1dce93cd0SAchim Leubner /*- 2718cf2ccSPedro F. Giffuni * SPDX-License-Identifier: BSD-2-Clause-FreeBSD 3718cf2ccSPedro F. Giffuni * 4dce93cd0SAchim Leubner * Copyright (c) 2000 Michael Smith 5dce93cd0SAchim Leubner * Copyright (c) 2001 Scott Long 6dce93cd0SAchim Leubner * Copyright (c) 2000 BSDi 7dce93cd0SAchim Leubner * Copyright (c) 2001-2010 Adaptec, Inc. 8dce93cd0SAchim Leubner * Copyright (c) 2010-2012 PMC-Sierra, Inc. 9dce93cd0SAchim Leubner * All rights reserved. 10dce93cd0SAchim Leubner * 11dce93cd0SAchim Leubner * Redistribution and use in source and binary forms, with or without 12dce93cd0SAchim Leubner * modification, are permitted provided that the following conditions 13dce93cd0SAchim Leubner * are met: 14dce93cd0SAchim Leubner * 1. Redistributions of source code must retain the above copyright 15dce93cd0SAchim Leubner * notice, this list of conditions and the following disclaimer. 16dce93cd0SAchim Leubner * 2. Redistributions in binary form must reproduce the above copyright 17dce93cd0SAchim Leubner * notice, this list of conditions and the following disclaimer in the 18dce93cd0SAchim Leubner * documentation and/or other materials provided with the distribution. 19dce93cd0SAchim Leubner * 20dce93cd0SAchim Leubner * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 21dce93cd0SAchim Leubner * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 22dce93cd0SAchim Leubner * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 23dce93cd0SAchim Leubner * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 24dce93cd0SAchim Leubner * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 25dce93cd0SAchim Leubner * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 26dce93cd0SAchim Leubner * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 27dce93cd0SAchim Leubner * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 28dce93cd0SAchim Leubner * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 29dce93cd0SAchim Leubner * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 30dce93cd0SAchim Leubner * SUCH DAMAGE. 31dce93cd0SAchim Leubner */ 32dce93cd0SAchim Leubner 33dce93cd0SAchim Leubner #include <sys/cdefs.h> 34dce93cd0SAchim Leubner __FBSDID("$FreeBSD$"); 35dce93cd0SAchim Leubner 36dce93cd0SAchim Leubner /* 37dce93cd0SAchim Leubner * Driver for the Adaptec by PMC Series 6,7,8,... families of RAID controllers 38dce93cd0SAchim Leubner */ 39dce93cd0SAchim Leubner #define AAC_DRIVERNAME "aacraid" 40dce93cd0SAchim Leubner 41dce93cd0SAchim Leubner #include "opt_aacraid.h" 42dce93cd0SAchim Leubner 43dce93cd0SAchim Leubner /* #include <stddef.h> */ 44dce93cd0SAchim Leubner #include <sys/param.h> 45dce93cd0SAchim Leubner #include <sys/systm.h> 46dce93cd0SAchim Leubner #include <sys/malloc.h> 47dce93cd0SAchim Leubner #include <sys/kernel.h> 48dce93cd0SAchim Leubner #include <sys/kthread.h> 49f287c3e4SBrooks Davis #include <sys/proc.h> 50dce93cd0SAchim Leubner #include <sys/sysctl.h> 51f287c3e4SBrooks Davis #include <sys/sysent.h> 52dce93cd0SAchim Leubner #include <sys/poll.h> 53dce93cd0SAchim Leubner #include <sys/ioccom.h> 54dce93cd0SAchim Leubner 55dce93cd0SAchim Leubner #include <sys/bus.h> 56dce93cd0SAchim Leubner #include <sys/conf.h> 57dce93cd0SAchim Leubner #include <sys/signalvar.h> 58dce93cd0SAchim Leubner #include <sys/time.h> 59dce93cd0SAchim Leubner #include <sys/eventhandler.h> 60dce93cd0SAchim Leubner #include <sys/rman.h> 61dce93cd0SAchim Leubner 62dce93cd0SAchim Leubner #include <machine/bus.h> 63dce93cd0SAchim Leubner #include <machine/resource.h> 64dce93cd0SAchim Leubner 65dce93cd0SAchim Leubner #include <dev/pci/pcireg.h> 66dce93cd0SAchim Leubner #include <dev/pci/pcivar.h> 67dce93cd0SAchim Leubner 68dce93cd0SAchim Leubner #include <dev/aacraid/aacraid_reg.h> 69dce93cd0SAchim Leubner #include <sys/aac_ioctl.h> 70dce93cd0SAchim Leubner #include <dev/aacraid/aacraid_debug.h> 71dce93cd0SAchim Leubner #include <dev/aacraid/aacraid_var.h> 72dce93cd0SAchim Leubner 73dce93cd0SAchim Leubner #ifndef FILTER_HANDLED 74dce93cd0SAchim Leubner #define FILTER_HANDLED 0x02 75dce93cd0SAchim Leubner #endif 76dce93cd0SAchim Leubner 77dce93cd0SAchim Leubner static void aac_add_container(struct aac_softc *sc, 78dce93cd0SAchim Leubner struct aac_mntinforesp *mir, int f, 79dce93cd0SAchim Leubner u_int32_t uid); 80dce93cd0SAchim Leubner static void aac_get_bus_info(struct aac_softc *sc); 81dce93cd0SAchim Leubner static void aac_container_bus(struct aac_softc *sc); 82dce93cd0SAchim Leubner static void aac_daemon(void *arg); 83dce93cd0SAchim Leubner static int aac_convert_sgraw2(struct aac_softc *sc, struct aac_raw_io2 *raw, 84dce93cd0SAchim Leubner int pages, int nseg, int nseg_new); 85dce93cd0SAchim Leubner 86dce93cd0SAchim Leubner /* Command Processing */ 87dce93cd0SAchim Leubner static void aac_timeout(struct aac_softc *sc); 88dce93cd0SAchim Leubner static void aac_command_thread(struct aac_softc *sc); 89dce93cd0SAchim Leubner static int aac_sync_fib(struct aac_softc *sc, u_int32_t command, 90dce93cd0SAchim Leubner u_int32_t xferstate, struct aac_fib *fib, 91dce93cd0SAchim Leubner u_int16_t datasize); 92dce93cd0SAchim Leubner /* Command Buffer Management */ 93dce93cd0SAchim Leubner static void aac_map_command_helper(void *arg, bus_dma_segment_t *segs, 94dce93cd0SAchim Leubner int nseg, int error); 95dce93cd0SAchim Leubner static int aac_alloc_commands(struct aac_softc *sc); 96dce93cd0SAchim Leubner static void aac_free_commands(struct aac_softc *sc); 97dce93cd0SAchim Leubner static void aac_unmap_command(struct aac_command *cm); 98dce93cd0SAchim Leubner 99dce93cd0SAchim Leubner /* Hardware Interface */ 100dce93cd0SAchim Leubner static int aac_alloc(struct aac_softc *sc); 101dce93cd0SAchim Leubner static void aac_common_map(void *arg, bus_dma_segment_t *segs, int nseg, 102dce93cd0SAchim Leubner int error); 103dce93cd0SAchim Leubner static int aac_check_firmware(struct aac_softc *sc); 1043fea9c0dSAchim Leubner static void aac_define_int_mode(struct aac_softc *sc); 105dce93cd0SAchim Leubner static int aac_init(struct aac_softc *sc); 1063fea9c0dSAchim Leubner static int aac_find_pci_capability(struct aac_softc *sc, int cap); 107dce93cd0SAchim Leubner static int aac_setup_intr(struct aac_softc *sc); 1083fea9c0dSAchim Leubner static int aac_check_config(struct aac_softc *sc); 109dce93cd0SAchim Leubner 110dce93cd0SAchim Leubner /* PMC SRC interface */ 111dce93cd0SAchim Leubner static int aac_src_get_fwstatus(struct aac_softc *sc); 112dce93cd0SAchim Leubner static void aac_src_qnotify(struct aac_softc *sc, int qbit); 113dce93cd0SAchim Leubner static int aac_src_get_istatus(struct aac_softc *sc); 114dce93cd0SAchim Leubner static void aac_src_clear_istatus(struct aac_softc *sc, int