451369Sdduvall uint32_t slot; 16461369Sdduvall uint32_t split; 16473334Sgs150176 sw_txbuf_t *txbuf; 16481369Sdduvall 16491369Sdduvall BGE_TRACE(("bge_init_send_ring($%p, %d)", 1650*4588Sml149210 (void *)bgep, ring)); 16511369Sdduvall 16521369Sdduvall /* 16531369Sdduvall * The chip architecture requires that host-based send rings 16541369Sdduvall * have 512 elements per ring. See 570X-PG102-R page 56. 16551369Sdduvall */ 16561369Sdduvall srp = &bgep->send[ring]; 16571369Sdduvall nslots = srp->desc.nslots; 16581369Sdduvall ASSERT(nslots == 0 || nslots == 512); 16591369Sdduvall 16601369Sdduvall /* 16611369Sdduvall * Set up the copy of the h/w RCB 16621369Sdduvall */ 16631369Sdduvall srp->hw_rcb.host_ring_addr = srp->desc.cookie.dmac_laddress; 16641369Sdduvall srp->hw_rcb.max_len = nslots; 16651369Sdduvall srp->hw_rcb.flags = nslots > 0 ? 0 : RCB_FLAG_RING_DISABLED; 16661369Sdduvall srp->hw_rcb.nic_ring_addr = NIC_MEM_SHADOW_SEND_RING(ring, nslots); 16671369Sdduvall 16681369Sdduvall /* 16691369Sdduvall * Other one-off initialisation of per-ring data 16701369Sdduvall */ 16711369Sdduvall srp->bgep = bgep; 16721369Sdduvall bsp = DMA_VPTR(bgep->status_block); 16731369Sdduvall srp->cons_index_p = SEND_INDEX_P(bsp, ring); 16741369Sdduvall srp->chip_mbx_reg = SEND_RING_HOST_INDEX_REG(ring); 16751369Sdduvall mutex_init(srp->tx_lock, NULL, MUTEX_DRIVER, 16761369Sdduvall DDI_INTR_PRI(bgep->intr_pri)); 16773334Sgs150176 mutex_init(srp->txbuf_lock, NULL, MUTEX_DRIVER, 16783334Sgs150176 DDI_INTR_PRI(bgep->intr_pri)); 16793334Sgs150176 mutex_init(srp->freetxbuf_lock, NULL, MUTEX_DRIVER, 16803334Sgs150176 DDI_INTR_PRI(bgep->intr_pri)); 16811369Sdduvall mutex_init(srp->tc_lock, NULL, MUTEX_DRIVER, 16821369Sdduvall DDI_INTR_PRI(bgep->intr_pri)); 16833334Sgs150176 if (nslots == 0) 16843334Sgs150176 return; 16851369Sdduvall 16861369Sdduvall /* 16871369Sdduvall * Allocate the array of s/w Send Buffer Descriptors 16881369Sdduvall */ 16891369Sdduvall ssbdp = kmem_zalloc(nslots*sizeof (*ssbdp), KM_SLEEP); 16903334Sgs150176 txbuf = kmem_zalloc(BGE_SEND_BUF_MAX*sizeof (*txbuf), KM_SLEEP); 16913334Sgs150176 srp->txbuf_head = 16923334Sgs150176 kmem_zalloc(BGE_SEND_BUF_MAX*sizeof (bge_queue_item_t), KM_SLEEP); 16933334Sgs150176 srp->pktp = kmem_zalloc(BGE_SEND_BUF_MAX*sizeof (send_pkt_t), KM_SLEEP); 16941369Sdduvall srp->sw_sbds = ssbdp; 16953334Sgs150176 srp->txbuf = txbuf; 16963334Sgs150176 srp->tx_buffers = BGE_SEND_BUF_NUM; 16973334Sgs150176 srp->tx_buffers_low = srp->tx_buffers / 4; 16983334Sgs150176 if (bgep->chipid.snd_buff_size > BGE_SEND_BUFF_SIZE_DEFAULT) 16993334Sgs150176 srp->tx_array_max = BGE_SEND_BUF_ARRAY_JUMBO; 17003334Sgs150176 else 17013334Sgs150176 srp->tx_array_max = BGE_SEND_BUF_ARRAY; 17023334Sgs150176 srp->tx_array = 1; 17031369Sdduvall 17041369Sdduvall /* 17053334Sgs150176 * Chunk tx desc area 17061369Sdduvall */ 17071369Sdduvall desc = srp->desc; 17083334Sgs150176 for (slot = 0; slot < nslots; ++ssbdp, ++slot) { 17093334Sgs150176 bge_slice_chunk(&ssbdp->desc, &desc, 1, 17103334Sgs150176 sizeof (bge_sbd_t)); 17113334Sgs150176 } 17123334Sgs150176 ASSERT(desc.alength == 0); 17133334Sgs150176 17143334Sgs150176 /* 17153334Sgs150176 * Chunk tx buffer area 17163334Sgs150176 */ 17171369Sdduvall for (split = 0; split < BGE_SPLIT; ++split) { 17183334Sgs150176 pbuf = srp->buf[0][split]; 17193334Sgs150176 for (slot = 0; slot < BGE_SEND_BUF_NUM/BGE_SPLIT; ++slot) { 17203334Sgs150176 bge_slice_chunk(&txbuf->buf, &pbuf, 1, 17213334Sgs150176 bgep->chipid.snd_buff_size); 17223334Sgs150176 txbuf++; 17231369Sdduvall } 17241369Sdduvall ASSERT(pbuf.alength == 0); 17251369Sdduvall } 17261369Sdduvall } 17271369Sdduvall 17281369Sdduvall /* 17291369Sdduvall * Clean up initialisation done above before the memory is freed 17301369Sdduvall */ 17311369Sdduvall static void 17321369Sdduvall bge_fini_send_ring(bge_t *bgep, uint64_t ring) 17331369Sdduvall { 17341369Sdduvall send_ring_t *srp; 17353334Sgs150176 uint32_t array; 17363334Sgs150176 uint32_t split; 17373334Sgs150176 uint32_t nslots; 17381369Sdduvall 17391369Sdduvall BGE_TRACE(("bge_fini_send_ring($%p, %d)", 1740*4588Sml149210 (void *)bgep, ring)); 17411369Sdduvall 17421369Sdduvall srp = &bgep->send[ring]; 17433334Sgs150176 mutex_destroy(srp->tc_lock); 17443334Sgs150176 mutex_destroy(srp->freetxbuf_lock); 17453334Sgs150176 mutex_destroy(srp->txbuf_lock); 17461369Sdduvall mutex_destroy(srp->tx_lock); 17473334Sgs150176 nslots = srp->desc.nslots; 17483334Sgs150176 if (nslots == 0) 17493334Sgs150176 return; 17503334Sgs150176 17513334Sgs150176 for (array = 1; array < srp->tx_array; ++array) 17523334Sgs150176 for (split = 0; split < BGE_SPLIT; ++split) 17533334Sgs150176 bge_free_dma_mem(&srp->buf[array][split]); 17543334Sgs150176 kmem_free(srp->sw_sbds, nslots*sizeof (*srp->sw_sbds)); 17553334Sgs150176 kmem_free(srp->txbuf_head, BGE_SEND_BUF_MAX*sizeof (*srp->txbuf_head)); 17563334Sgs150176 kmem_free(srp->txbuf, BGE_SEND_BUF_MAX*sizeof (*srp->txbuf)); 17573334Sgs150176 kmem_free(srp->pktp, BGE_SEND_BUF_MAX*sizeof (*srp->pktp)); 17583334Sgs150176 srp->sw_sbds = NULL; 17593334Sgs150176 srp->txbuf_head = NULL; 17603334Sgs150176 srp->txbuf = NULL; 17613334Sgs150176 srp->pktp = NULL; 17621369Sdduvall } 17631369Sdduvall 17641369Sdduvall /* 17651369Sdduvall * Initialise all transmit, receive, and buffer rings. 17661369Sdduvall */ 17671865Sdilpreet void 17681369Sdduvall bge_init_rings(bge_t *bgep) 17691369Sdduvall { 17703334Sgs150176 uint32_t ring; 17711369Sdduvall 17721369Sdduvall BGE_TRACE(("bge_init_rings($%p)", (void *)bgep)); 17731369Sdduvall 17741369Sdduvall /* 17751369Sdduvall * Perform one-off initialisation of each ring ... 17761369Sdduvall */ 17771369Sdduvall for (ring = 0; ring < BGE_SEND_RINGS_MAX; ++ring) 17781369Sdduvall bge_init_send_ring(bgep, ring); 17791369Sdduvall for (ring = 0; ring < BGE_RECV_RINGS_MAX; ++ring) 17801369Sdduvall bge_init_recv_ring(bgep, ring); 17811369Sdduvall for (ring = 0; ring < BGE_BUFF_RINGS_MAX; ++ring) 17821369Sdduvall bge_init_buff_ring(bgep, ring); 17831369Sdduvall } 17841369Sdduvall 17851369Sdduvall /* 17861369Sdduvall * Undo the work of bge_init_rings() above before the memory is freed 17871369Sdduvall */ 17881865Sdilpreet void 17891369Sdduvall bge_fini_rings(bge_t *bgep) 17901369Sdduvall { 17913334Sgs150176 uint32_t ring; 17921369Sdduvall 17931369Sdduvall BGE_TRACE(("bge_fini_rings($%p)", (void *)bgep)); 17941369Sdduvall 17951369Sdduvall for (ring = 0; ring < BGE_BUFF_RINGS_MAX; ++ring) 17961369Sdduvall bge_fini_buff_ring(bgep, ring); 17971369Sdduvall for (ring = 0; ring < BGE_RECV_RINGS_MAX; ++ring) 17981369Sdduvall bge_fini_recv_ring(bgep, ring); 17991369Sdduvall for (ring = 0; ring < BGE_SEND_RINGS_MAX; ++ring) 18001369Sdduvall bge_fini_send_ring(bgep, ring); 18011369Sdduvall } 18021369Sdduvall 18031369Sdduvall /* 18043334Sgs150176 * Called from the bge_m_stop() to free the tx buffers which are 18053334Sgs150176 * allocated from the tx process. 18061369Sdduvall */ 18073334Sgs150176 void 18083334Sgs150176 bge_free_txbuf_arrays(send_ring_t *srp) 18091369Sdduvall { 18103334Sgs150176 uint32_t array; 18113334Sgs150176 uint32_t split; 18123334Sgs150176 18133334Sgs150176 ASSERT(mutex_owned(srp->tx_lock)); 18141369Sdduvall 18151369Sdduvall /* 18163334Sgs150176 * Free the extra tx buffer DMA area 18171369Sdduvall */ 18183334Sgs150176 for (array = 1; array < srp->tx_array; ++array) 18193334Sgs150176 for (split = 0; split < BGE_SPLIT; ++split) 18203334Sgs150176 bge_free_dma_mem(&srp->buf[array][split]); 18211369Sdduvall 18221369Sdduvall /* 18233334Sgs150176 * Restore initial tx buffer numbers 18241369Sdduvall */ 18253334Sgs150176 srp->tx_array = 1; 18263334Sgs150176 srp->tx_buffers = BGE_SEND_BUF_NUM; 18273334Sgs150176 srp->tx_buffers_low = srp->tx_buffers / 4; 18283334Sgs150176 srp->tx_flow = 0; 18293334Sgs150176 bzero(srp->pktp, BGE_SEND_BUF_MAX * sizeof (*srp->pktp)); 18301369Sdduvall } 18311369Sdduvall 18321369Sdduvall /* 18333334Sgs150176 * Called from tx process to allocate more tx buffers 18341369Sdduvall */ 18353334Sgs150176 bge_queue_item_t * 18363334Sgs150176 bge_alloc_txbuf_array(bge_t *bgep, send_ring_t *srp) 18371369Sdduvall { 18383334Sgs150176 bge_queue_t *txbuf_queue; 18393334Sgs150176 bge_queue_item_t *txbuf_item_last; 18403334Sgs150176 bge_queue_item_t *txbuf_item; 18413334Sgs150176 bge_queue_item_t *txbuf_item_rtn; 18423334Sgs150176 sw_txbuf_t *txbuf; 18433334Sgs150176 dma_area_t area; 18443334Sgs150176 size_t txbuffsize; 18453334Sgs150176 uint32_t slot; 18463334Sgs150176 uint32_t array; 18473334Sgs150176 uint32_t split; 18483334Sgs150176 uint32_t err; 18493334Sgs150176 18503334Sgs150176 ASSERT(mutex_owned(srp->tx_lock)); 