mask); 115dce93cd0SAchim Leubner static void aac_src_set_mailbox(struct aac_softc *sc, u_int32_t command, 116dce93cd0SAchim Leubner u_int32_t arg0, u_int32_t arg1, 117dce93cd0SAchim Leubner u_int32_t arg2, u_int32_t arg3); 118dce93cd0SAchim Leubner static int aac_src_get_mailbox(struct aac_softc *sc, int mb); 1193fea9c0dSAchim Leubner static void aac_src_access_devreg(struct aac_softc *sc, int mode); 120dce93cd0SAchim Leubner static int aac_src_send_command(struct aac_softc *sc, struct aac_command *cm); 121dce93cd0SAchim Leubner static int aac_src_get_outb_queue(struct aac_softc *sc); 122dce93cd0SAchim Leubner static void aac_src_set_outb_queue(struct aac_softc *sc, int index); 123dce93cd0SAchim Leubner 124dce93cd0SAchim Leubner struct aac_interface aacraid_src_interface = { 125dce93cd0SAchim Leubner aac_src_get_fwstatus, 126dce93cd0SAchim Leubner aac_src_qnotify, 127dce93cd0SAchim Leubner aac_src_get_istatus, 128dce93cd0SAchim Leubner aac_src_clear_istatus, 129dce93cd0SAchim Leubner aac_src_set_mailbox, 130dce93cd0SAchim Leubner aac_src_get_mailbox, 1313fea9c0dSAchim Leubner aac_src_access_devreg, 132dce93cd0SAchim Leubner aac_src_send_command, 133dce93cd0SAchim Leubner aac_src_get_outb_queue, 134dce93cd0SAchim Leubner aac_src_set_outb_queue 135dce93cd0SAchim Leubner }; 136dce93cd0SAchim Leubner 137dce93cd0SAchim Leubner /* PMC SRCv interface */ 138dce93cd0SAchim Leubner static void aac_srcv_set_mailbox(struct aac_softc *sc, u_int32_t command, 139dce93cd0SAchim Leubner u_int32_t arg0, u_int32_t arg1, 140dce93cd0SAchim Leubner u_int32_t arg2, u_int32_t arg3); 141dce93cd0SAchim Leubner static int aac_srcv_get_mailbox(struct aac_softc *sc, int mb); 142dce93cd0SAchim Leubner 143dce93cd0SAchim Leubner struct aac_interface aacraid_srcv_interface = { 144dce93cd0SAchim Leubner aac_src_get_fwstatus, 145dce93cd0SAchim Leubner aac_src_qnotify, 146dce93cd0SAchim Leubner aac_src_get_istatus, 147dce93cd0SAchim Leubner aac_src_clear_istatus, 148dce93cd0SAchim Leubner aac_srcv_set_mailbox, 149dce93cd0SAchim Leubner aac_srcv_get_mailbox, 1503fea9c0dSAchim Leubner aac_src_access_devreg, 151dce93cd0SAchim Leubner aac_src_send_command, 152dce93cd0SAchim Leubner aac_src_get_outb_queue, 153dce93cd0SAchim Leubner aac_src_set_outb_queue 154dce93cd0SAchim Leubner }; 155dce93cd0SAchim Leubner 156dce93cd0SAchim Leubner /* Debugging and Diagnostics */ 157dce93cd0SAchim Leubner static struct aac_code_lookup aac_cpu_variant[] = { 158dce93cd0SAchim Leubner {"i960JX", CPUI960_JX}, 159dce93cd0SAchim Leubner {"i960CX", CPUI960_CX}, 160dce93cd0SAchim Leubner {"i960HX", CPUI960_HX}, 161dce93cd0SAchim Leubner {"i960RX", CPUI960_RX}, 162dce93cd0SAchim Leubner {"i960 80303", CPUI960_80303}, 163dce93cd0SAchim Leubner {"StrongARM SA110", CPUARM_SA110}, 164dce93cd0SAchim Leubner {"PPC603e", CPUPPC_603e}, 165dce93cd0SAchim Leubner {"XScale 80321", CPU_XSCALE_80321}, 166dce93cd0SAchim Leubner {"MIPS 4KC", CPU_MIPS_4KC}, 167dce93cd0SAchim Leubner {"MIPS 5KC", CPU_MIPS_5KC}, 168dce93cd0SAchim Leubner {"Unknown StrongARM", CPUARM_xxx}, 169dce93cd0SAchim Leubner {"Unknown PowerPC", CPUPPC_xxx}, 170dce93cd0SAchim Leubner {NULL, 0}, 171dce93cd0SAchim Leubner {"Unknown processor", 0} 172dce93cd0SAchim Leubner }; 173dce93cd0SAchim Leubner 174dce93cd0SAchim Leubner static struct aac_code_lookup aac_battery_platform[] = { 175dce93cd0SAchim Leubner {"required battery present", PLATFORM_BAT_REQ_PRESENT}, 176dce93cd0SAchim Leubner {"REQUIRED BATTERY NOT PRESENT", PLATFORM_BAT_REQ_NOTPRESENT}, 177dce93cd0SAchim Leubner {"optional battery present", PLATFORM_BAT_OPT_PRESENT}, 178dce93cd0SAchim Leubner {"optional battery not installed", PLATFORM_BAT_OPT_NOTPRESENT}, 179dce93cd0SAchim Leubner {"no battery support", PLATFORM_BAT_NOT_SUPPORTED}, 180dce93cd0SAchim Leubner {NULL, 0}, 181dce93cd0SAchim Leubner {"unknown battery platform", 0} 182dce93cd0SAchim Leubner }; 183dce93cd0SAchim Leubner static void aac_describe_controller(struct aac_softc *sc); 184dce93cd0SAchim Leubner static char *aac_describe_code(struct aac_code_lookup *table, 185dce93cd0SAchim Leubner u_int32_t code); 186dce93cd0SAchim Leubner 187dce93cd0SAchim Leubner /* Management Interface */ 188dce93cd0SAchim Leubner static d_open_t aac_open; 189dce93cd0SAchim Leubner static d_ioctl_t aac_ioctl; 190dce93cd0SAchim Leubner static d_poll_t aac_poll; 191dce93cd0SAchim Leubner #if __FreeBSD_version >= 702000 192dce93cd0SAchim Leubner static void aac_cdevpriv_dtor(void *arg); 193dce93cd0SAchim Leubner #else 194dce93cd0SAchim Leubner static d_close_t aac_close; 195dce93cd0SAchim Leubner #endif 196dce93cd0SAchim Leubner static int aac_ioctl_sendfib(struct aac_softc *sc, caddr_t ufib); 197dce93cd0SAchim Leubner static int aac_ioctl_send_raw_srb(struct aac_softc *sc, caddr_t arg); 198dce93cd0SAchim Leubner static void aac_handle_aif(struct aac_softc *sc, struct aac_fib *fib); 199dce93cd0SAchim Leubner static void aac_request_aif(struct aac_softc *sc); 200dce93cd0SAchim Leubner static int aac_rev_check(struct aac_softc *sc, caddr_t udata); 201dce93cd0SAchim Leubner static int aac_open_aif(struct aac_softc *sc, caddr_t arg); 202dce93cd0SAchim Leubner static int aac_close_aif(struct aac_softc *sc, caddr_t arg); 203dce93cd0SAchim Leubner static int aac_getnext_aif(struct aac_softc *sc, caddr_t arg); 204dce93cd0SAchim Leubner static int aac_return_aif(struct aac_softc *sc, 205dce93cd0SAchim Leubner struct aac_fib_context *ctx, caddr_t uptr); 206dce93cd0SAchim Leubner static int aac_query_disk(struct aac_softc *sc, caddr_t uptr); 207dce93cd0SAchim Leubner static int aac_get_pci_info(struct aac_softc *sc, caddr_t uptr); 208dce93cd0SAchim Leubner static int aac_supported_features(struct aac_softc *sc, caddr_t uptr); 209dce93cd0SAchim Leubner static void aac_ioctl_event(struct aac_softc *sc, 210dce93cd0SAchim Leubner struct aac_event *event, void *arg); 211dce93cd0SAchim Leubner static int aac_reset_adapter(struct aac_softc *sc); 212dce93cd0SAchim Leubner static int aac_get_container_info(struct aac_softc *sc, 213dce93cd0SAchim Leubner struct aac_fib *fib, int cid, 214dce93cd0SAchim Leubner struct aac_mntinforesp *mir, 215dce93cd0SAchim Leubner u_int32_t *uid); 216dce93cd0SAchim Leubner static u_int32_t 217dce93cd0SAchim Leubner aac_check_adapter_health(struct aac_softc *sc, u_int8_t *bled); 218dce93cd0SAchim Leubner 219dce93cd0SAchim Leubner static struct cdevsw aacraid_cdevsw = { 220dce93cd0SAchim Leubner .d_version = D_VERSION, 221*dfdbb320SWarner Losh .d_flags = 0, 222dce93cd0SAchim Leubner .d_open = aac_open, 223dce93cd0SAchim Leubner #if __FreeBSD_version < 702000 224dce93cd0SAchim Leubner .d_close = aac_close, 225dce93cd0SAchim Leubner #endif 226dce93cd0SAchim Leubner .d_ioctl = aac_ioctl, 227dce93cd0SAchim Leubner .d_poll = aac_poll, 228dce93cd0SAchim Leubner .d_name = "aacraid", 229dce93cd0SAchim Leubner }; 230dce93cd0SAchim Leubner 231dce93cd0SAchim Leubner MALLOC_DEFINE(M_AACRAIDBUF, "aacraid_buf", "Buffers for the AACRAID driver"); 232dce93cd0SAchim Leubner 233dce93cd0SAchim Leubner /* sysctl node */ 234dce93cd0SAchim Leubner SYSCTL_NODE(_hw, OID_AUTO, aacraid, CTLFLAG_RD, 0, "AACRAID driver parameters"); 235dce93cd0SAchim Leubner 236dce93cd0SAchim Leubner /* 237dce93cd0SAchim Leubner * Device Interface 238dce93cd0SAchim Leubner */ 239dce93cd0SAchim Leubner 240dce93cd0SAchim Leubner /* 241dce93cd0SAchim Leubner * Initialize the controller and softc 242dce93cd0SAchim Leubner */ 243dce93cd0SAchim Leubner int 244dce93cd0SAchim Leubner aacraid_attach(struct aac_softc *sc) 245dce93cd0SAchim Leubner { 246dce93cd0SAchim Leubner int error, unit; 247dce93cd0SAchim Leubner struct aac_fib *fib; 248dce93cd0SAchim Leubner struct aac_mntinforesp mir; 249dce93cd0SAchim Leubner int count = 0, i = 0; 250dce93cd0SAchim Leubner u_int32_t uid; 251dce93cd0SAchim Leubner 252dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 253dce93cd0SAchim Leubner sc->hint_flags = device_get_flags(sc->aac_dev); 254dce93cd0SAchim Leubner /* 255dce93cd0SAchim Leubner * Initialize per-controller queues. 256dce93cd0SAchim Leubner */ 257dce93cd0SAchim Leubner aac_initq_free(sc); 258dce93cd0SAchim Leubner aac_initq_ready(sc); 259dce93cd0SAchim Leubner aac_initq_busy(sc); 260dce93cd0SAchim Leubner 261dce93cd0SAchim Leubner /* mark controller as suspended until we get ourselves organised */ 262dce93cd0SAchim Leubner sc->aac_state |= AAC_STATE_SUSPEND; 263dce93cd0SAchim Leubner 264dce93cd0SAchim Leubner /* 265dce93cd0SAchim Leubner * Check that the firmware on the card is supported. 266dce93cd0SAchim Leubner */ 2674f1dfabaSMaxim Sobolev sc->msi_enabled = sc->msi_tupelo = FALSE; 268dce93cd0SAchim Leubner if ((error = aac_check_firmware(sc)) != 0) 269dce93cd0SAchim Leubner return(error); 270dce93cd0SAchim Leubner 271dce93cd0SAchim Leubner /* 272dce93cd0SAchim Leubner * Initialize locks 273dce93cd0SAchim Leubner */ 274dce93cd0SAchim Leubner mtx_init(&sc->aac_io_lock, "AACRAID I/O lock", NULL, MTX_DEF); 275dce93cd0SAchim Leubner TAILQ_INIT(&sc->aac_container_tqh); 276dce93cd0SAchim Leubner TAILQ_INIT(&sc->aac_ev_cmfree); 277dce93cd0SAchim Leubner 278dce93cd0SAchim Leubner #if __FreeBSD_version >= 800000 279dce93cd0SAchim Leubner /* Initialize the clock daemon callout. */ 280dce93cd0SAchim Leubner callout_init_mtx(&sc->aac_daemontime, &sc->aac_io_lock, 0); 281dce93cd0SAchim Leubner #endif 282dce93cd0SAchim Leubner /* 283dce93cd0SAchim Leubner * Initialize the adapter. 284dce93cd0SAchim Leubner */ 285dce93cd0SAchim Leubner if ((error = aac_alloc(sc)) != 0) 286dce93cd0SAchim Leubner return(error); 2873fea9c0dSAchim Leubner aac_define_int_mode(sc); 2884f1dfabaSMaxim Sobolev if (!(sc->flags & AAC_FLAGS_SYNC_MODE)) { 289dce93cd0SAchim Leubner if ((error = aac_init(sc)) != 0) 290dce93cd0SAchim Leubner return(error); 291dce93cd0SAchim Leubner } 292dce93cd0SAchim Leubner 293dce93cd0SAchim Leubner /* 294dce93cd0SAchim Leubner * Allocate and connect our interrupt. 295dce93cd0SAchim Leubner */ 296dce93cd0SAchim Leubner if ((error = aac_setup_intr(sc)) != 0) 297dce93cd0SAchim Leubner return(error); 298dce93cd0SAchim Leubner 299dce93cd0SAchim Leubner /* 300dce93cd0SAchim Leubner * Print a little information about the controller. 301dce93cd0SAchim Leubner */ 302dce93cd0SAchim Leubner aac_describe_controller(sc); 303dce93cd0SAchim Leubner 304dce93cd0SAchim Leubner /* 305dce93cd0SAchim Leubner * Make the control device. 306dce93cd0SAchim Leubner */ 307dce93cd0SAchim Leubner unit = device_get_unit(sc->aac_dev); 308dce93cd0SAchim Leubner sc->aac_dev_t = make_dev(&aacraid_cdevsw, unit, UID_ROOT, GID_OPERATOR, 309dce93cd0SAchim Leubner 0640, "aacraid%d", unit); 310dce93cd0SAchim Leubner sc->aac_dev_t->si_drv1 = sc; 311dce93cd0SAchim Leubner 312dce93cd0SAchim Leubner /* Create the AIF thread */ 313dce93cd0SAchim Leubner if (aac_kthread_create((void(*)(void *))aac_command_thread, sc, 314dce93cd0SAchim Leubner &sc->aifthread, 0, 0, "aacraid%daif", unit)) 315dce93cd0SAchim Leubner panic("Could not create AIF thread"); 316dce93cd0SAchim Leubner 317dce93cd0SAchim Leubner /* Register the shutdown method to only be called post-dump */ 318dce93cd0SAchim Leubner if ((sc->eh = EVENTHANDLER_REGISTER(shutdown_final, aacraid_shutdown, 319dce93cd0SAchim Leubner sc->aac_dev, SHUTDOWN_PRI_DEFAULT)) == NULL) 320dce93cd0SAchim Leubner device_printf(sc->aac_dev, 321dce93cd0SAchim Leubner "shutdown event registration failed\n"); 322dce93cd0SAchim Leubner 323dce93cd0SAchim Leubner /* Find containers */ 324dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 325dce93cd0SAchim Leubner aac_alloc_sync_fib(sc, &fib); 326dce93cd0SAchim Leubner /* loop over possible containers */ 327dce93cd0SAchim Leubner do { 328dce93cd0SAchim Leubner if ((aac_get_container_info(sc, fib, i, &mir, &uid)) != 0) 329dce93cd0SAchim Leubner continue; 330dce93cd0SAchim Leubner if (i == 0) 331dce93cd0SAchim Leubner count = mir.MntRespCount; 332dce93cd0SAchim Leubner aac_add_container(sc, &mir, 0, uid); 333dce93cd0SAchim Leubner i++; 334dce93cd0SAchim Leubner } while ((i < count) && (i < AAC_MAX_CONTAINERS)); 335dce93cd0SAchim Leubner aac_release_sync_fib(sc); 336dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 337dce93cd0SAchim Leubner 338dce93cd0SAchim Leubner /* Register with CAM for the containers */ 339dce93cd0SAchim Leubner TAILQ_INIT(&sc->aac_sim_tqh); 340dce93cd0SAchim Leubner aac_container_bus(sc); 341dce93cd0SAchim Leubner /* Register with CAM for the non-DASD devices */ 342dce93cd0SAchim Leubner if ((sc->flags & AAC_FLAGS_ENABLE_CAM) != 0) 343dce93cd0SAchim Leubner aac_get_bus_info(sc); 344dce93cd0SAchim Leubner 345dce93cd0SAchim Leubner /* poke the bus to actually attach the child devices */ 346dce93cd0SAchim Leubner bus_generic_attach(sc->aac_dev); 347dce93cd0SAchim Leubner 348dce93cd0SAchim Leubner /* mark the controller up */ 349dce93cd0SAchim Leubner sc->aac_state &= ~AAC_STATE_SUSPEND; 350dce93cd0SAchim Leubner 351dce93cd0SAchim Leubner /* enable interrupts now */ 3523fea9c0dSAchim Leubner AAC_ACCESS_DEVREG(sc, AAC_ENABLE_INTERRUPT); 353dce93cd0SAchim Leubner 354dce93cd0SAchim Leubner #if __FreeBSD_version >= 800000 355dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 356dce93cd0SAchim Leubner callout_reset(&sc->aac_daemontime, 60 * hz, aac_daemon, sc); 357dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 358dce93cd0SAchim Leubner #else 359dce93cd0SAchim Leubner { 360dce93cd0SAchim Leubner struct timeval tv; 361dce93cd0SAchim Leubner tv.tv_sec = 