18513334Sgs150176 18523334Sgs150176 array = srp->tx_array; 18533334Sgs150176 if (array >= srp->tx_array_max) 18543334Sgs150176 return (NULL); 18553334Sgs150176 18563334Sgs150176 /* 18573334Sgs150176 * Allocate memory & handles for TX buffers 18583334Sgs150176 */ 18593334Sgs150176 txbuffsize = BGE_SEND_BUF_NUM*bgep->chipid.snd_buff_size; 18603334Sgs150176 ASSERT((txbuffsize % BGE_SPLIT) == 0); 18613334Sgs150176 for (split = 0; split < BGE_SPLIT; ++split) { 18623334Sgs150176 err = bge_alloc_dma_mem(bgep, txbuffsize/BGE_SPLIT, 1863*4588Sml149210 &bge_data_accattr, DDI_DMA_WRITE | BGE_DMA_MODE, 1864*4588Sml149210 &srp->buf[array][split]); 18653334Sgs150176 if (err != DDI_SUCCESS) { 18663334Sgs150176 /* Free the last already allocated OK chunks */ 18673334Sgs150176 for (slot = 0; slot <= split; ++slot) 18683334Sgs150176 bge_free_dma_mem(&srp->buf[array][slot]); 18693334Sgs150176 srp->tx_alloc_fail++; 18703334Sgs150176 return (NULL); 18711369Sdduvall } 18723334Sgs150176 } 18733334Sgs150176 18743334Sgs150176 /* 18753334Sgs150176 * Chunk tx buffer area 18763334Sgs150176 */ 18773334Sgs150176 txbuf = srp->txbuf + array*BGE_SEND_BUF_NUM; 18783334Sgs150176 for (split = 0; split < BGE_SPLIT; ++split) { 18793334Sgs150176 area = srp->buf[array][split]; 18803334Sgs150176 for (slot = 0; slot < BGE_SEND_BUF_NUM/BGE_SPLIT; ++slot) { 18813334Sgs150176 bge_slice_chunk(&txbuf->buf, &area, 1, 18823334Sgs150176 bgep->chipid.snd_buff_size); 18833334Sgs150176 txbuf++; 18843334Sgs150176 } 18851369Sdduvall } 18861369Sdduvall 18873334Sgs150176 /* 18883334Sgs150176 * Add above buffers to the tx buffer pop queue 18893334Sgs150176 */ 18903334Sgs150176 txbuf_item = srp->txbuf_head + array*BGE_SEND_BUF_NUM; 18913334Sgs150176 txbuf = srp->txbuf + array*BGE_SEND_BUF_NUM; 18923334Sgs150176 txbuf_item_last = NULL; 18933334Sgs150176 for (slot = 0; slot < BGE_SEND_BUF_NUM; ++slot) { 18943334Sgs150176 txbuf_item->item = txbuf; 18953334Sgs150176 txbuf_item->next = txbuf_item_last; 18963334Sgs150176 txbuf_item_last = txbuf_item; 18973334Sgs150176 txbuf++; 18983334Sgs150176 txbuf_item++; 18991369Sdduvall } 19003334Sgs150176 txbuf_item = srp->txbuf_head + array*BGE_SEND_BUF_NUM; 19013334Sgs150176 txbuf_item_rtn = txbuf_item; 19023334Sgs150176 txbuf_item++; 19033334Sgs150176 txbuf_queue = srp->txbuf_pop_queue; 19043334Sgs150176 mutex_enter(txbuf_queue->lock); 19053334Sgs150176 txbuf_item->next = txbuf_queue->head; 19063334Sgs150176 txbuf_queue->head = txbuf_item_last; 19073334Sgs150176 txbuf_queue->count += BGE_SEND_BUF_NUM - 1; 19083334Sgs150176 mutex_exit(txbuf_queue->lock); 19093334Sgs150176 19103334Sgs150176 srp->tx_array++; 19113334Sgs150176 srp->tx_buffers += BGE_SEND_BUF_NUM; 19123334Sgs150176 srp->tx_buffers_low = srp->tx_buffers / 4; 19133334Sgs150176 19143334Sgs150176 return (txbuf_item_rtn); 19151369Sdduvall } 19161369Sdduvall 19171369Sdduvall /* 19181369Sdduvall * This function allocates all the transmit and receive buffers 19193334Sgs150176 * and descriptors, in four chunks. 19201369Sdduvall */ 19211865Sdilpreet int 19221369Sdduvall bge_alloc_bufs(bge_t *bgep) 19231369Sdduvall { 19241369Sdduvall dma_area_t area; 19251369Sdduvall size_t rxbuffsize; 19261369Sdduvall size_t txbuffsize; 19271369Sdduvall size_t rxbuffdescsize; 19281369Sdduvall size_t rxdescsize; 19291369Sdduvall size_t txdescsize; 19303334Sgs150176 uint32_t ring; 19313334Sgs150176 uint32_t rx_rings = bgep->chipid.rx_rings; 19323334Sgs150176 uint32_t tx_rings = bgep->chipid.tx_rings; 19331369Sdduvall int split; 19341369Sdduvall int err; 19351369Sdduvall 19361369Sdduvall BGE_TRACE(("bge_alloc_bufs($%p)", 1937*4588Sml149210 (void *)bgep)); 19381369Sdduvall 19391908Sly149593 rxbuffsize = BGE_STD_SLOTS_USED*bgep->chipid.std_buf_size; 19401369Sdduvall rxbuffsize += bgep->chipid.jumbo_slots*bgep->chipid.recv_jumbo_size; 19411369Sdduvall rxbuffsize += BGE_MINI_SLOTS_USED*BGE_MINI_BUFF_SIZE; 19421369Sdduvall 19433334Sgs150176 txbuffsize = BGE_SEND_BUF_NUM*bgep->chipid.snd_buff_size; 19441369Sdduvall txbuffsize *= tx_rings; 19451369Sdduvall 19461369Sdduvall rxdescsize = rx_rings*bgep->chipid.recv_slots; 19471369Sdduvall rxdescsize *= sizeof (bge_rbd_t); 19481369Sdduvall 19491369Sdduvall rxbuffdescsize = BGE_STD_SLOTS_USED; 19501369Sdduvall rxbuffdescsize += bgep->chipid.jumbo_slots; 19511369Sdduvall rxbuffdescsize += BGE_MINI_SLOTS_USED; 19521369Sdduvall rxbuffdescsize *= sizeof (bge_rbd_t); 19531369Sdduvall 19541369Sdduvall txdescsize = tx_rings*BGE_SEND_SLOTS_USED; 19551369Sdduvall txdescsize *= sizeof (bge_sbd_t); 19561369Sdduvall txdescsize += sizeof (bge_statistics_t); 19571369Sdduvall txdescsize += sizeof (bge_status_t); 19581369Sdduvall txdescsize += BGE_STATUS_PADDING; 19591369Sdduvall 19601369Sdduvall /* 19613907Szh199473 * Enable PCI relaxed ordering only for RX/TX data buffers 19623907Szh199473 */ 19633907Szh199473 if (bge_relaxed_ordering) 19643907Szh199473 dma_attr.dma_attr_flags |= DDI_DMA_RELAXED_ORDERING; 19653907Szh199473 19663907Szh199473 /* 19671369Sdduvall * Allocate memory & handles for RX buffers 19681369Sdduvall */ 19691369Sdduvall ASSERT((rxbuffsize % BGE_SPLIT) == 0); 19701369Sdduvall for (split = 0; split < BGE_SPLIT; ++split) { 19711369Sdduvall err = bge_alloc_dma_mem(bgep, rxbuffsize/BGE_SPLIT, 1972*4588Sml149210 &bge_data_accattr, DDI_DMA_READ | BGE_DMA_MODE, 1973*4588Sml149210 &bgep->rx_buff[split]); 19741369Sdduvall if (err != DDI_SUCCESS) 19751369Sdduvall return (DDI_FAILURE); 19761369Sdduvall } 19771369Sdduvall 19781369Sdduvall /* 19791369Sdduvall * Allocate memory & handles for TX buffers 19801369Sdduvall */ 19811369Sdduvall ASSERT((txbuffsize % BGE_SPLIT) == 0); 19821369Sdduvall for (split = 0; split < BGE_SPLIT; ++split) { 19831369Sdduvall err = bge_alloc_dma_mem(bgep, txbuffsize/BGE_SPLIT, 1984*4588Sml149210 &bge_data_accattr, DDI_DMA_WRITE | BGE_DMA_MODE, 1985*4588Sml149210 &bgep->tx_buff[split]); 19861369Sdduvall if (err != DDI_SUCCESS) 19871369Sdduvall return (DDI_FAILURE); 19881369Sdduvall } 19891369Sdduvall 19903907Szh199473 dma_attr.dma_attr_flags &= ~DDI_DMA_RELAXED_ORDERING; 19913907Szh199473 19921369Sdduvall /* 19931369Sdduvall * Allocate memory & handles for receive return rings 19941369Sdduvall */ 19951369Sdduvall ASSERT((rxdescsize % rx_rings) == 0); 19961369Sdduvall for (split = 0; split < rx_rings; ++split) { 19971369Sdduvall err = bge_alloc_dma_mem(bgep, rxdescsize/rx_rings, 1998*4588Sml149210 &bge_desc_accattr, DDI_DMA_RDWR | DDI_DMA_CONSISTENT, 1999*4588Sml149210 &bgep->rx_desc[split]); 20001369Sdduvall if (err != DDI_SUCCESS) 20011369Sdduvall return (DDI_FAILURE); 20021369Sdduvall } 20031369Sdduvall 20041369Sdduvall /* 20051369Sdduvall * Allocate memory & handles for buffer (producer) descriptor rings 20061369Sdduvall */ 20071369Sdduvall err = bge_alloc_dma_mem(bgep, rxbuffdescsize, &bge_desc_accattr, 2008*4588Sml149210 DDI_DMA_RDWR | DDI_DMA_CONSISTENT, &bgep->rx_desc[split]); 20091369Sdduvall if (err != DDI_SUCCESS) 20101369Sdduvall return (DDI_FAILURE); 20111369Sdduvall 20121369Sdduvall /* 20131369Sdduvall * Allocate memory & handles for TX descriptor rings, 20141369Sdduvall * status block, and statistics area 20151369Sdduvall */ 20161369Sdduvall err = bge_alloc_dma_mem(bgep, txdescsize, &bge_desc_accattr, 2017*4588Sml149210 DDI_DMA_RDWR | DDI_DMA_CONSISTENT, &bgep->tx_desc); 20181369Sdduvall if (err != DDI_SUCCESS) 20191369Sdduvall return (DDI_FAILURE); 20201369Sdduvall 20211369Sdduvall /* 20221369Sdduvall * Now carve up each of the allocated areas ... 20231369Sdduvall */ 20241369Sdduvall for (split = 0; split < BGE_SPLIT; ++split) { 20251369Sdduvall area = bgep->rx_buff[split]; 20261369Sdduvall bge_slice_chunk(&bgep->buff[BGE_STD_BUFF_RING].buf[split], 2027*4588Sml149210 &area, BGE_STD_SLOTS_USED/BGE_SPLIT, 2028*4588Sml149210 bgep->chipid.std_buf_size); 20291369Sdduvall bge_slice_chunk(&bgep->buff[BGE_JUMBO_BUFF_RING].buf[split], 2030*4588Sml149210 &area, bgep->chipid.jumbo_slots/BGE_SPLIT, 2031*4588Sml149210 bgep->chipid.recv_jumbo_size); 20321369Sdduvall bge_slice_chunk(&bgep->buff[BGE_MINI_BUFF_RING].buf[split], 2033*4588Sml149210 &area, BGE_MINI_SLOTS_USED/BGE_SPLIT, 2034*4588Sml149210 BGE_MINI_BUFF_SIZE); 20351369Sdduvall ASSERT(area.alength >= 0); 20361369Sdduvall } 20371369Sdduvall 20381369Sdduvall for (split = 0; split < BGE_SPLIT; ++split) { 20391369Sdduvall area = bgep->tx_buff[split]; 20401369Sdduvall for (ring = 0; ring < tx_rings; ++ring) 20413334Sgs150176 bge_slice_chunk(&bgep->send[ring].buf[0][split], 2042*4588Sml149210 &area, BGE_SEND_BUF_NUM/BGE_SPLIT, 2043*4588Sml149210 bgep->chipid.snd_buff_size); 20441369Sdduvall for (; ring < BGE_SEND_RINGS_MAX; ++ring) 20453334Sgs150176 bge_slice_chunk(&bgep->send[ring].buf[0][split], 2046*4588Sml149210 &area, 0, bgep->chipid.snd_buff_size); 20471369Sdduvall ASSERT(area.alength >= 0); 20481369Sdduvall } 20491369Sdduvall 20501369Sdduvall for (ring = 0; ring < rx_rings; ++ring) 20511369Sdduvall bge_slice_chunk(&bgep->recv[ring].desc, &bgep->rx_desc[ring], 2052*4588Sml149210 bgep->chipid.recv_slots, sizeof (bge_rbd_t)); 20531369Sdduvall 20541369Sdduvall area = bgep->rx_desc[rx_rings]; 20551369Sdduvall for (; ring < BGE_RECV_RINGS_MAX; ++ring) 20561369Sdduvall bge_slice_chunk(&bgep->recv[ring].desc, &area, 2057*4588Sml149210 0, sizeof (bge_rbd_t)); 20581369Sdduvall bge_slice_chunk(&bgep->buff[BGE_STD_BUFF_RING].desc, &area, 2059*4588Sml149210 BGE_STD_SLOTS_USED, sizeof (bge_rbd_t)); 20601369Sdduvall bge_slice_chunk(&bgep->buff[BGE_JUMBO_BUFF_RING].desc, &area, 2061*4588Sml149210 bgep->chipid.jumbo_slots, sizeof (bge_rbd_t)); 20621369Sdduvall bge_slice_chunk(&bgep->buff[BGE_MINI_BUFF_RING].desc, &area, 2063*4588Sml149210 BGE_MINI_SLOTS_USED, sizeof (bge_rbd_t)); 20641369Sdduvall ASSERT(area.alength == 0); 20651369Sdduvall 20661369Sdduvall area = bgep->tx_desc; 20671369Sdduvall for (ring = 0; ring < tx_rings; ++ring) 20681369Sdduvall bge_slice_chunk(&bgep->send[ring].desc, &area, 2069*4588Sml149210 BGE_SEND_SLOTS_USED, sizeof (bge_sbd_t)); 20701369Sdduvall for (; ring < BGE_SEND_RINGS_MAX; ++ring) 20711369Sdduvall bge_slice_chunk(&bgep->send[ring].desc, &area, 2072*4588Sml149210 0, sizeof (bge_sbd_t)); 20731369Sdduvall bge_slice_chunk(&bgep->statistics, &area, 1, sizeof (bge_statistics_t)); 20741369Sdduvall bge_slice_chunk(&bgep->status_block, &area, 1, sizeof (bge_status_t)); 20751369Sdduvall ASSERT(area.alength == BGE_STATUS_PADDING); 20761369Sdduvall DMA_ZERO(bgep->status_block); 20771369Sdduvall 20781369Sdduvall return (DDI_SUCCESS); 20791369Sdduvall } 20801369Sdduvall 20811369Sdduvall /* 20821369Sdduvall * This routine frees the transmit and receive buffers and descriptors. 20831369Sdduvall * Make sure the chip is stopped before calling it! 20841369Sdduvall */ 20851865Sdilpreet void 20861369Sdduvall bge_free_bufs(bge_t *bgep) 20871369Sdduvall { 20881369Sdduvall int split; 20891369Sdduvall 20901369Sdduvall BGE_TRACE(("bge_free_bufs($%p)", 2091*4588Sml149210 (void *)bgep)); 20921369Sdduvall 20931369Sdduvall bge_free_dma_mem(&bgep->tx_desc); 20941369Sdduvall for (split = 0; split < BGE_RECV_RINGS_SPLIT; ++split) 20951369Sdduvall bge_free_dma_mem(&bgep->rx_desc[split]); 20961369Sdduvall for (split = 0; split < BGE_SPLIT; ++split) 20971369Sdduvall bge_free_dma_mem(&bgep->tx_buff[split]); 20981369Sdduvall for (split = 0; split < BGE_SPLIT; ++split) 20991369Sdduvall bge_free_dma_mem(&bgep->rx_buff[split]); 21001369Sdduvall } 21011369Sdduvall 21021369Sdduvall /* 21031369Sdduvall * Determine (initial) MAC address ("BIA") to use for this interface 21041369Sdduvall */ 21051369Sdduvall 21061369Sdduvall static void 21071369Sdduvall bge_find_mac_address(bge_t *bgep, chip_id_t *cidp) 21081369Sdduvall { 21091369Sdduvall struct ether_addr sysaddr; 21101369Sdduvall char propbuf[8]; /* "true" or "false", plus NUL */ 21111369Sdduvall uchar_t *bytes; 21121369Sdduvall int *ints; 21131369Sdduvall uint_t nelts; 21141369Sdduvall int err; 21151369Sdduvall 21161369Sdduvall BGE_TRACE(("bge_find_mac_address($%p)", 2117*4588Sml149210 (void *)bgep)); 21181369Sdduvall 21191369Sdduvall BGE_DEBUG(("bge_find_mac_address: hw_mac_addr %012llx, => %s (%sset)", 2120*4588Sml149210 cidp->hw_mac_addr, 2121*4588Sml149210 ether_sprintf((void *)cidp->vendor_addr.addr), 2122*4588Sml149210 cidp->vendor_addr.set ? "" : "not ")); 21231369Sdduvall 21241369Sdduvall /* 21251369Sdduvall * The "vendor's factory-set address" may already have 21261369Sdduvall * been extracted from the chip, but if the property 21271369Sdduvall * "local-mac-address" is set we use that instead. It 21281369Sdduvall * will normally be set by OBP, but it could also be 21291369Sdduvall * specified in a .conf file(!) 21301369Sdduvall * 21311369Sdduvall * There doesn't seem to be a way to define byte-array 21321369Sdduvall * properties in a .conf, so we check whether it looks 21331369Sdduvall * like an array of 6 ints instead. 21341369Sdduvall * 21351369Sdduvall * Then, we check whether it looks like an array of 6 21361369Sdduvall * bytes (which it should, if OBP set it). If we can't 21371369Sdduvall * make sense of it either way, we'll ignore it. 21381369Sdduvall */ 21391369Sdduvall err = ddi_prop_lookup_int_array(DDI_DEV_T_ANY, bgep->devinfo, 2140*4588Sml149210 DDI_PROP_DONTPASS, localmac_propname, &ints, &nelts); 21411369Sdduvall if (err == DDI_PROP_SUCCESS) { 21421369Sdduvall if (nelts == ETHERADDRL) { 21431369Sdduvall while (nelts--) 21441369Sdduvall cidp->vendor_addr.addr[nelts] = ints[nelts]; 21452331Skrgopi cidp->vendor_addr.set = B_TRUE; 21461369Sdduvall } 21471369Sdduvall ddi_prop_free(ints); 21481369Sdduvall } 21491369Sdduvall 21501369Sdduvall err = ddi_prop_lookup_byte_array(DDI_DEV_T_ANY, bgep->devinfo, 2151*4588Sml149210 DDI_PROP_DONTPASS, localmac_propname, &bytes, &nelts); 21521369Sdduvall if (err == DDI_PROP_SUCCESS) { 21531369Sdduvall if (nelts == ETHERADDRL) { 21541369Sdduvall while (nelts--) 21551369Sdduvall cidp->vendor_addr.addr[nelts] = bytes[nelts]; 21562331Skrgopi cidp->vendor_addr.set = B_TRUE; 21571369Sdduvall } 21581369Sdduvall ddi_prop_free(bytes); 21591369Sdduvall } 21601369Sdduvall 21611369Sdduvall BGE_DEBUG(("bge_find_mac_address: +local %s (%sset)", 2162*4588Sml149210 ether_sprintf((void *)cidp->vendor_addr.addr), 2163*4588Sml149210 cidp->vendor_addr.set ? "" : "not ")); 21641369Sdduvall 21651369Sdduvall /* 21661369Sdduvall * Look up the OBP property "local-mac-address?". Note that even 21671369Sdduvall * though its value is a string (which should be "true" or "false"), 21681369Sdduvall * it can't be decoded by ddi_prop_lookup_string(9F). So, we zero 21691369Sdduvall * the buffer first and then fetch the property as an untyped array; 21701369Sdduvall * this may or may not include a final NUL, but since there will 21711369Sdduvall * always be one left at the end of the buffer we can now treat it 21721369Sdduvall * as a string anyway. 21731369Sdduvall */ 21741369Sdduvall nelts = sizeof (propbuf); 21751369Sdduvall bzero(propbuf, nelts--); 21761369Sdduvall err = ddi_getlongprop_buf(DDI_DEV_T_ANY, bgep->devinfo, 2177*4588Sml149210 DDI_PROP_CANSLEEP, localmac_boolname, propbuf, (int *)&nelts); 21781369Sdduvall 21791369Sdduvall /* 21801369Sdduvall * Now, if the address still isn't set from the hardware (SEEPROM) 21811369Sdduvall * or the OBP or .conf property, OR if the user has foolishly set 21821369Sdduvall * 'local-mac-address? = false', use "the system address" instead 21831369Sdduvall * (but only if it's non-null i.e. has been set from the IDPROM). 21841369Sdduvall */ 21852331Skrgopi if (cidp->vendor_addr.set == B_FALSE || strcmp(propbuf, "false") == 0) 21861369Sdduvall if (localetheraddr(NULL, &sysaddr) != 0) { 21871369Sdduvall ethaddr_copy(&sysaddr, cidp->vendor_addr.addr); 21882331Skrgopi cidp->vendor_addr.set = B_TRUE; 21891369Sdduvall } 21901369Sdduvall 21911369Sdduvall BGE_DEBUG(("bge_find_mac_address: +system %s (%sset)", 2192*4588Sml149210 ether_sprintf((void *)cidp->vendor_addr.addr), 2193*4588Sml149210 cidp->vendor_addr.set ? "" : "not ")); 21941369Sdduvall 21951369Sdduvall /* 21961369Sdduvall * Finally(!), if there's a valid "mac-address" property (created 21971369Sdduvall * if we netbooted from this interface), we must use this instead 21981369Sdduvall * of any of the above to ensure that the NFS/install server doesn't 21991369Sdduvall * get confused by the address changing as Solaris takes over! 22001369Sdduvall */ 22011369Sdduvall err = ddi_prop_lookup_byte_array(DDI_DEV_T_ANY, bgep->devinfo, 2202*4588Sml149210 DDI_PROP_DONTPASS, macaddr_propname, &bytes, &nelts); 22031369Sdduvall if (err == DDI_PROP_SUCCESS) { 22041369Sdduvall if (nelts == ETHERADDRL) { 22051369Sdduvall while (nelts--) 22061369Sdduvall cidp->vendor_addr.addr[nelts] = bytes[nelts]; 22072331Skrgopi cidp->vendor_addr.set = B_TRUE; 22081369Sdduvall } 22091369Sdduvall ddi_prop_free(bytes); 22101369Sdduvall } 22111369Sdduvall 22121369Sdduvall BGE_DEBUG(("bge_find_mac_address: =final %s (%sset)", 2213*4588Sml149210 ether_sprintf((void *)cidp->vendor_addr.addr), 2214*4588Sml149210 cidp->vendor_addr.set ? "" : "not ")); 22151369Sdduvall } 22161369Sdduvall 22171865Sdilpreet 22181865Sdilpreet /*ARGSUSED*/ 22191865Sdilpreet int 22201865Sdilpreet bge_check_acc_handle(bge_t *bgep, ddi_acc_handle_t handle) 22211865Sdilpreet { 22221865Sdilpreet ddi_fm_error_t de; 22231865Sdilpreet 22241865Sdilpreet ddi_fm_acc_err_get(handle, &de, DDI_FME_VERSION); 22251865Sdilpreet ddi_fm_acc_err_clear(handle, DDI_FME_VERSION); 22261865Sdilpreet return (de.fme_status); 22271865Sdilpreet } 22281865Sdilpreet 22291865Sdilpreet /*ARGSUSED*/ 22301865Sdilpreet int 22311865Sdilpreet bge_check_dma_handle(bge_t *bgep, ddi_dma_handle_t handle) 22321865Sdilpreet { 22331865Sdilpreet ddi_fm_error_t de; 22341865Sdilpreet 22351865Sdilpreet ASSERT(bgep->progress & PROGRESS_BUFS); 22361865Sdilpreet ddi_fm_dma_err_get(handle, &de, DDI_FME_VERSION); 22371865Sdilpreet return (de.fme_status); 22381865Sdilpreet } 22391865Sdilpreet 22401865Sdilpreet /* 22411865Sdilpreet * The IO fault service error handling callback function 22421865Sdilpreet */ 22431865Sdilpreet /*ARGSUSED*/ 22441865Sdilpreet static int 22451865Sdilpreet bge_fm_error_cb(dev_info_t *dip, ddi_fm_error_t *err, const void *impl_data) 22461865Sdilpreet { 22471865Sdilpreet /* 22481865Sdilpreet * as the driver can always deal with an error in any dma or 22491865Sdilpreet * access handle, we can just return the fme_status value. 