60; 362dce93cd0SAchim Leubner tv.tv_usec = 0; 363dce93cd0SAchim Leubner sc->timeout_id = timeout(aac_daemon, (void *)sc, tvtohz(&tv)); 364dce93cd0SAchim Leubner } 365dce93cd0SAchim Leubner #endif 366dce93cd0SAchim Leubner 367dce93cd0SAchim Leubner return(0); 368dce93cd0SAchim Leubner } 369dce93cd0SAchim Leubner 370dce93cd0SAchim Leubner static void 371dce93cd0SAchim Leubner aac_daemon(void *arg) 372dce93cd0SAchim Leubner { 373dce93cd0SAchim Leubner struct aac_softc *sc; 374dce93cd0SAchim Leubner struct timeval tv; 375dce93cd0SAchim Leubner struct aac_command *cm; 376dce93cd0SAchim Leubner struct aac_fib *fib; 377dce93cd0SAchim Leubner 378dce93cd0SAchim Leubner sc = arg; 379dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 380dce93cd0SAchim Leubner 381dce93cd0SAchim Leubner #if __FreeBSD_version >= 800000 382dce93cd0SAchim Leubner mtx_assert(&sc->aac_io_lock, MA_OWNED); 383dce93cd0SAchim Leubner if (callout_pending(&sc->aac_daemontime) || 384dce93cd0SAchim Leubner callout_active(&sc->aac_daemontime) == 0) 385dce93cd0SAchim Leubner return; 386dce93cd0SAchim Leubner #else 387dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 388dce93cd0SAchim Leubner #endif 389dce93cd0SAchim Leubner getmicrotime(&tv); 390dce93cd0SAchim Leubner 391dce93cd0SAchim Leubner if (!aacraid_alloc_command(sc, &cm)) { 392dce93cd0SAchim Leubner fib = cm->cm_fib; 393dce93cd0SAchim Leubner cm->cm_timestamp = time_uptime; 394dce93cd0SAchim Leubner cm->cm_datalen = 0; 395dce93cd0SAchim Leubner cm->cm_flags |= AAC_CMD_WAIT; 396dce93cd0SAchim Leubner 397dce93cd0SAchim Leubner fib->Header.Size = 398dce93cd0SAchim Leubner sizeof(struct aac_fib_header) + sizeof(u_int32_t); 399dce93cd0SAchim Leubner fib->Header.XferState = 400dce93cd0SAchim Leubner AAC_FIBSTATE_HOSTOWNED | 401dce93cd0SAchim Leubner AAC_FIBSTATE_INITIALISED | 402dce93cd0SAchim Leubner AAC_FIBSTATE_EMPTY | 403dce93cd0SAchim Leubner AAC_FIBSTATE_FROMHOST | 404dce93cd0SAchim Leubner AAC_FIBSTATE_REXPECTED | 405dce93cd0SAchim Leubner AAC_FIBSTATE_NORM | 406dce93cd0SAchim Leubner AAC_FIBSTATE_ASYNC | 407dce93cd0SAchim Leubner AAC_FIBSTATE_FAST_RESPONSE; 408dce93cd0SAchim Leubner fib->Header.Command = SendHostTime; 409dce93cd0SAchim Leubner *(uint32_t *)fib->data = tv.tv_sec; 410dce93cd0SAchim Leubner 411dce93cd0SAchim Leubner aacraid_map_command_sg(cm, NULL, 0, 0); 412dce93cd0SAchim Leubner aacraid_release_command(cm); 413dce93cd0SAchim Leubner } 414dce93cd0SAchim Leubner 415dce93cd0SAchim Leubner #if __FreeBSD_version >= 800000 416dce93cd0SAchim Leubner callout_schedule(&sc->aac_daemontime, 30 * 60 * hz); 417dce93cd0SAchim Leubner #else 418dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 419dce93cd0SAchim Leubner tv.tv_sec = 30 * 60; 420dce93cd0SAchim Leubner tv.tv_usec = 0; 421dce93cd0SAchim Leubner sc->timeout_id = timeout(aac_daemon, (void *)sc, tvtohz(&tv)); 422dce93cd0SAchim Leubner #endif 423dce93cd0SAchim Leubner } 424dce93cd0SAchim Leubner 425dce93cd0SAchim Leubner void 426dce93cd0SAchim Leubner aacraid_add_event(struct aac_softc *sc, struct aac_event *event) 427dce93cd0SAchim Leubner { 428dce93cd0SAchim Leubner 429dce93cd0SAchim Leubner switch (event->ev_type & AAC_EVENT_MASK) { 430dce93cd0SAchim Leubner case AAC_EVENT_CMFREE: 431dce93cd0SAchim Leubner TAILQ_INSERT_TAIL(&sc->aac_ev_cmfree, event, ev_links); 432dce93cd0SAchim Leubner break; 433dce93cd0SAchim Leubner default: 434dce93cd0SAchim Leubner device_printf(sc->aac_dev, "aac_add event: unknown event %d\n", 435dce93cd0SAchim Leubner event->ev_type); 436dce93cd0SAchim Leubner break; 437dce93cd0SAchim Leubner } 438dce93cd0SAchim Leubner 439dce93cd0SAchim Leubner return; 440dce93cd0SAchim Leubner } 441dce93cd0SAchim Leubner 442dce93cd0SAchim Leubner /* 443dce93cd0SAchim Leubner * Request information of container #cid 444dce93cd0SAchim Leubner */ 445dce93cd0SAchim Leubner static int 446dce93cd0SAchim Leubner aac_get_container_info(struct aac_softc *sc, struct aac_fib *sync_fib, int cid, 447dce93cd0SAchim Leubner struct aac_mntinforesp *mir, u_int32_t *uid) 448dce93cd0SAchim Leubner { 449dce93cd0SAchim Leubner struct aac_command *cm; 450dce93cd0SAchim Leubner struct aac_fib *fib; 451dce93cd0SAchim Leubner struct aac_mntinfo *mi; 452dce93cd0SAchim Leubner struct aac_cnt_config *ccfg; 4533fea9c0dSAchim Leubner int rval; 454dce93cd0SAchim Leubner 455dce93cd0SAchim Leubner if (sync_fib == NULL) { 456dce93cd0SAchim Leubner if (aacraid_alloc_command(sc, &cm)) { 457dce93cd0SAchim Leubner device_printf(sc->aac_dev, 458dce93cd0SAchim Leubner "Warning, no free command available\n"); 459dce93cd0SAchim Leubner return (-1); 460dce93cd0SAchim Leubner } 461dce93cd0SAchim Leubner fib = cm->cm_fib; 462dce93cd0SAchim Leubner } else { 463dce93cd0SAchim Leubner fib = sync_fib; 464dce93cd0SAchim Leubner } 465dce93cd0SAchim Leubner 466dce93cd0SAchim Leubner mi = (struct aac_mntinfo *)&fib->data[0]; 467dce93cd0SAchim Leubner /* 4KB support?, 64-bit LBA? */ 468dce93cd0SAchim Leubner if (sc->aac_support_opt2 & AAC_SUPPORTED_VARIABLE_BLOCK_SIZE) 469dce93cd0SAchim Leubner mi->Command = VM_NameServeAllBlk; 470dce93cd0SAchim Leubner else if (sc->flags & AAC_FLAGS_LBA_64BIT) 471dce93cd0SAchim Leubner mi->Command = VM_NameServe64; 472dce93cd0SAchim Leubner else 473dce93cd0SAchim Leubner mi->Command = VM_NameServe; 474dce93cd0SAchim Leubner mi->MntType = FT_FILESYS; 475dce93cd0SAchim Leubner mi->MntCount = cid; 476dce93cd0SAchim Leubner 477dce93cd0SAchim Leubner if (sync_fib) { 478dce93cd0SAchim Leubner if (aac_sync_fib(sc, ContainerCommand, 0, fib, 479dce93cd0SAchim Leubner sizeof(struct aac_mntinfo))) { 480dce93cd0SAchim Leubner device_printf(sc->aac_dev, "Error probing container %d\n", cid); 481dce93cd0SAchim Leubner return (-1); 482dce93cd0SAchim Leubner } 483dce93cd0SAchim Leubner } else { 484dce93cd0SAchim Leubner cm->cm_timestamp = time_uptime; 485dce93cd0SAchim Leubner cm->cm_datalen = 0; 486dce93cd0SAchim Leubner 487dce93cd0SAchim Leubner fib->Header.Size = 488dce93cd0SAchim Leubner sizeof(struct aac_fib_header) + sizeof(struct aac_mntinfo); 489dce93cd0SAchim Leubner fib->Header.XferState = 490dce93cd0SAchim Leubner AAC_FIBSTATE_HOSTOWNED | 491dce93cd0SAchim Leubner AAC_FIBSTATE_INITIALISED | 492dce93cd0SAchim Leubner AAC_FIBSTATE_EMPTY | 493dce93cd0SAchim Leubner AAC_FIBSTATE_FROMHOST | 494dce93cd0SAchim Leubner AAC_FIBSTATE_REXPECTED | 495dce93cd0SAchim Leubner AAC_FIBSTATE_NORM | 496dce93cd0SAchim Leubner AAC_FIBSTATE_ASYNC | 497dce93cd0SAchim Leubner AAC_FIBSTATE_FAST_RESPONSE; 498dce93cd0SAchim Leubner fib->Header.Command = ContainerCommand; 499dce93cd0SAchim Leubner if (aacraid_wait_command(cm) != 0) { 500dce93cd0SAchim Leubner device_printf(sc->aac_dev, "Error probing container %d\n", cid); 501dce93cd0SAchim Leubner aacraid_release_command(cm); 502dce93cd0SAchim Leubner return (-1); 503dce93cd0SAchim Leubner } 504dce93cd0SAchim Leubner } 505dce93cd0SAchim Leubner bcopy(&fib->data[0], mir, sizeof(struct aac_mntinforesp)); 506dce93cd0SAchim Leubner 507dce93cd0SAchim Leubner /* UID */ 508dce93cd0SAchim Leubner *uid = cid; 509dce93cd0SAchim Leubner if (mir->MntTable[0].VolType != CT_NONE && 510dce93cd0SAchim Leubner !