22501865Sdilpreet */ 22511865Sdilpreet pci_ereport_post(dip, err, NULL); 22521865Sdilpreet return (err->fme_status); 22531865Sdilpreet } 22541865Sdilpreet 22551865Sdilpreet static void 22561865Sdilpreet bge_fm_init(bge_t *bgep) 22571865Sdilpreet { 22581865Sdilpreet ddi_iblock_cookie_t iblk; 22591865Sdilpreet 22601865Sdilpreet /* Only register with IO Fault Services if we have some capability */ 22611865Sdilpreet if (bgep->fm_capabilities) { 22621865Sdilpreet bge_reg_accattr.devacc_attr_access = DDI_FLAGERR_ACC; 22631865Sdilpreet bge_desc_accattr.devacc_attr_access = DDI_FLAGERR_ACC; 22641865Sdilpreet dma_attr.dma_attr_flags = DDI_DMA_FLAGERR; 22651865Sdilpreet 22661865Sdilpreet /* Register capabilities with IO Fault Services */ 22671865Sdilpreet ddi_fm_init(bgep->devinfo, &bgep->fm_capabilities, &iblk); 22681865Sdilpreet 22691865Sdilpreet /* 22701865Sdilpreet * Initialize pci ereport capabilities if ereport capable 22711865Sdilpreet */ 22721865Sdilpreet if (DDI_FM_EREPORT_CAP(bgep->fm_capabilities) || 22731865Sdilpreet DDI_FM_ERRCB_CAP(bgep->fm_capabilities)) 22741865Sdilpreet pci_ereport_setup(bgep->devinfo); 22751865Sdilpreet 22761865Sdilpreet /* 22771865Sdilpreet * Register error callback if error callback capable 22781865Sdilpreet */ 22791865Sdilpreet if (DDI_FM_ERRCB_CAP(bgep->fm_capabilities)) 22801865Sdilpreet ddi_fm_handler_register(bgep->devinfo, 2281*4588Sml149210 bge_fm_error_cb, (void*) bgep); 22821865Sdilpreet } else { 22831865Sdilpreet /* 22841865Sdilpreet * These fields have to be cleared of FMA if there are no 22851865Sdilpreet * FMA capabilities at runtime. 22861865Sdilpreet */ 22871865Sdilpreet bge_reg_accattr.devacc_attr_access = DDI_DEFAULT_ACC; 22881865Sdilpreet bge_desc_accattr.devacc_attr_access = DDI_DEFAULT_ACC; 22891865Sdilpreet dma_attr.dma_attr_flags = 0; 22901865Sdilpreet } 22911865Sdilpreet } 22921865Sdilpreet 22931865Sdilpreet static void 22941865Sdilpreet bge_fm_fini(bge_t *bgep) 22951865Sdilpreet { 22961865Sdilpreet /* Only unregister FMA capabilities if we registered some */ 22971865Sdilpreet if (bgep->fm_capabilities) { 22981865Sdilpreet 22991865Sdilpreet /* 23001865Sdilpreet * Release any resources allocated by pci_ereport_setup() 23011865Sdilpreet */ 23021865Sdilpreet if (DDI_FM_EREPORT_CAP(bgep->fm_capabilities) || 23031865Sdilpreet DDI_FM_ERRCB_CAP(bgep->fm_capabilities)) 23041865Sdilpreet pci_ereport_teardown(bgep->devinfo); 23051865Sdilpreet 23061865Sdilpreet /* 23071865Sdilpreet * Un-register error callback if error callback capable 23081865Sdilpreet */ 23091865Sdilpreet if (DDI_FM_ERRCB_CAP(bgep->fm_capabilities)) 23101865Sdilpreet ddi_fm_handler_unregister(bgep->devinfo); 23111865Sdilpreet 23121865Sdilpreet /* Unregister from IO Fault Services */ 23131865Sdilpreet ddi_fm_fini(bgep->devinfo); 23141865Sdilpreet } 23151865Sdilpreet } 23161865Sdilpreet 23171369Sdduvall static void 23181408Srandyf #ifdef BGE_IPMI_ASF 23191408Srandyf bge_unattach(bge_t *bgep, uint_t asf_mode) 23201408Srandyf #else 23211369Sdduvall bge_unattach(bge_t *bgep) 23221408Srandyf #endif 23231369Sdduvall { 23241369Sdduvall BGE_TRACE(("bge_unattach($%p)", 23251369Sdduvall (void *)bgep)); 23261369Sdduvall 23271369Sdduvall /* 23281369Sdduvall * Flag that no more activity may be initiated 23291369Sdduvall */ 23301369Sdduvall bgep->progress &= ~PROGRESS_READY; 23311369Sdduvall 23321369Sdduvall /* 23331369Sdduvall * Quiesce the PHY and MAC (leave it reset but still powered). 23341369Sdduvall * Clean up and free all BGE data structures 23351369Sdduvall */ 23361369Sdduvall if (bgep->cyclic_id) { 23371369Sdduvall mutex_enter(&cpu_lock); 23381369Sdduvall cyclic_remove(bgep->cyclic_id); 23391369Sdduvall mutex_exit(&cpu_lock); 23401369Sdduvall } 23411369Sdduvall if (bgep->progress & PROGRESS_KSTATS) 23421369Sdduvall bge_fini_kstats(bgep); 23431369Sdduvall if (bgep->progress & PROGRESS_NDD) 23441369Sdduvall bge_nd_cleanup(bgep); 23451369Sdduvall if (bgep->progress & PROGRESS_PHY) 23461369Sdduvall bge_phys_reset(bgep); 23471369Sdduvall if (bgep->progress & PROGRESS_HWINT) { 23481369Sdduvall mutex_enter(bgep->genlock); 23491408Srandyf #ifdef BGE_IPMI_ASF 23501865Sdilpreet if (bge_chip_reset(bgep, B_FALSE, asf_mode) != DDI_SUCCESS) 23511865Sdilpreet #else 23521865Sdilpreet if (bge_chip_reset(bgep, B_FALSE) != DDI_SUCCESS) 23531865Sdilpreet #endif 23541865Sdilpreet ddi_fm_service_impact(bgep->devinfo, 23551865Sdilpreet DDI_SERVICE_UNAFFECTED); 23561865Sdilpreet #ifdef BGE_IPMI_ASF 23571408Srandyf if (bgep->asf_enabled) { 23581408Srandyf /* 23591408Srandyf * This register has been overlaid. We restore its 23601408Srandyf * initial value here. 23611408Srandyf */ 23621408Srandyf bge_nic_put32(bgep, BGE_NIC_DATA_SIG_ADDR, 23631408Srandyf BGE_NIC_DATA_SIG); 23641408Srandyf } 23651408Srandyf #endif 23661865Sdilpreet if (bge_check_acc_handle(bgep, bgep->cfg_handle) != DDI_FM_OK) 23671865Sdilpreet ddi_fm_service_impact(bgep->devinfo, 23681865Sdilpreet DDI_SERVICE_UNAFFECTED); 23691865Sdilpreet if (bge_check_acc_handle(bgep, bgep->io_handle) != DDI_FM_OK) 23701865Sdilpreet ddi_fm_service_impact(bgep->devinfo, 23711865Sdilpreet DDI_SERVICE_UNAFFECTED); 23721369Sdduvall mutex_exit(bgep->genlock); 23731369Sdduvall } 23741369Sdduvall if (bgep->progress & PROGRESS_INTR) { 23751865Sdilpreet bge_intr_disable(bgep); 23761369Sdduvall bge_fini_rings(bgep); 23771369Sdduvall } 23781865Sdilpreet if (bgep->progress & PROGRESS_HWINT) { 23791865Sdilpreet bge_rem_intrs(bgep); 23801865Sdilpreet rw_destroy(bgep->errlock); 23811865Sdilpreet mutex_destroy(bgep->softintrlock); 23821865Sdilpreet mutex_destroy(bgep->genlock); 23831865Sdilpreet } 23841369Sdduvall if (bgep->progress & PROGRESS_FACTOTUM) 23851369Sdduvall ddi_remove_softintr(bgep->factotum_id); 23861369Sdduvall if (bgep->progress & PROGRESS_RESCHED) 23873334Sgs150176 ddi_remove_softintr(bgep->drain_id); 23881865Sdilpreet if (bgep->progress & PROGRESS_BUFS) 23891865Sdilpreet bge_free_bufs(bgep); 23901369Sdduvall if (bgep->progress & PROGRESS_REGS) 23911369Sdduvall ddi_regs_map_free(&bgep->io_handle); 23921369Sdduvall if (bgep->progress & PROGRESS_CFG) 23931369Sdduvall pci_config_teardown(&bgep->cfg_handle); 23941369Sdduvall 23951865Sdilpreet bge_fm_fini(bgep); 23961865Sdilpreet 23971369Sdduvall ddi_remove_minor_node(bgep->devinfo, NULL); 23983334Sgs150176 kmem_free(bgep->pstats, sizeof (bge_statistics_reg_t)); 23993334Sgs150176 kmem_free(bgep->nd_params, PARAM_COUNT * sizeof (nd_param_t)); 24001369Sdduvall kmem_free(bgep, sizeof (*bgep)); 24011369Sdduvall } 24021369Sdduvall 24031369Sdduvall static int 24041369Sdduvall bge_resume(dev_info_t *devinfo) 24051369Sdduvall { 24061369Sdduvall bge_t *bgep; /* Our private data */ 24071369Sdduvall chip_id_t *cidp; 24081369Sdduvall chip_id_t chipid; 24091369Sdduvall 24101369Sdduvall bgep = ddi_get_driver_private(devinfo); 24111369Sdduvall if (bgep == NULL) 24121369Sdduvall return (DDI_FAILURE); 24131369Sdduvall 24141369Sdduvall /* 24151369Sdduvall * Refuse to resume if the data structures aren't consistent 24161369Sdduvall */ 24171369Sdduvall if (bgep->devinfo != devinfo) 24181369Sdduvall return (DDI_FAILURE); 24191369Sdduvall 24201408Srandyf #ifdef BGE_IPMI_ASF 24211408Srandyf /* 24221408Srandyf * Power management hasn't been supported in BGE now. If you 24231408Srandyf * want to implement it, please add the ASF/IPMI related 24241408Srandyf * code here. 24251408Srandyf */ 24261408Srandyf 24271408Srandyf #endif 24281408Srandyf 24291369Sdduvall /* 24301369Sdduvall * Read chip ID & set up config space command register(s) 24311369Sdduvall * Refuse to resume if the chip has changed its identity! 