(mir->MntTable[0].ContentState & AAC_FSCS_HIDDEN)) { 5113fea9c0dSAchim Leubner if (!(sc->aac_support_opt2 & AAC_SUPPORTED_VARIABLE_BLOCK_SIZE)) { 5123fea9c0dSAchim Leubner mir->MntTable[0].ObjExtension.BlockDevice.BlockSize = 0x200; 5133fea9c0dSAchim Leubner mir->MntTable[0].ObjExtension.BlockDevice.bdLgclPhysMap = 0; 5143fea9c0dSAchim Leubner } 515dce93cd0SAchim Leubner ccfg = (struct aac_cnt_config *)&fib->data[0]; 516dce93cd0SAchim Leubner bzero(ccfg, sizeof (*ccfg) - CT_PACKET_SIZE); 517dce93cd0SAchim Leubner ccfg->Command = VM_ContainerConfig; 518dce93cd0SAchim Leubner ccfg->CTCommand.command = CT_CID_TO_32BITS_UID; 519dce93cd0SAchim Leubner ccfg->CTCommand.param[0] = cid; 520dce93cd0SAchim Leubner 521dce93cd0SAchim Leubner if (sync_fib) { 5223fea9c0dSAchim Leubner rval = aac_sync_fib(sc, ContainerCommand, 0, fib, 5233fea9c0dSAchim Leubner sizeof(struct aac_cnt_config)); 5243fea9c0dSAchim Leubner if (rval == 0 && ccfg->Command == ST_OK && 5253fea9c0dSAchim Leubner ccfg->CTCommand.param[0] == CT_OK && 526dce93cd0SAchim Leubner mir->MntTable[0].VolType != CT_PASSTHRU) 527dce93cd0SAchim Leubner *uid = ccfg->CTCommand.param[1]; 528dce93cd0SAchim Leubner } else { 529dce93cd0SAchim Leubner fib->Header.Size = 530dce93cd0SAchim Leubner sizeof(struct aac_fib_header) + sizeof(struct aac_cnt_config); 531dce93cd0SAchim Leubner fib->Header.XferState = 532dce93cd0SAchim Leubner AAC_FIBSTATE_HOSTOWNED | 533dce93cd0SAchim Leubner AAC_FIBSTATE_INITIALISED | 534dce93cd0SAchim Leubner AAC_FIBSTATE_EMPTY | 535dce93cd0SAchim Leubner AAC_FIBSTATE_FROMHOST | 536dce93cd0SAchim Leubner AAC_FIBSTATE_REXPECTED | 537dce93cd0SAchim Leubner AAC_FIBSTATE_NORM | 538dce93cd0SAchim Leubner AAC_FIBSTATE_ASYNC | 539dce93cd0SAchim Leubner AAC_FIBSTATE_FAST_RESPONSE; 540dce93cd0SAchim Leubner fib->Header.Command = ContainerCommand; 5413fea9c0dSAchim Leubner rval = aacraid_wait_command(cm); 5423fea9c0dSAchim Leubner if (rval == 0 && ccfg->Command == ST_OK && 5433fea9c0dSAchim Leubner ccfg->CTCommand.param[0] == CT_OK && 544dce93cd0SAchim Leubner mir->MntTable[0].VolType != CT_PASSTHRU) 545dce93cd0SAchim Leubner *uid = ccfg->CTCommand.param[1]; 546dce93cd0SAchim Leubner aacraid_release_command(cm); 547dce93cd0SAchim Leubner } 548dce93cd0SAchim Leubner } 549dce93cd0SAchim Leubner 550dce93cd0SAchim Leubner return (0); 551dce93cd0SAchim Leubner } 552dce93cd0SAchim Leubner 553dce93cd0SAchim Leubner /* 554dce93cd0SAchim Leubner * Create a device to represent a new container 555dce93cd0SAchim Leubner */ 556dce93cd0SAchim Leubner static void 557dce93cd0SAchim Leubner aac_add_container(struct aac_softc *sc, struct aac_mntinforesp *mir, int f, 558dce93cd0SAchim Leubner u_int32_t uid) 559dce93cd0SAchim Leubner { 560dce93cd0SAchim Leubner struct aac_container *co; 561dce93cd0SAchim Leubner 562dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 563dce93cd0SAchim Leubner 564dce93cd0SAchim Leubner /* 565dce93cd0SAchim Leubner * Check container volume type for validity. Note that many of 566dce93cd0SAchim Leubner * the possible types may never show up. 567dce93cd0SAchim Leubner */ 568dce93cd0SAchim Leubner if ((mir->Status == ST_OK) && (mir->MntTable[0].VolType != CT_NONE)) { 569dce93cd0SAchim Leubner co = (struct aac_container *)malloc(sizeof *co, M_AACRAIDBUF, 570dce93cd0SAchim Leubner M_NOWAIT | M_ZERO); 571dce93cd0SAchim Leubner if (co == NULL) { 572dce93cd0SAchim Leubner panic("Out of memory?!"); 573dce93cd0SAchim Leubner } 574dce93cd0SAchim Leubner 575dce93cd0SAchim Leubner co->co_found = f; 576dce93cd0SAchim Leubner bcopy(&mir->MntTable[0], &co->co_mntobj, 577dce93cd0SAchim Leubner sizeof(struct aac_mntobj)); 578dce93cd0SAchim Leubner co->co_uid = uid; 579dce93cd0SAchim Leubner TAILQ_INSERT_TAIL(&sc->aac_container_tqh, co, co_link); 580dce93cd0SAchim Leubner } 581dce93cd0SAchim Leubner } 582dce93cd0SAchim Leubner 583dce93cd0SAchim Leubner /* 584dce93cd0SAchim Leubner * Allocate resources associated with (sc) 585dce93cd0SAchim Leubner */ 586dce93cd0SAchim Leubner static int 587dce93cd0SAchim Leubner aac_alloc(struct aac_softc *sc) 588dce93cd0SAchim Leubner { 589dce93cd0SAchim Leubner bus_size_t maxsize; 590dce93cd0SAchim Leubner 591dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 592dce93cd0SAchim Leubner 593dce93cd0SAchim Leubner /* 594dce93cd0SAchim Leubner * Create DMA tag for mapping buffers into controller-addressable space. 595dce93cd0SAchim Leubner */ 596dce93cd0SAchim Leubner if (bus_dma_tag_create(sc->aac_parent_dmat, /* parent */ 597dce93cd0SAchim Leubner 1, 0, /* algnmnt, boundary */ 598dce93cd0SAchim Leubner (sc->flags & AAC_FLAGS_SG_64BIT) ? 599dce93cd0SAchim Leubner BUS_SPACE_MAXADDR : 600dce93cd0SAchim Leubner BUS_SPACE_MAXADDR_32BIT, /* lowaddr */ 601dce93cd0SAchim Leubner BUS_SPACE_MAXADDR, /* highaddr */ 602dce93cd0SAchim Leubner NULL, NULL, /* filter, filterarg */ 6036f954fb3SAlexander Motin sc->aac_max_sectors << 9, /* maxsize */ 604dce93cd0SAchim Leubner sc->aac_sg_tablesize, /* nsegments */ 6056f954fb3SAlexander Motin BUS_SPACE_MAXSIZE_32BIT, /* maxsegsize */ 606dce93cd0SAchim Leubner BUS_DMA_ALLOCNOW, /* flags */ 607dce93cd0SAchim Leubner busdma_lock_mutex, /* lockfunc */ 608dce93cd0SAchim Leubner &sc->aac_io_lock, /* lockfuncarg */ 609dce93cd0SAchim Leubner &sc->aac_buffer_dmat)) { 610dce93cd0SAchim Leubner device_printf(sc->aac_dev, "can't allocate buffer DMA tag\n"); 611dce93cd0SAchim Leubner return (ENOMEM); 612dce93cd0SAchim Leubner } 613dce93cd0SAchim Leubner 614dce93cd0SAchim Leubner /* 615dce93cd0SAchim Leubner * Create DMA tag for mapping FIBs into controller-addressable space.. 616dce93cd0SAchim Leubner */ 617dce93cd0SAchim Leubner if (sc->flags & AAC_FLAGS_NEW_COMM_TYPE1) 618dce93cd0SAchim Leubner maxsize = sc->aac_max_fibs_alloc * (sc->aac_max_fib_size + 619dce93cd0SAchim Leubner sizeof(struct aac_fib_xporthdr) + 31); 620dce93cd0SAchim Leubner else 621dce93cd0SAchim Leubner maxsize = sc->aac_max_fibs_alloc * (sc->aac_max_fib_size + 31); 622dce93cd0SAchim Leubner if (bus_dma_tag_create(sc->aac_parent_dmat, /* parent */ 623dce93cd0SAchim Leubner 1, 0, /* algnmnt, boundary */ 624dce93cd0SAchim Leubner (sc->flags & AAC_FLAGS_4GB_WINDOW) ? 