24321369Sdduvall */ 24331369Sdduvall cidp = &bgep->chipid; 24341865Sdilpreet mutex_enter(bgep->genlock); 24351369Sdduvall bge_chip_cfg_init(bgep, &chipid, B_FALSE); 24361865Sdilpreet if (bge_check_acc_handle(bgep, bgep->cfg_handle) != DDI_FM_OK) { 24371865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_LOST); 24381865Sdilpreet mutex_exit(bgep->genlock); 24391865Sdilpreet return (DDI_FAILURE); 24401865Sdilpreet } 24411865Sdilpreet mutex_exit(bgep->genlock); 24421369Sdduvall if (chipid.vendor != cidp->vendor) 24431369Sdduvall return (DDI_FAILURE); 24441369Sdduvall if (chipid.device != cidp->device) 24451369Sdduvall return (DDI_FAILURE); 24461369Sdduvall if (chipid.revision != cidp->revision) 24471369Sdduvall return (DDI_FAILURE); 24481369Sdduvall if (chipid.asic_rev != cidp->asic_rev) 24491369Sdduvall return (DDI_FAILURE); 24501369Sdduvall 24511369Sdduvall /* 24521369Sdduvall * All OK, reinitialise h/w & kick off GLD scheduling 24531369Sdduvall */ 24541369Sdduvall mutex_enter(bgep->genlock); 24551865Sdilpreet if (bge_restart(bgep, B_TRUE) != DDI_SUCCESS) { 24561865Sdilpreet (void) bge_check_acc_handle(bgep, bgep->cfg_handle); 24571865Sdilpreet (void) bge_check_acc_handle(bgep, bgep->io_handle); 24581865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_LOST); 24591865Sdilpreet mutex_exit(bgep->genlock); 24601865Sdilpreet return (DDI_FAILURE); 24611865Sdilpreet } 24621865Sdilpreet if (bge_check_acc_handle(bgep, bgep->cfg_handle) != DDI_FM_OK) { 24631865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_LOST); 24641865Sdilpreet mutex_exit(bgep->genlock); 24651865Sdilpreet return (DDI_FAILURE); 24661865Sdilpreet } 24671865Sdilpreet if (bge_check_acc_handle(bgep, bgep->io_handle) != DDI_FM_OK) { 24681865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_LOST); 24691865Sdilpreet mutex_exit(bgep->genlock); 24701865Sdilpreet return (DDI_FAILURE); 24711865Sdilpreet } 24721369Sdduvall mutex_exit(bgep->genlock); 24731369Sdduvall return (DDI_SUCCESS); 24741369Sdduvall } 24751369Sdduvall 24761369Sdduvall /* 24771369Sdduvall * attach(9E) -- Attach a device to the system 24781369Sdduvall * 24791369Sdduvall * Called once for each board successfully probed. 24801369Sdduvall */ 24811369Sdduvall static int 24821369Sdduvall bge_attach(dev_info_t *devinfo, ddi_attach_cmd_t cmd) 24831369Sdduvall { 24841369Sdduvall bge_t *bgep; /* Our private data */ 24852311Sseb mac_register_t *macp; 24861369Sdduvall chip_id_t *cidp; 24871369Sdduvall cyc_handler_t cychand; 24881369Sdduvall cyc_time_t cyctime; 24891369Sdduvall caddr_t regs; 24901369Sdduvall int instance; 24911369Sdduvall int err; 24921369Sdduvall int intr_types; 24931408Srandyf #ifdef BGE_IPMI_ASF 24941408Srandyf uint32_t mhcrValue; 24953918Sml149210 #ifdef __sparc 24963918Sml149210 uint16_t value16; 24973918Sml149210 #endif 24983918Sml149210 #ifdef BGE_NETCONSOLE 24993918Sml149210 int retval; 25003918Sml149210 #endif 25011408Srandyf #endif 25021369Sdduvall 25031369Sdduvall instance = ddi_get_instance(devinfo); 25041369Sdduvall 25051369Sdduvall BGE_GTRACE(("bge_attach($%p, %d) instance %d", 2506*4588Sml149210 (void *)devinfo, cmd, instance)); 25071369Sdduvall BGE_BRKPT(NULL, "bge_attach"); 25081369Sdduvall 25091369Sdduvall switch (cmd) { 25101369Sdduvall default: 25111369Sdduvall return (DDI_FAILURE); 25121369Sdduvall 25131369Sdduvall case DDI_RESUME: 25141369Sdduvall return (bge_resume(devinfo)); 25151369Sdduvall 25161369Sdduvall case DDI_ATTACH: 25171369Sdduvall break; 25181369Sdduvall } 25191369Sdduvall 25201369Sdduvall bgep = kmem_zalloc(sizeof (*bgep), KM_SLEEP); 25213334Sgs150176 bgep->pstats = kmem_zalloc(sizeof (bge_statistics_reg_t), KM_SLEEP); 25223334Sgs150176 bgep->nd_params = 25233334Sgs150176 kmem_zalloc(PARAM_COUNT * sizeof (nd_param_t), KM_SLEEP); 25241369Sdduvall ddi_set_driver_private(devinfo, bgep); 25251369Sdduvall bgep->bge_guard = BGE_GUARD; 25261369Sdduvall bgep->devinfo = devinfo; 25271369Sdduvall 25281369Sdduvall /* 25291369Sdduvall * Initialize more fields in BGE private data 25301369Sdduvall */ 25311369Sdduvall bgep->debug = ddi_prop_get_int(DDI_DEV_T_ANY, devinfo, 2532*4588Sml149210 DDI_PROP_DONTPASS, debug_propname, bge_debug); 25331369Sdduvall (void) snprintf(bgep->ifname, sizeof (bgep->ifname), "%s%d", 2534*4588Sml149210 BGE_DRIVER_NAME, instance); 25351369Sdduvall 25361369Sdduvall /* 25371865Sdilpreet * Initialize for fma support 25381865Sdilpreet */ 25391865Sdilpreet bgep->fm_capabilities = ddi_prop_get_int(DDI_DEV_T_ANY, devinfo, 25401865Sdilpreet DDI_PROP_DONTPASS, fm_cap, 25411865Sdilpreet DDI_FM_EREPORT_CAPABLE | DDI_FM_ACCCHK_CAPABLE | 25421865Sdilpreet DDI_FM_DMACHK_CAPABLE | DDI_FM_ERRCB_CAPABLE); 25431865Sdilpreet BGE_DEBUG(("bgep->fm_capabilities = %d", bgep->fm_capabilities)); 25441865Sdilpreet bge_fm_init(bgep); 25451865Sdilpreet 25461865Sdilpreet /* 25471369Sdduvall * Look up the IOMMU's page size for DVMA mappings (must be 25481369Sdduvall * a power of 2) and convert to a mask. This can be used to 25491369Sdduvall * determine whether a message buffer crosses a page boundary. 25501369Sdduvall * Note: in 2s complement binary notation, if X is a power of 25511369Sdduvall * 2, then -X has the representation "11...1100...00". 25521369Sdduvall */ 25531369Sdduvall bgep->pagemask = dvma_pagesize(devinfo); 25541369Sdduvall ASSERT(ddi_ffs(bgep->pagemask) == ddi_fls(bgep->pagemask)); 25551369Sdduvall bgep->pagemask = -bgep->pagemask; 25561369Sdduvall 25571369Sdduvall /* 25581369Sdduvall * Map config space registers 25591369Sdduvall * Read chip ID & set up config space command register(s) 25601369Sdduvall * 25611369Sdduvall * Note: this leaves the chip accessible by Memory Space 25621369Sdduvall * accesses, but with interrupts and Bus Mastering off. 25631369Sdduvall * This should ensure that nothing untoward will happen 25641369Sdduvall * if it has been left active by the (net-)bootloader. 25651369Sdduvall * We'll re-enable Bus Mastering once we've reset the chip, 25661369Sdduvall * and allow interrupts only when everything else is set up. 25671369Sdduvall */ 25681369Sdduvall err = pci_config_setup(devinfo, &bgep->cfg_handle); 25691408Srandyf #ifdef BGE_IPMI_ASF 25703918Sml149210 #ifdef __sparc 25713918Sml149210 value16 = pci_config_get16(bgep->cfg_handle, PCI_CONF_COMM); 25723918Sml149210 value16 = value16 | (PCI_COMM_MAE | PCI_COMM_ME); 25733918Sml149210 pci_config_put16(bgep->cfg_handle, PCI_CONF_COMM, value16); 25743918Sml149210 mhcrValue = MHCR_ENABLE_INDIRECT_ACCESS | 2575*4588Sml149210 MHCR_ENABLE_TAGGED_STATUS_MODE | 2576*4588Sml149210 MHCR_MASK_INTERRUPT_MODE | 2577*4588Sml149210 MHCR_MASK_PCI_INT_OUTPUT | 2578*4588Sml149210 MHCR_CLEAR_INTERRUPT_INTA | 2579*4588Sml149210 MHCR_ENABLE_ENDIAN_WORD_SWAP | 2580*4588Sml149210 MHCR_ENABLE_ENDIAN_BYTE_SWAP; 25813918Sml149210 pci_config_put32(bgep->cfg_handle, PCI_CONF_BGE_MHCR, mhcrValue); 25823918Sml149210 bge_ind_put32(bgep, MEMORY_ARBITER_MODE_REG, 2583*4588Sml149210 bge_ind_get32(bgep, MEMORY_ARBITER_MODE_REG) | 2584*4588Sml149210 MEMORY_ARBITER_ENABLE); 25853918Sml149210 #else 25861408Srandyf mhcrValue = pci_config_get32(bgep->cfg_handle, PCI_CONF_BGE_MHCR); 25873918Sml149210 #endif 25881408Srandyf if (mhcrValue & MHCR_ENABLE_ENDIAN_WORD_SWAP) { 25891408Srandyf bgep->asf_wordswapped = B_TRUE; 25901408Srandyf } else { 25911408Srandyf bgep->asf_wordswapped = B_FALSE; 25921408Srandyf } 25931408Srandyf bge_asf_get_config(bgep); 25941408Srandyf #endif 25951369Sdduvall if (err != DDI_SUCCESS) { 25961369Sdduvall bge_problem(bgep, "pci_config_setup() failed"); 25971369Sdduvall goto attach_fail; 25981369Sdduvall } 25991369Sdduvall bgep->progress |= PROGRESS_CFG; 26001369Sdduvall cidp = &bgep->chipid; 26011369Sdduvall bzero(cidp, sizeof (*cidp)); 26021369Sdduvall bge_chip_cfg_init(bgep, cidp, B_FALSE); 26031865Sdilpreet if (bge_check_acc_handle(bgep, bgep->cfg_handle) != DDI_FM_OK) { 26041865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_LOST); 26051865Sdilpreet goto attach_fail; 26061865Sdilpreet } 26071369Sdduvall 26081408Srandyf #ifdef BGE_IPMI_ASF 26091408Srandyf if (DEVICE_5721_SERIES_CHIPSETS(bgep) || 26101408Srandyf DEVICE_5714_SERIES_CHIPSETS(bgep)) { 26111408Srandyf bgep->asf_newhandshake = B_TRUE; 26121408Srandyf } else { 26131408Srandyf bgep->asf_newhandshake = B_FALSE; 26141408Srandyf } 26151408Srandyf #endif 26161408Srandyf 26171369Sdduvall /* 26181369Sdduvall * Update those parts of the chip ID derived from volatile 26191369Sdduvall * registers with the values seen by OBP (in case the chip 26201369Sdduvall * has been reset externally and therefore lost them). 