625dce93cd0SAchim Leubner BUS_SPACE_MAXADDR_32BIT : 626dce93cd0SAchim Leubner 0x7fffffff, /* lowaddr */ 627dce93cd0SAchim Leubner BUS_SPACE_MAXADDR, /* highaddr */ 628dce93cd0SAchim Leubner NULL, NULL, /* filter, filterarg */ 629dce93cd0SAchim Leubner maxsize, /* maxsize */ 630dce93cd0SAchim Leubner 1, /* nsegments */ 631dce93cd0SAchim Leubner maxsize, /* maxsize */ 632dce93cd0SAchim Leubner 0, /* flags */ 633dce93cd0SAchim Leubner NULL, NULL, /* No locking needed */ 634dce93cd0SAchim Leubner &sc->aac_fib_dmat)) { 635dce93cd0SAchim Leubner device_printf(sc->aac_dev, "can't allocate FIB DMA tag\n"); 636dce93cd0SAchim Leubner return (ENOMEM); 637dce93cd0SAchim Leubner } 638dce93cd0SAchim Leubner 639dce93cd0SAchim Leubner /* 640dce93cd0SAchim Leubner * Create DMA tag for the common structure and allocate it. 641dce93cd0SAchim Leubner */ 642dce93cd0SAchim Leubner maxsize = sizeof(struct aac_common); 643dce93cd0SAchim Leubner maxsize += sc->aac_max_fibs * sizeof(u_int32_t); 644dce93cd0SAchim Leubner if (bus_dma_tag_create(sc->aac_parent_dmat, /* parent */ 645dce93cd0SAchim Leubner 1, 0, /* algnmnt, boundary */ 646dce93cd0SAchim Leubner (sc->flags & AAC_FLAGS_4GB_WINDOW) ? 647dce93cd0SAchim Leubner BUS_SPACE_MAXADDR_32BIT : 648dce93cd0SAchim Leubner 0x7fffffff, /* lowaddr */ 649dce93cd0SAchim Leubner BUS_SPACE_MAXADDR, /* highaddr */ 650dce93cd0SAchim Leubner NULL, NULL, /* filter, filterarg */ 651dce93cd0SAchim Leubner maxsize, /* maxsize */ 652dce93cd0SAchim Leubner 1, /* nsegments */ 653dce93cd0SAchim Leubner maxsize, /* maxsegsize */ 654dce93cd0SAchim Leubner 0, /* flags */ 655dce93cd0SAchim Leubner NULL, NULL, /* No locking needed */ 656dce93cd0SAchim Leubner &sc->aac_common_dmat)) { 657dce93cd0SAchim Leubner device_printf(sc->aac_dev, 658dce93cd0SAchim Leubner "can't allocate common structure DMA tag\n"); 659dce93cd0SAchim Leubner return (ENOMEM); 660dce93cd0SAchim Leubner } 661dce93cd0SAchim Leubner if (bus_dmamem_alloc(sc->aac_common_dmat, (void **)&sc->aac_common, 662dce93cd0SAchim Leubner BUS_DMA_NOWAIT, &sc->aac_common_dmamap)) { 663dce93cd0SAchim Leubner device_printf(sc->aac_dev, "can't allocate common structure\n"); 664dce93cd0SAchim Leubner return (ENOMEM); 665dce93cd0SAchim Leubner } 666dce93cd0SAchim Leubner 667dce93cd0SAchim Leubner (void)bus_dmamap_load(sc->aac_common_dmat, sc->aac_common_dmamap, 668dce93cd0SAchim Leubner sc->aac_common, maxsize, 669dce93cd0SAchim Leubner aac_common_map, sc, 0); 670dce93cd0SAchim Leubner bzero(sc->aac_common, maxsize); 671dce93cd0SAchim Leubner 672dce93cd0SAchim Leubner /* Allocate some FIBs and associated command structs */ 673dce93cd0SAchim Leubner TAILQ_INIT(&sc->aac_fibmap_tqh); 674dce93cd0SAchim Leubner sc->aac_commands = malloc(sc->aac_max_fibs * sizeof(struct aac_command), 675dce93cd0SAchim Leubner M_AACRAIDBUF, M_WAITOK|M_ZERO); 67661722264SAndriy Gapon mtx_lock(&sc->aac_io_lock); 677dce93cd0SAchim Leubner while (sc->total_fibs < sc->aac_max_fibs) { 678dce93cd0SAchim Leubner if (aac_alloc_commands(sc) != 0) 679dce93cd0SAchim Leubner break; 680dce93cd0SAchim Leubner } 68161722264SAndriy Gapon mtx_unlock(&sc->aac_io_lock); 682dce93cd0SAchim Leubner if (sc->total_fibs == 0) 683dce93cd0SAchim Leubner return (ENOMEM); 684dce93cd0SAchim Leubner 685dce93cd0SAchim Leubner return (0); 686dce93cd0SAchim Leubner } 687dce93cd0SAchim Leubner 688dce93cd0SAchim Leubner /* 689dce93cd0SAchim Leubner * Free all of the resources associated with (sc) 690dce93cd0SAchim Leubner * 691dce93cd0SAchim Leubner * Should not be called if the controller is active. 692dce93cd0SAchim Leubner */ 693dce93cd0SAchim Leubner void 694dce93cd0SAchim Leubner aacraid_free(struct aac_softc *sc) 695dce93cd0SAchim Leubner { 6963fea9c0dSAchim Leubner int i; 6973fea9c0dSAchim Leubner 698dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 699dce93cd0SAchim Leubner 700dce93cd0SAchim Leubner /* remove the control device */ 701dce93cd0SAchim Leubner if (sc->aac_dev_t != NULL) 702dce93cd0SAchim Leubner destroy_dev(sc->aac_dev_t); 703dce93cd0SAchim Leubner 704dce93cd0SAchim Leubner /* throw away any FIB buffers, discard the FIB DMA tag */ 705dce93cd0SAchim Leubner aac_free_commands(sc); 706dce93cd0SAchim Leubner if (sc->aac_fib_dmat) 707dce93cd0SAchim Leubner bus_dma_tag_destroy(sc->aac_fib_dmat); 708dce93cd0SAchim Leubner 709dce93cd0SAchim Leubner free(sc->aac_commands, M_AACRAIDBUF); 710dce93cd0SAchim Leubner 711dce93cd0SAchim Leubner /* destroy the common area */ 712dce93cd0SAchim Leubner if (sc->aac_common) { 713dce93cd0SAchim Leubner bus_dmamap_unload(sc->aac_common_dmat, sc->aac_common_dmamap); 714dce93cd0SAchim Leubner bus_dmamem_free(sc->aac_common_dmat, sc->aac_common, 715dce93cd0SAchim Leubner sc->aac_common_dmamap); 716dce93cd0SAchim Leubner } 717dce93cd0SAchim Leubner if (sc->aac_common_dmat) 718dce93cd0SAchim Leubner bus_dma_tag_destroy(sc->aac_common_dmat); 719dce93cd0SAchim Leubner 720dce93cd0SAchim Leubner /* disconnect the interrupt handler */ 7213fea9c0dSAchim Leubner for (i = 0; i < AAC_MAX_MSIX; ++i) { 7223fea9c0dSAchim Leubner if (sc->aac_intr[i]) 7233fea9c0dSAchim Leubner bus_teardown_intr(sc->aac_dev, 7243fea9c0dSAchim Leubner sc->aac_irq[i], sc->aac_intr[i]); 7253fea9c0dSAchim Leubner if (sc->aac_irq[i]) 7263fea9c0dSAchim Leubner bus_release_resource(sc->aac_dev, SYS_RES_IRQ, 7273fea9c0dSAchim Leubner sc->aac_irq_rid[i], sc->aac_irq[i]); 7283fea9c0dSAchim Leubner else 7293fea9c0dSAchim Leubner break; 7303fea9c0dSAchim Leubner } 7314f1dfabaSMaxim Sobolev if (sc->msi_enabled || sc->msi_tupelo) 7323fea9c0dSAchim Leubner pci_release_msi(sc->aac_dev); 733dce93cd0SAchim Leubner 734dce93cd0SAchim Leubner /* destroy data-transfer DMA tag */ 735dce93cd0SAchim Leubner if (sc->aac_buffer_dmat) 736dce93cd0SAchim Leubner bus_dma_tag_destroy(sc->aac_buffer_dmat); 737dce93cd0SAchim Leubner 738dce93cd0SAchim Leubner /* destroy the parent DMA tag */ 739dce93cd0SAchim Leubner if (sc->aac_parent_dmat) 740dce93cd0SAchim Leubner bus_dma_tag_destroy(sc->aac_parent_dmat); 741dce93cd0SAchim Leubner 742dce93cd0SAchim Leubner /* release the register window mapping */ 743dce93cd0SAchim Leubner if (sc->aac_regs_res0 != NULL) 744dce93cd0SAchim Leubner bus_release_resource(sc->aac_dev, SYS_RES_MEMORY, 745dce93cd0SAchim Leubner sc->aac_regs_rid0, sc->aac_regs_res0); 746dce93cd0SAchim Leubner if (sc->aac_regs_res1 != NULL) 747dce93cd0SAchim Leubner bus_release_resource(sc->aac_dev, SYS_RES_MEMORY, 748dce93cd0SAchim Leubner sc->aac_regs_rid1, sc->aac_regs_res1); 749dce93cd0SAchim Leubner } 750dce93cd0SAchim Leubner 751dce93cd0SAchim Leubner /* 752dce93cd0SAchim Leubner * Disconnect from the controller completely, in preparation for unload. 753dce93cd0SAchim Leubner */ 754dce93cd0SAchim Leubner int 755dce93cd0SAchim Leubner aacraid_detach(device_t dev) 756dce93cd0SAchim Leubner { 757dce93cd0SAchim Leubner struct aac_softc *sc; 758dce93cd0SAchim Leubner struct aac_container *co; 759dce93cd0SAchim Leubner struct aac_sim *sim; 760dce93cd0SAchim Leubner int error; 761dce93cd0SAchim Leubner 762dce93cd0SAchim Leubner sc = device_get_softc(dev); 763dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 764dce93cd0SAchim Leubner 765dce93cd0SAchim Leubner #if __FreeBSD_version >= 800000 766dce93cd0SAchim Leubner callout_drain(&sc->aac_daemontime); 767dce93cd0SAchim Leubner #else 768dce93cd0SAchim Leubner untimeout(aac_daemon, (void *)sc, sc->timeout_id); 769dce93cd0SAchim Leubner #endif 770dce93cd0SAchim Leubner /* Remove the child containers */ 771dce93cd0SAchim Leubner while ((co = TAILQ_FIRST(&sc->aac_container_tqh)) != NULL) { 772dce93cd0SAchim Leubner TAILQ_REMOVE(&sc->aac_container_tqh, co, co_link); 773dce93cd0SAchim Leubner free(co, M_AACRAIDBUF); 774dce93cd0SAchim Leubner } 775dce93cd0SAchim Leubner 776dce93cd0SAchim Leubner /* Remove the CAM SIMs */ 777dce93cd0SAchim Leubner while ((sim = TAILQ_FIRST(&sc->aac_sim_tqh)) != NULL) { 778dce93cd0SAchim Leubner TAILQ_REMOVE(&sc->aac_sim_tqh, sim, sim_link); 779dce93cd0SAchim Leubner error = device_delete_child(dev, sim->sim_dev); 780dce93cd0SAchim Leubner if (error) 781dce93cd0SAchim Leubner return (error); 782dce93cd0SAchim Leubner free(sim, M_AACRAIDBUF); 783dce93cd0SAchim Leubner } 784dce93cd0SAchim Leubner 785dce93cd0SAchim Leubner if (sc->aifflags & AAC_AIFFLAGS_RUNNING) { 786dce93cd0SAchim Leubner sc->aifflags |= AAC_AIFFLAGS_EXIT; 787dce93cd0SAchim Leubner wakeup(sc->aifthread); 788dce93cd0SAchim Leubner tsleep(sc->aac_dev, PUSER | PCATCH, "aac_dch", 30 * hz); 789dce93cd0SAchim Leubner } 790dce93cd0SAchim Leubner 791dce93cd0SAchim Leubner if (sc->aifflags & AAC_AIFFLAGS_RUNNING) 792dce93cd0SAchim Leubner panic("Cannot shutdown AIF thread"); 793dce93cd0SAchim Leubner 794dce93cd0SAchim Leubner if ((error = aacraid_shutdown(dev))) 795dce93cd0SAchim Leubner return(error); 796dce93cd0SAchim Leubner 797dce93cd0SAchim Leubner EVENTHANDLER_DEREGISTER(shutdown_final, sc->eh); 798dce93cd0SAchim Leubner 799dce93cd0SAchim Leubner aacraid_free(sc); 800dce93cd0SAchim Leubner 801dce93cd0SAchim Leubner mtx_destroy(&sc->aac_io_lock); 802dce93cd0SAchim Leubner 803dce93cd0SAchim Leubner return(0); 804dce93cd0SAchim Leubner } 805dce93cd0SAchim Leubner 806dce93cd0SAchim Leubner /* 807dce93cd0SAchim Leubner * Bring the controller down to a dormant state and detach all child devices. 808dce93cd0SAchim Leubner * 809dce93cd0SAchim Leubner * This function is called before detach or system shutdown. 810dce93cd0SAchim Leubner * 811dce93cd0SAchim Leubner * Note that we can assume that the bioq on the controller is empty, as we won't 812dce93cd0SAchim Leubner * allow shutdown if any device is open. 813dce93cd0SAchim Leubner */ 814dce93cd0SAchim Leubner int 815dce93cd0SAchim Leubner aacraid_shutdown(device_t dev) 816dce93cd0SAchim Leubner { 817dce93cd0SAchim Leubner struct aac_softc *sc; 818dce93cd0SAchim Leubner struct aac_fib *fib; 819dce93cd0SAchim Leubner struct aac_close_command *cc; 820dce93cd0SAchim Leubner 821dce93cd0SAchim Leubner sc = device_get_softc(dev); 822dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 823dce93cd0SAchim Leubner 824dce93cd0SAchim Leubner sc->aac_state |= AAC_STATE_SUSPEND; 825dce93cd0SAchim Leubner 826dce93cd0SAchim Leubner /* 827dce93cd0SAchim Leubner * Send a Container shutdown followed by a HostShutdown FIB to the 828dce93cd0SAchim Leubner * controller to convince it that we don't want to talk to it anymore. 829dce93cd0SAchim Leubner * We've been closed and all I/O completed already 830dce93cd0SAchim Leubner */ 831dce93cd0SAchim Leubner device_printf(sc->aac_dev, "shutting down controller..."); 832dce93cd0SAchim Leubner 833dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 834dce93cd0SAchim Leubner aac_alloc_sync_fib(sc, &fib); 835dce93cd0SAchim Leubner cc = (struct aac_close_command *)&fib->data[0]; 836dce93cd0SAchim Leubner 837dce93cd0SAchim Leubner bzero(cc, sizeof(struct aac_close_command)); 838dce93cd0SAchim Leubner cc->Command = VM_CloseAll; 8393fea9c0dSAchim Leubner cc->ContainerId = 0xfffffffe; 840dce93cd0SAchim Leubner if (aac_sync_fib(sc, ContainerCommand, 0, fib, 841dce93cd0SAchim Leubner sizeof(struct aac_close_command))) 842dce93cd0SAchim Leubner printf("FAILED.\n"); 843dce93cd0SAchim Leubner else 844dce93cd0SAchim Leubner printf("done\n"); 845dce93cd0SAchim Leubner 8463fea9c0dSAchim Leubner AAC_ACCESS_DEVREG(sc, AAC_DISABLE_INTERRUPT); 847dce93cd0SAchim Leubner aac_release_sync_fib(sc); 848dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 849dce93cd0SAchim Leubner 850dce93cd0SAchim Leubner return(0); 851dce93cd0SAchim Leubner } 852dce93cd0SAchim Leubner 853dce93cd0SAchim Leubner /* 854dce93cd0SAchim Leubner * Bring the controller to a quiescent state, ready for system suspend. 855dce93cd0SAchim Leubner */ 856dce93cd0SAchim Leubner int 857dce93cd0SAchim Leubner aacraid_suspend(device_t dev) 858dce93cd0SAchim Leubner { 859dce93cd0SAchim Leubner struct aac_softc *sc; 860dce93cd0SAchim Leubner 861dce93cd0SAchim Leubner sc = device_get_softc(dev); 862dce93cd0SAchim Leubner 863dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 864dce93cd0SAchim Leubner sc->aac_state |= AAC_STATE_SUSPEND; 865dce93cd0SAchim Leubner 8663fea9c0dSAchim Leubner AAC_ACCESS_DEVREG(sc, AAC_DISABLE_INTERRUPT); 867dce93cd0SAchim Leubner return(0); 868dce93cd0SAchim Leubner } 869dce93cd0SAchim Leubner 870dce93cd0SAchim Leubner /* 871dce93cd0SAchim Leubner * Bring the controller back to a state ready for operation. 872dce93cd0SAchim Leubner */ 873dce93cd0SAchim Leubner int 874dce93cd0SAchim Leubner aacraid_resume(device_t dev) 875dce93cd0SAchim Leubner { 876dce93cd0SAchim Leubner struct aac_softc *sc; 877dce93cd0SAchim Leubner 878dce93cd0SAchim Leubner sc = device_get_softc(dev); 879dce93cd0SAchim Leubner 880dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 881dce93cd0SAchim Leubner sc->aac_state &= ~AAC_STATE_SUSPEND; 8823fea9c0dSAchim Leubner AAC_ACCESS_DEVREG(sc, AAC_ENABLE_INTERRUPT); 883dce93cd0SAchim Leubner return(0); 884dce93cd0SAchim Leubner } 885dce93cd0SAchim Leubner 886dce93cd0SAchim Leubner /* 887dce93cd0SAchim Leubner * Interrupt handler for NEW_COMM_TYPE1, NEW_COMM_TYPE2, NEW_COMM_TYPE34 interface. 