26211369Sdduvall */ 26221369Sdduvall cidp->subven = ddi_prop_get_int(DDI_DEV_T_ANY, devinfo, 2623*4588Sml149210 DDI_PROP_DONTPASS, subven_propname, cidp->subven); 26241369Sdduvall cidp->subdev = ddi_prop_get_int(DDI_DEV_T_ANY, devinfo, 2625*4588Sml149210 DDI_PROP_DONTPASS, subdev_propname, cidp->subdev); 26261369Sdduvall cidp->clsize = ddi_prop_get_int(DDI_DEV_T_ANY, devinfo, 2627*4588Sml149210 DDI_PROP_DONTPASS, clsize_propname, cidp->clsize); 26281369Sdduvall cidp->latency = ddi_prop_get_int(DDI_DEV_T_ANY, devinfo, 2629*4588Sml149210 DDI_PROP_DONTPASS, latency_propname, cidp->latency); 26301369Sdduvall cidp->rx_rings = ddi_prop_get_int(DDI_DEV_T_ANY, devinfo, 2631*4588Sml149210 DDI_PROP_DONTPASS, rxrings_propname, cidp->rx_rings); 26321369Sdduvall cidp->tx_rings = ddi_prop_get_int(DDI_DEV_T_ANY, devinfo, 2633*4588Sml149210 DDI_PROP_DONTPASS, txrings_propname, cidp->tx_rings); 26341369Sdduvall 26351369Sdduvall if (bge_jumbo_enable == B_TRUE) { 26361369Sdduvall cidp->default_mtu = ddi_prop_get_int(DDI_DEV_T_ANY, devinfo, 2637*4588Sml149210 DDI_PROP_DONTPASS, default_mtu, BGE_DEFAULT_MTU); 26381369Sdduvall if ((cidp->default_mtu < BGE_DEFAULT_MTU)|| 2639*4588Sml149210 (cidp->default_mtu > BGE_MAXIMUM_MTU)) { 26401369Sdduvall cidp->default_mtu = BGE_DEFAULT_MTU; 26411369Sdduvall } 26421369Sdduvall } 26431369Sdduvall /* 26441369Sdduvall * Map operating registers 26451369Sdduvall */ 26461369Sdduvall err = ddi_regs_map_setup(devinfo, BGE_PCI_OPREGS_RNUMBER, 2647*4588Sml149210 ®s, 0, 0, &bge_reg_accattr, &bgep->io_handle); 26481369Sdduvall if (err != DDI_SUCCESS) { 26491369Sdduvall bge_problem(bgep, "ddi_regs_map_setup() failed"); 26501369Sdduvall goto attach_fail; 26511369Sdduvall } 26521369Sdduvall bgep->io_regs = regs; 26531369Sdduvall bgep->progress |= PROGRESS_REGS; 26541369Sdduvall 26551369Sdduvall /* 26561369Sdduvall * Characterise the device, so we know its requirements. 26571369Sdduvall * Then allocate the appropriate TX and RX descriptors & buffers. 26581369Sdduvall */ 26591865Sdilpreet if (bge_chip_id_init(bgep) == EIO) { 26601865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_LOST); 26611865Sdilpreet goto attach_fail; 26621865Sdilpreet } 26631369Sdduvall err = bge_alloc_bufs(bgep); 26641369Sdduvall if (err != DDI_SUCCESS) { 26651369Sdduvall bge_problem(bgep, "DMA buffer allocation failed"); 26661369Sdduvall goto attach_fail; 26671369Sdduvall } 26681865Sdilpreet bgep->progress |= PROGRESS_BUFS; 26691369Sdduvall 26701369Sdduvall /* 26711369Sdduvall * Add the softint handlers: 26721369Sdduvall * 26731369Sdduvall * Both of these handlers are used to avoid restrictions on the 26741369Sdduvall * context and/or mutexes required for some operations. In 26751369Sdduvall * particular, the hardware interrupt handler and its subfunctions 26761369Sdduvall * can detect a number of conditions that we don't want to handle 26771369Sdduvall * in that context or with that set of mutexes held. So, these 26781369Sdduvall * softints are triggered instead: 26791369Sdduvall * 26802135Szh199473 * the <resched> softint is triggered if we have previously 26811369Sdduvall * had to refuse to send a packet because of resource shortage 26821369Sdduvall * (we've run out of transmit buffers), but the send completion 26831369Sdduvall * interrupt handler has now detected that more buffers have 26841369Sdduvall * become available. 26851369Sdduvall * 26861369Sdduvall * the <factotum> is triggered if the h/w interrupt handler 26871369Sdduvall * sees the <link state changed> or <error> bits in the status 26881369Sdduvall * block. It's also triggered periodically to poll the link 26891369Sdduvall * state, just in case we aren't getting link status change 26901369Sdduvall * interrupts ... 26911369Sdduvall */ 26923334Sgs150176 err = ddi_add_softintr(devinfo, DDI_SOFTINT_LOW, &bgep->drain_id, 2693*4588Sml149210 NULL, NULL, bge_send_drain, (caddr_t)bgep); 26941369Sdduvall if (err != DDI_SUCCESS) { 26951369Sdduvall bge_problem(bgep, "ddi_add_softintr() failed"); 26961369Sdduvall goto attach_fail; 26971369Sdduvall } 26981369Sdduvall bgep->progress |= PROGRESS_RESCHED; 26991369Sdduvall err = ddi_add_softintr(devinfo, DDI_SOFTINT_LOW, &bgep->factotum_id, 2700*4588Sml149210 NULL, NULL, bge_chip_factotum, (caddr_t)bgep); 27011369Sdduvall if (err != DDI_SUCCESS) { 27021369Sdduvall bge_problem(bgep, "ddi_add_softintr() failed"); 27031369Sdduvall goto attach_fail; 27041369Sdduvall } 27051369Sdduvall bgep->progress |= PROGRESS_FACTOTUM; 27061369Sdduvall 27071369Sdduvall /* Get supported interrupt types */ 27081369Sdduvall if (ddi_intr_get_supported_types(devinfo, &intr_types) != DDI_SUCCESS) { 27091369Sdduvall bge_error(bgep, "ddi_intr_get_supported_types failed\n"); 27101369Sdduvall 27111369Sdduvall goto attach_fail; 27121369Sdduvall } 27131369Sdduvall 27142675Szh199473 BGE_DEBUG(("%s: ddi_intr_get_supported_types() returned: %x", 2715*4588Sml149210 bgep->ifname, intr_types)); 27161369Sdduvall 27171369Sdduvall if ((intr_types & DDI_INTR_TYPE_MSI) && bgep->chipid.msi_enabled) { 27181369Sdduvall if (bge_add_intrs(bgep, DDI_INTR_TYPE_MSI) != DDI_SUCCESS) { 27191369Sdduvall bge_error(bgep, "MSI registration failed, " 27201369Sdduvall "trying FIXED interrupt type\n"); 27211369Sdduvall } else { 27222675Szh199473 BGE_DEBUG(("%s: Using MSI interrupt type", 2723*4588Sml149210 bgep->ifname)); 27241369Sdduvall bgep->intr_type = DDI_INTR_TYPE_MSI; 27251865Sdilpreet bgep->progress |= PROGRESS_HWINT; 27261369Sdduvall } 27271369Sdduvall } 27281369Sdduvall 27291865Sdilpreet if (!(bgep->progress & PROGRESS_HWINT) && 27301369Sdduvall (intr_types & DDI_INTR_TYPE_FIXED)) { 27311369Sdduvall if (bge_add_intrs(bgep, DDI_INTR_TYPE_FIXED) != DDI_SUCCESS) { 27321369Sdduvall bge_error(bgep, "FIXED interrupt " 27331369Sdduvall "registration failed\n"); 27341369Sdduvall goto attach_fail; 27351369Sdduvall } 27361369Sdduvall 27372675Szh199473 BGE_DEBUG(("%s: Using FIXED interrupt type", bgep->ifname)); 27381369Sdduvall 27391369Sdduvall bgep->intr_type = DDI_INTR_TYPE_FIXED; 27401865Sdilpreet bgep->progress |= PROGRESS_HWINT; 27411369Sdduvall } 27421369Sdduvall 27431865Sdilpreet if (!(bgep->progress & PROGRESS_HWINT)) { 27441369Sdduvall bge_error(bgep, "No interrupts registered\n"); 27451369Sdduvall goto attach_fail; 27461369Sdduvall } 27471369Sdduvall 27481369Sdduvall /* 27491369Sdduvall * Note that interrupts are not enabled yet as 27501865Sdilpreet * mutex locks are not initialized. Initialize mutex locks. 27511865Sdilpreet */ 27521865Sdilpreet mutex_init(bgep->genlock, NULL, MUTEX_DRIVER, 27531865Sdilpreet DDI_INTR_PRI(bgep->intr_pri)); 27541865Sdilpreet mutex_init(bgep->softintrlock, NULL, MUTEX_DRIVER, 27551865Sdilpreet DDI_INTR_PRI(bgep->intr_pri)); 27561865Sdilpreet rw_init(bgep->errlock, NULL, RW_DRIVER, 27571865Sdilpreet DDI_INTR_PRI(bgep->intr_pri)); 27581865Sdilpreet 27591865Sdilpreet /* 27601865Sdilpreet * Initialize rings. 27611369Sdduvall */ 27621369Sdduvall bge_init_rings(bgep); 27631369Sdduvall 27641369Sdduvall /* 27651369Sdduvall * Now that mutex locks are initialized, enable interrupts. 27661369Sdduvall */ 27671865Sdilpreet bge_intr_enable(bgep); 27681865Sdilpreet bgep->progress |= PROGRESS_INTR; 27691369Sdduvall 27701369Sdduvall /* 27711369Sdduvall * Initialise link state variables 27721369Sdduvall * Stop, reset & reinitialise the chip. 27731369Sdduvall * Initialise the (internal) PHY. 27741369Sdduvall */ 27751369Sdduvall bgep->link_state = LINK_STATE_UNKNOWN; 27761369Sdduvall 27771369Sdduvall mutex_enter(bgep->genlock); 27781369Sdduvall 27791369Sdduvall /* 27801369Sdduvall * Reset chip & rings to initial state; also reset address 27811369Sdduvall * filtering, promiscuity, loopback mode. 27821369Sdduvall */ 27831408Srandyf #ifdef BGE_IPMI_ASF 27843918Sml149210 #ifdef BGE_NETCONSOLE 27853918Sml149210 if (bge_reset(bgep, ASF_MODE_INIT) != DDI_SUCCESS) { 27863918Sml149210 #else 27871865Sdilpreet if (bge_reset(bgep, ASF_MODE_SHUTDOWN) != DDI_SUCCESS) { 27883918Sml149210 #endif 27891408Srandyf #else 27901865Sdilpreet if (bge_reset(bgep) != DDI_SUCCESS) { 27911408Srandyf #endif 27921865Sdilpreet (void) bge_check_acc_handle(bgep, bgep->cfg_handle); 27931865Sdilpreet (void) bge_check_acc_handle(bgep, bgep->io_handle); 27941865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_LOST); 27951865Sdilpreet mutex_exit(bgep->genlock); 27961865Sdilpreet goto attach_fail; 27971865Sdilpreet } 27981369Sdduvall 27992675Szh199473 #ifdef BGE_IPMI_ASF 28002675Szh199473 if (bgep->asf_enabled) { 28012675Szh199473 bgep->asf_status = ASF_STAT_RUN_INIT; 28022675Szh199473 } 28032675Szh199473 #endif 28042675Szh199473 28051369Sdduvall bzero(bgep->mcast_hash, sizeof (bgep->mcast_hash)); 28061369Sdduvall bzero(bgep->mcast_refs, sizeof (bgep->mcast_refs)); 28071369Sdduvall bgep->promisc = B_FALSE; 28081369Sdduvall bgep->param_loop_mode = BGE_LOOP_NONE; 28091865Sdilpreet if (bge_check_acc_handle(bgep, bgep->cfg_handle) != DDI_FM_OK) { 28101865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_LOST); 28111865Sdilpreet mutex_exit(bgep->genlock); 28121865Sdilpreet goto attach_fail; 28131865Sdilpreet } 28141865Sdilpreet if (bge_check_acc_handle(bgep, bgep->io_handle) != DDI_FM_OK) { 28151865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_LOST); 28161865Sdilpreet mutex_exit(bgep->genlock); 28171865Sdilpreet goto attach_fail; 28181865Sdilpreet } 28191369Sdduvall 28201369Sdduvall mutex_exit(bgep->genlock); 28211369Sdduvall 28221865Sdilpreet if (bge_phys_init(bgep) == EIO) { 28231865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_LOST); 28241865Sdilpreet goto attach_fail; 28251865Sdilpreet } 28261369Sdduvall bgep->progress |= PROGRESS_PHY; 28271369Sdduvall 28281369Sdduvall /* 28291369Sdduvall * Register NDD-tweakable parameters 28301369Sdduvall */ 28311369Sdduvall if (bge_nd_init(bgep)) { 28321369Sdduvall bge_problem(bgep, "bge_nd_init() failed"); 28331369Sdduvall goto attach_fail; 28341369Sdduvall } 28351369Sdduvall bgep->progress |= PROGRESS_NDD; 28361369Sdduvall 28371369Sdduvall /* 28381369Sdduvall * Create & initialise named kstats 28391369Sdduvall */ 28401369Sdduvall bge_init_kstats(bgep, instance); 28411369Sdduvall bgep->progress |= PROGRESS_KSTATS; 28421369Sdduvall 28431369Sdduvall /* 28441369Sdduvall * Determine whether to override the chip's own MAC address 28451369Sdduvall */ 28461369Sdduvall bge_find_mac_address(bgep, cidp); 28472331Skrgopi ethaddr_copy(cidp->vendor_addr.addr, bgep->curr_addr[0].addr); 28482331Skrgopi bgep->curr_addr[0].set = B_TRUE; 28492331Skrgopi 28502406Skrgopi bgep->unicst_addr_total = MAC_ADDRESS_REGS_MAX; 28512406Skrgopi /* 28522406Skrgopi * Address available is one less than MAX 28532406Skrgopi * as primary address is not advertised 28542406Skrgopi * as a multiple MAC address. 28552406Skrgopi */ 28562331Skrgopi bgep->unicst_addr_avail = MAC_ADDRESS_REGS_MAX - 1; 28571369Sdduvall 28582311Sseb if ((macp = mac_alloc(MAC_VERSION)) == NULL) 28592311Sseb goto attach_fail; 28602311Sseb macp->m_type_ident = MAC_PLUGIN_IDENT_ETHER; 28612311Sseb macp->m_driver = bgep; 28621369Sdduvall macp->m_dip = devinfo; 28632331Skrgopi macp->m_src_addr = bgep->curr_addr[0].addr; 28642311Sseb macp->m_callbacks = &bge_m_callbacks; 28652311Sseb macp->m_min_sdu = 0; 28662311Sseb macp->m_max_sdu = cidp->ethmax_size - sizeof (struct ether_header); 28671369Sdduvall /* 28681369Sdduvall * Finally, we're ready to register ourselves with the MAC layer 28691369Sdduvall * interface; if this succeeds, we're all ready to start() 28701369Sdduvall */ 28712311Sseb err = mac_register(macp, &bgep->mh); 28722311Sseb mac_free(macp); 28732311Sseb if (err != 0) 28741369Sdduvall goto attach_fail; 28751369Sdduvall 28761369Sdduvall cychand.cyh_func = bge_chip_cyclic; 28771369Sdduvall cychand.cyh_arg = bgep; 28781369Sdduvall cychand.cyh_level = CY_LOCK_LEVEL; 28791369Sdduvall cyctime.cyt_when = 0; 28801369Sdduvall cyctime.cyt_interval = BGE_CYCLIC_PERIOD; 28811369Sdduvall mutex_enter(&cpu_lock); 28821369Sdduvall bgep->cyclic_id = cyclic_add(&cychand, &cyctime); 28831369Sdduvall mutex_exit(&cpu_lock); 28841369Sdduvall 28851369Sdduvall bgep->progress |= PROGRESS_READY; 28861369Sdduvall ASSERT(bgep->bge_guard == BGE_GUARD); 28873918Sml149210 #ifdef BGE_IPMI_ASF 28883918Sml149210 #ifdef BGE_NETCONSOLE 28893918Sml149210 if (bgep->asf_enabled) { 28903918Sml149210 mutex_enter(bgep->genlock); 28913918Sml149210 retval = bge_chip_start(bgep, B_TRUE); 28923918Sml149210 mutex_exit(bgep->genlock); 28933918Sml149210 if (retval != DDI_SUCCESS) 28943918Sml149210 goto attach_fail; 28953918Sml149210 } 28963918Sml149210 #endif 28973918Sml149210 #endif 28981369Sdduvall return (DDI_SUCCESS); 28991369Sdduvall 29001369Sdduvall attach_fail: 29011408Srandyf #ifdef BGE_IPMI_ASF 29022675Szh199473 bge_unattach(bgep, ASF_MODE_SHUTDOWN); 29031408Srandyf #else 29041369Sdduvall bge_unattach(bgep); 29051408Srandyf #endif 29061369Sdduvall return (DDI_FAILURE); 29071369Sdduvall } 29081369Sdduvall 29091369Sdduvall /* 29101369Sdduvall * bge_suspend() -- suspend transmit/receive for powerdown 29111369Sdduvall */ 29121369Sdduvall static int 29131369Sdduvall bge_suspend(bge_t *bgep) 29141369Sdduvall { 29151369Sdduvall /* 29161369Sdduvall * Stop processing and idle (powerdown) the PHY ... 29171369Sdduvall */ 29181369Sdduvall mutex_enter(bgep->genlock); 29191408Srandyf #ifdef BGE_IPMI_ASF 29201408Srandyf /* 29211408Srandyf * Power management hasn't been supported in BGE now. If you 29221408Srandyf * want to implement it, please add the ASF/IPMI related 29231408Srandyf * code here. 29241408Srandyf */ 29251408Srandyf #endif 29261369Sdduvall bge_stop(bgep); 29271865Sdilpreet if (bge_phys_idle(bgep) != DDI_SUCCESS) { 29281865Sdilpreet (void) bge_check_acc_handle(bgep, bgep->io_handle); 29291865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 29301865Sdilpreet mutex_exit(bgep->genlock); 29311865Sdilpreet return (DDI_FAILURE); 29321865Sdilpreet } 29331865Sdilpreet if (bge_check_acc_handle(bgep, bgep->io_handle) != DDI_FM_OK) { 29341865Sdilpreet ddi_fm_service_impact(bgep->devinfo, DDI_SERVICE_DEGRADED); 29351865Sdilpreet mutex_exit(bgep->genlock); 29361865Sdilpreet return (DDI_FAILURE); 29371865Sdilpreet } 29381369Sdduvall mutex_exit(bgep->genlock); 29391369Sdduvall 29401369Sdduvall return (DDI_SUCCESS); 29411369Sdduvall } 29421369Sdduvall 29431369Sdduvall /* 29441369Sdduvall * detach(9E) -- Detach a device from the system 29451369Sdduvall */ 29461369Sdduvall static int 29471369Sdduvall bge_detach(dev_info_t *devinfo, ddi_detach_cmd_t cmd) 29481369Sdduvall { 29491369Sdduvall bge_t *bgep; 29501408Srandyf #ifdef BGE_IPMI_ASF 29511408Srandyf uint_t asf_mode; 29521408Srandyf asf_mode = ASF_MODE_NONE; 29531408Srandyf #endif 29541369Sdduvall 29551369Sdduvall BGE_GTRACE(("bge_detach($%p, %d)", (void *)devinfo, cmd)); 29561369Sdduvall 29571369Sdduvall bgep = ddi_get_driver_private(devinfo); 29581369Sdduvall 29591369Sdduvall switch (cmd) { 29601369Sdduvall default: 29611369Sdduvall return (DDI_FAILURE); 29621369Sdduvall 29631369Sdduvall case DDI_SUSPEND: 29641369Sdduvall return (bge_suspend(bgep)); 29651369Sdduvall 29661369Sdduvall case DDI_DETACH: 29671369Sdduvall break; 29681369Sdduvall } 29691369Sdduvall 29701408Srandyf #ifdef BGE_IPMI_ASF 29711408Srandyf mutex_enter(bgep->genlock); 29722675Szh199473 if (bgep->asf_enabled && ((bgep->asf_status == ASF_STAT_RUN) || 2973*4588Sml149210 (bgep->asf_status == ASF_STAT_RUN_INIT))) { 29741408Srandyf 29751408Srandyf bge_asf_update_status(bgep); 29762675Szh199473 if (bgep->asf_status == ASF_STAT_RUN) { 29772675Szh199473 bge_asf_stop_timer(bgep); 29782675Szh199473 } 29791408Srandyf bgep->asf_status = ASF_STAT_STOP; 29801408Srandyf 29811408Srandyf bge_asf_pre_reset_operations(bgep, BGE_SHUTDOWN_RESET); 29821408Srandyf 29831408Srandyf if (bgep->asf_pseudostop) { 29841408Srandyf bge_chip_stop(bgep, B_FALSE); 29851408Srandyf bgep->bge_mac_state = BGE_MAC_STOPPED; 29861408Srandyf bgep->asf_pseudostop = B_FALSE; 29871408Srandyf } 29881408Srandyf 29891408Srandyf asf_mode = ASF_MODE_POST_SHUTDOWN; 29901865Sdilpreet 29911865Sdilpreet if (bge_check_acc_handle(bgep, bgep->cfg_handle) != DDI_FM_OK) 29921865Sdilpreet ddi_fm_service_impact(bgep->devinfo, 29931865Sdilpreet DDI_SERVICE_UNAFFECTED); 29941865Sdilpreet if (bge_check_acc_handle(bgep, bgep->io_handle) != DDI_FM_OK) 29951865Sdilpreet ddi_fm_service_impact(bgep->devinfo, 29961865Sdilpreet DDI_SERVICE_UNAFFECTED); 29971408Srandyf } 29981408Srandyf mutex_exit(bgep->genlock); 29991408Srandyf #endif 30001408Srandyf 30011369Sdduvall /* 30021369Sdduvall * Unregister from the GLD subsystem. This can fail, in 30031369Sdduvall * particular if there are DLPI style-2 streams still open - 30041369Sdduvall * in which case we just return failure without shutting 30051369Sdduvall * down chip operations. 30061369Sdduvall */ 30072311Sseb if (mac_unregister(bgep->mh) != 0) 30081369Sdduvall return (DDI_FAILURE); 30091369Sdduvall 30101369Sdduvall /* 30111369Sdduvall * All activity stopped, so we can clean up & exit 30121369Sdduvall */ 30131408Srandyf #ifdef BGE_IPMI_ASF 30141408Srandyf bge_unattach(bgep, asf_mode); 30151408Srandyf #else 30161369Sdduvall bge_unattach(bgep); 30171408Srandyf #endif 30181369Sdduvall return (DDI_SUCCESS); 30191369Sdduvall } 30201369Sdduvall 30211369Sdduvall 30221369Sdduvall /* 30231369Sdduvall * ========== Module Loading Data & Entry Points ========== 30241369Sdduvall */ 30251369Sdduvall 30261369Sdduvall #undef BGE_DBG 30271369Sdduvall #define BGE_DBG BGE_DBG_INIT /* debug flag for this code */ 30281369Sdduvall 30291369Sdduvall DDI_DEFINE_STREAM_OPS(bge_dev_ops, nulldev, nulldev, bge_attach, bge_detach, 30301369Sdduvall nodev, NULL, D_MP, NULL); 30311369Sdduvall 30321369Sdduvall static struct modldrv bge_modldrv = { 30331369Sdduvall &mod_driverops, /* Type of module. This one is a driver */ 30341369Sdduvall bge_ident, /* short description */ 30351369Sdduvall &bge_dev_ops /* driver specific ops */ 30361369Sdduvall }; 30371369Sdduvall 30381369Sdduvall static struct modlinkage modlinkage = { 30391369Sdduvall MODREV_1, (void *)&bge_modldrv, NULL 30401369Sdduvall }; 30411369Sdduvall 30421369Sdduvall 30431369Sdduvall int 30441369Sdduvall _info(struct modinfo *modinfop) 30451369Sdduvall { 30461369Sdduvall return (mod_info(&modlinkage, modinfop)); 30471369Sdduvall } 30481369Sdduvall 30491369Sdduvall int 30501369Sdduvall _init(void) 30511369Sdduvall { 30521369Sdduvall int status; 30531369Sdduvall 30541369Sdduvall mac_init_ops(&bge_dev_ops, "bge"); 30551369Sdduvall status = mod_install(&modlinkage); 30561369Sdduvall if (status == DDI_SUCCESS) 30571369Sdduvall mutex_init(bge_log_mutex, NULL, MUTEX_DRIVER, NULL); 30581369Sdduvall else 30591369Sdduvall mac_fini_ops(&bge_dev_ops); 30601369Sdduvall return (status); 30611369Sdduvall } 30621369Sdduvall 30631369Sdduvall int 30641369Sdduvall _fini(void) 30651369Sdduvall { 30661369Sdduvall int status; 30671369Sdduvall 30681369Sdduvall status = mod_remove(&modlinkage); 30691369Sdduvall if (status == DDI_SUCCESS) { 30701369Sdduvall mac_fini_ops(&bge_dev_ops); 30711369Sdduvall mutex_destroy(bge_log_mutex); 30721369Sdduvall } 30731369Sdduvall return (status); 30741369Sdduvall } 30751369Sdduvall 30761369Sdduvall 30771369Sdduvall /* 30781369Sdduvall * bge_add_intrs: 30791369Sdduvall * 30801369Sdduvall * Register FIXED or MSI interrupts. 30811369Sdduvall */ 30821369Sdduvall static int 30831369Sdduvall bge_add_intrs(bge_t *bgep, int intr_type) 30841369Sdduvall { 30851369Sdduvall dev_info_t *dip = bgep->devinfo; 30861369Sdduvall int avail, actual, intr_size, count = 0; 30871369Sdduvall int i, flag, ret; 30881369Sdduvall 30892675Szh199473 BGE_DEBUG(("bge_add_intrs($%p, 0x%x)", (void *)bgep, intr_type)); 30901369Sdduvall 30911369Sdduvall /* Get number of interrupts */ 30921369Sdduvall ret = ddi_intr_get_nintrs(dip, intr_type, &count); 30931369Sdduvall if ((ret != DDI_SUCCESS) || (count == 0)) { 30941369Sdduvall bge_error(bgep, "ddi_intr_get_nintrs() failure, ret: %d, " 30951369Sdduvall "count: %d", ret, count); 30961369Sdduvall 30971369Sdduvall return (DDI_FAILURE); 30981369Sdduvall } 30991369Sdduvall 31001369Sdduvall /* Get number of available interrupts */ 31011369Sdduvall ret = ddi_intr_get_navail(dip, intr_type, &avail); 31021369Sdduvall if ((ret != DDI_SUCCESS) || (avail == 0)) { 31031369Sdduvall bge_error(bgep, "ddi_intr_get_navail() failure, " 31041369Sdduvall "ret: %d, avail: %d\n", ret, avail); 31051369Sdduvall 31061369Sdduvall return (DDI_FAILURE); 31071369Sdduvall } 31081369Sdduvall 31091369Sdduvall if (avail < count) { 31102675Szh199473 BGE_DEBUG(("%s: nintrs() returned %d, navail returned %d", 31112675Szh199473 bgep->ifname, count, avail)); 31121369Sdduvall } 31131369Sdduvall 31141369Sdduvall /* 31151369Sdduvall * BGE hardware generates only single MSI even though it claims 31161369Sdduvall * to support multiple MSIs. So, hard code MSI count value to 1. 31171369Sdduvall */ 31181369Sdduvall if (intr_type == DDI_INTR_TYPE_MSI) { 31191369Sdduvall count = 1; 31201369Sdduvall flag = DDI_INTR_ALLOC_STRICT; 31211369Sdduvall } else { 31221369Sdduvall flag = DDI_INTR_ALLOC_NORMAL; 31231369Sdduvall } 31241369Sdduvall 31251369Sdduvall /* Allocate an array of interrupt handles */ 31261369Sdduvall intr_size = count * sizeof (ddi_intr_handle_t); 31271369Sdduvall bgep->htable = kmem_alloc(intr_size, KM_SLEEP); 31281369Sdduvall 31291369Sdduvall /* Call ddi_intr_alloc() */ 31301369Sdduvall ret = ddi_intr_alloc(dip, bgep->htable, intr_type, 0, 31311369Sdduvall count, &actual, flag); 31321369Sdduvall 31331369Sdduvall if ((ret != DDI_SUCCESS) || (actual == 0)) { 31341369Sdduvall bge_error(bgep, "ddi_intr_alloc() failed %d\n", ret); 31351369Sdduvall 31361369Sdduvall kmem_free(bgep->htable, intr_size); 31371369Sdduvall return (DDI_FAILURE); 31381369Sdduvall } 31391369Sdduvall 31401369Sdduvall if (actual < count) { 31412675Szh199473 BGE_DEBUG(("%s: Requested: %d, Received: %d", 3142*4588Sml149210 bgep->ifname, count, actual)); 31431369Sdduvall } 31441369Sdduvall 31451369Sdduvall bgep->intr_cnt = actual; 31461369Sdduvall 31471369Sdduvall /* 31481369Sdduvall * Get priority for first msi, assume remaining are all the same 31491369Sdduvall */ 31501369Sdduvall if ((ret = ddi_intr_get_pri(bgep->htable[0], &bgep->intr_pri)) != 31511369Sdduvall DDI_SUCCESS) { 31521369Sdduvall bge_error(bgep, "ddi_intr_get_pri() failed %d\n", ret); 31531369Sdduvall 31541369Sdduvall /* Free already allocated intr */ 31551369Sdduvall for (i = 0; i < actual; i++) { 31561369Sdduvall (void) ddi_intr_free(bgep->htable[i]); 31571369Sdduvall } 31581369Sdduvall 31591369Sdduvall kmem_free(bgep->htable, intr_size); 31601369Sdduvall return (DDI_FAILURE); 31611369Sdduvall } 31621369Sdduvall 31631369Sdduvall /* Call ddi_intr_add_handler() */ 31641369Sdduvall for (i = 0; i < actual; i++) { 31651369Sdduvall if ((ret = ddi_intr_add_handler(bgep->htable[i], bge_intr, 31661369Sdduvall (caddr_t)bgep, (caddr_t)(uintptr_t)i)) != DDI_SUCCESS) { 31671369Sdduvall bge_error(bgep, "ddi_intr_add_handler() " 31681369Sdduvall "failed %d\n", ret); 31691369Sdduvall 31701369Sdduvall /* Free already allocated intr */ 31711369Sdduvall for (i = 0; i < actual; i++) { 31721369Sdduvall (void) ddi_intr_free(bgep->htable[i]); 31731369Sdduvall } 31741369Sdduvall 31751369Sdduvall kmem_free(bgep->htable, intr_size); 31761369Sdduvall return (DDI_FAILURE); 31771369Sdduvall } 31781369Sdduvall } 31791369Sdduvall 31801369Sdduvall if ((ret = ddi_intr_get_cap(bgep->htable[0], &bgep->intr_cap)) 3181*4588Sml149210 != DDI_SUCCESS) { 31821369Sdduvall bge_error(bgep, "ddi_intr_get_cap() failed %d\n", ret); 31831369Sdduvall 31841369Sdduvall for (i = 0; i < actual; i++) { 31851369Sdduvall (void) ddi_intr_remove_handler(bgep->htable[i]); 31861369Sdduvall (void) ddi_intr_free(bgep->htable[i]); 31871369Sdduvall } 31881369Sdduvall 31891369Sdduvall kmem_free(bgep->htable, intr_size); 31901369Sdduvall return (DDI_FAILURE); 31911369Sdduvall } 31921369Sdduvall 31931369Sdduvall return (DDI_SUCCESS); 31941369Sdduvall } 31951369Sdduvall 31961369Sdduvall /* 31971369Sdduvall * bge_rem_intrs: 31981369Sdduvall * 31991369Sdduvall * Unregister FIXED or MSI interrupts 32001369Sdduvall */ 32011369Sdduvall static void 32021369Sdduvall bge_rem_intrs(bge_t *bgep) 32031369Sdduvall { 32041369Sdduvall int i; 32051369Sdduvall 32062675Szh199473 BGE_DEBUG(("bge_rem_intrs($%p)", (void *)bgep)); 32071369Sdduvall 32081865Sdilpreet /* Call ddi_intr_remove_handler() */ 32091865Sdilpreet for (i = 0; i < bgep->intr_cnt; i++) { 32101865Sdilpreet (void) ddi_intr_remove_handler(bgep->htable[i]); 32111865Sdilpreet (void) ddi_intr_free(bgep->htable[i]); 32121865Sdilpreet } 32131865Sdilpreet 32141865Sdilpreet kmem_free(bgep->htable, bgep->intr_cnt * sizeof (ddi_intr_handle_t)); 32151865Sdilpreet } 32161865Sdilpreet 32171865Sdilpreet 32181865Sdilpreet void 32191865Sdilpreet bge_intr_enable(bge_t *bgep) 32201865Sdilpreet { 32211865Sdilpreet int i; 32221865Sdilpreet 32231865Sdilpreet if (bgep->intr_cap & DDI_INTR_FLAG_BLOCK) { 32241865Sdilpreet /* Call ddi_intr_block_enable() for MSI interrupts */ 32251865Sdilpreet (void) ddi_intr_block_enable(bgep->htable, bgep->intr_cnt); 32261865Sdilpreet } else { 32271865Sdilpreet /* Call ddi_intr_enable for MSI or FIXED interrupts */ 32281865Sdilpreet for (i = 0; i < bgep->intr_cnt; i++) { 32291865Sdilpreet (void) ddi_intr_enable(bgep->htable[i]); 32301865Sdilpreet } 32311865Sdilpreet } 32321865Sdilpreet } 32331865Sdilpreet 32341865Sdilpreet 32351865Sdilpreet void 32361865Sdilpreet bge_intr_disable(bge_t *bgep) 32371865Sdilpreet { 32381865Sdilpreet int i; 32391865Sdilpreet 32401369Sdduvall if (bgep->intr_cap & DDI_INTR_FLAG_BLOCK) { 32411369Sdduvall /* Call ddi_intr_block_disable() */ 32421369Sdduvall (void) ddi_intr_block_disable(bgep->htable, bgep->intr_cnt); 32431369Sdduvall } else { 32441369Sdduvall for (i = 0; i < bgep->intr_cnt; i++) { 32451369Sdduvall (void) ddi_intr_disable(bgep->htable[i]); 32461369Sdduvall } 32471369Sdduvall } 32481369Sdduvall } 3249