888dce93cd0SAchim Leubner */ 889dce93cd0SAchim Leubner void 890dce93cd0SAchim Leubner aacraid_new_intr_type1(void *arg) 891dce93cd0SAchim Leubner { 8923fea9c0dSAchim Leubner struct aac_msix_ctx *ctx; 893dce93cd0SAchim Leubner struct aac_softc *sc; 8943fea9c0dSAchim Leubner int vector_no; 895dce93cd0SAchim Leubner struct aac_command *cm; 896dce93cd0SAchim Leubner struct aac_fib *fib; 897dce93cd0SAchim Leubner u_int32_t bellbits, bellbits_shifted, index, handle; 8983fea9c0dSAchim Leubner int isFastResponse, isAif, noMoreAif, mode; 899dce93cd0SAchim Leubner 9003fea9c0dSAchim Leubner ctx = (struct aac_msix_ctx *)arg; 9013fea9c0dSAchim Leubner sc = ctx->sc; 9023fea9c0dSAchim Leubner vector_no = ctx->vector_no; 903dce93cd0SAchim Leubner 904dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 905dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 9063fea9c0dSAchim Leubner 9073fea9c0dSAchim Leubner if (sc->msi_enabled) { 9083fea9c0dSAchim Leubner mode = AAC_INT_MODE_MSI; 9093fea9c0dSAchim Leubner if (vector_no == 0) { 9103fea9c0dSAchim Leubner bellbits = AAC_MEM0_GETREG4(sc, AAC_SRC_ODBR_MSI); 9113fea9c0dSAchim Leubner if (bellbits & 0x40000) 9123fea9c0dSAchim Leubner mode |= AAC_INT_MODE_AIF; 9133fea9c0dSAchim Leubner else if (bellbits & 0x1000) 9143fea9c0dSAchim Leubner mode |= AAC_INT_MODE_SYNC; 9153fea9c0dSAchim Leubner } 9163fea9c0dSAchim Leubner } else { 9173fea9c0dSAchim Leubner mode = AAC_INT_MODE_INTX; 918dce93cd0SAchim Leubner bellbits = AAC_MEM0_GETREG4(sc, AAC_SRC_ODBR_R); 919dce93cd0SAchim Leubner if (bellbits & AAC_DB_RESPONSE_SENT_NS) { 920dce93cd0SAchim Leubner bellbits = AAC_DB_RESPONSE_SENT_NS; 921dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_ODBR_C, bellbits); 9223fea9c0dSAchim Leubner } else { 9233fea9c0dSAchim Leubner bellbits_shifted = (bellbits >> AAC_SRC_ODR_SHIFT); 9243fea9c0dSAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_ODBR_C, bellbits); 9253fea9c0dSAchim Leubner if (bellbits_shifted & AAC_DB_AIF_PENDING) 9263fea9c0dSAchim Leubner mode |= AAC_INT_MODE_AIF; 9273fea9c0dSAchim Leubner else if (bellbits_shifted & AAC_DB_SYNC_COMMAND) 9283fea9c0dSAchim Leubner mode |= AAC_INT_MODE_SYNC; 9293fea9c0dSAchim Leubner } 9303fea9c0dSAchim Leubner /* ODR readback, Prep #238630 */ 9313fea9c0dSAchim Leubner AAC_MEM0_GETREG4(sc, AAC_SRC_ODBR_R); 9323fea9c0dSAchim Leubner } 9333fea9c0dSAchim Leubner 9343fea9c0dSAchim Leubner if (mode & AAC_INT_MODE_SYNC) { 9353fea9c0dSAchim Leubner if (sc->aac_sync_cm) { 9363fea9c0dSAchim Leubner cm = sc->aac_sync_cm; 9373fea9c0dSAchim Leubner cm->cm_flags |= AAC_CMD_COMPLETED; 9383fea9c0dSAchim Leubner /* is there a completion handler? */ 9393fea9c0dSAchim Leubner if (cm->cm_complete != NULL) { 9403fea9c0dSAchim Leubner cm->cm_complete(cm); 9413fea9c0dSAchim Leubner } else { 9423fea9c0dSAchim Leubner /* assume that someone is sleeping on this command */ 9433fea9c0dSAchim Leubner wakeup(cm); 9443fea9c0dSAchim Leubner } 9453fea9c0dSAchim Leubner sc->flags &= ~AAC_QUEUE_FRZN; 9463fea9c0dSAchim Leubner sc->aac_sync_cm = NULL; 9473fea9c0dSAchim Leubner } 9483fea9c0dSAchim Leubner mode = 0; 9493fea9c0dSAchim Leubner } 9503fea9c0dSAchim Leubner 9513fea9c0dSAchim Leubner if (mode & AAC_INT_MODE_AIF) { 9523fea9c0dSAchim Leubner if (mode & AAC_INT_MODE_INTX) { 9533fea9c0dSAchim Leubner aac_request_aif(sc); 9543fea9c0dSAchim Leubner mode = 0; 9553fea9c0dSAchim Leubner } 9563fea9c0dSAchim Leubner } 9573fea9c0dSAchim Leubner 9583fea9c0dSAchim Leubner if (mode) { 959dce93cd0SAchim Leubner /* handle async. status */ 9603fea9c0dSAchim Leubner index = sc->aac_host_rrq_idx[vector_no]; 961dce93cd0SAchim Leubner for (;;) { 962dce93cd0SAchim Leubner isFastResponse = isAif = noMoreAif = 0; 963dce93cd0SAchim Leubner /* remove toggle bit (31) */ 964dce93cd0SAchim Leubner handle = (sc->aac_common->ac_host_rrq[index] & 0x7fffffff); 965dce93cd0SAchim Leubner /* check fast response bit (30) */ 966dce93cd0SAchim Leubner if (handle & 0x40000000) 967dce93cd0SAchim Leubner isFastResponse = 1; 968dce93cd0SAchim Leubner /* check AIF bit (23) */ 969dce93cd0SAchim Leubner else if (handle & 0x00800000) 970dce93cd0SAchim Leubner isAif = TRUE; 971dce93cd0SAchim Leubner handle &= 0x0000ffff; 972dce93cd0SAchim Leubner if (handle == 0) 973dce93cd0SAchim Leubner break; 974dce93cd0SAchim Leubner 975dce93cd0SAchim Leubner cm = sc->aac_commands + (handle - 1); 976dce93cd0SAchim Leubner fib = cm->cm_fib; 9773fea9c0dSAchim Leubner sc->aac_rrq_outstanding[vector_no]--; 978dce93cd0SAchim Leubner if (isAif) { 979dce93cd0SAchim Leubner noMoreAif = (fib->Header.XferState & AAC_FIBSTATE_NOMOREAIF) ? 1:0; 980dce93cd0SAchim Leubner if (!noMoreAif) 981dce93cd0SAchim Leubner aac_handle_aif(sc, fib); 982dce93cd0SAchim Leubner aac_remove_busy(cm); 983dce93cd0SAchim Leubner aacraid_release_command(cm); 984dce93cd0SAchim Leubner } else { 985dce93cd0SAchim Leubner if (isFastResponse) { 986dce93cd0SAchim Leubner fib->Header.XferState |= AAC_FIBSTATE_DONEADAP; 987dce93cd0SAchim Leubner *((u_int32_t *)(fib->data)) = ST_OK; 988dce93cd0SAchim Leubner cm->cm_flags |= AAC_CMD_FASTRESP; 989dce93cd0SAchim Leubner } 990dce93cd0SAchim Leubner aac_remove_busy(cm); 991dce93cd0SAchim Leubner aac_unmap_command(cm); 992dce93cd0SAchim Leubner cm->cm_flags |= AAC_CMD_COMPLETED; 993dce93cd0SAchim Leubner 994dce93cd0SAchim Leubner /* is there a completion handler? */ 995dce93cd0SAchim Leubner if (cm->cm_complete != NULL) { 996dce93cd0SAchim Leubner cm->cm_complete(cm); 997dce93cd0SAchim Leubner } else { 998dce93cd0SAchim Leubner /* assume that someone is sleeping on this command */ 999dce93cd0SAchim Leubner wakeup(cm); 1000dce93cd0SAchim Leubner } 1001dce93cd0SAchim Leubner sc->flags &= ~AAC_QUEUE_FRZN; 1002dce93cd0SAchim Leubner } 1003dce93cd0SAchim Leubner 1004dce93cd0SAchim Leubner sc->aac_common->ac_host_rrq[index++] = 0; 10053fea9c0dSAchim Leubner if (index == (vector_no + 1) * sc->aac_vector_cap) 10063fea9c0dSAchim Leubner index = vector_no * sc->aac_vector_cap; 10073fea9c0dSAchim Leubner sc->aac_host_rrq_idx[vector_no] = index; 1008dce93cd0SAchim Leubner 1009dce93cd0SAchim Leubner if ((isAif && !noMoreAif) || sc->aif_pending) 1010dce93cd0SAchim Leubner aac_request_aif(sc); 1011dce93cd0SAchim Leubner } 10123fea9c0dSAchim Leubner } 10133fea9c0dSAchim Leubner 10143fea9c0dSAchim Leubner if (mode & AAC_INT_MODE_AIF) { 1015dce93cd0SAchim Leubner aac_request_aif(sc); 10163fea9c0dSAchim Leubner AAC_ACCESS_DEVREG(sc, AAC_CLEAR_AIF_BIT); 10173fea9c0dSAchim Leubner mode = 0; 1018dce93cd0SAchim Leubner } 1019dce93cd0SAchim Leubner 1020dce93cd0SAchim Leubner /* see if we can start some more I/O */ 1021dce93cd0SAchim Leubner if ((sc->flags & AAC_QUEUE_FRZN) == 0) 1022dce93cd0SAchim Leubner aacraid_startio(sc); 1023dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 1024dce93cd0SAchim Leubner } 1025dce93cd0SAchim Leubner 1026dce93cd0SAchim Leubner /* 1027dce93cd0SAchim Leubner * Handle notification of one or more FIBs coming from the controller. 1028dce93cd0SAchim Leubner */ 1029dce93cd0SAchim Leubner static void 1030dce93cd0SAchim Leubner aac_command_thread(struct aac_softc *sc) 1031dce93cd0SAchim Leubner { 1032dce93cd0SAchim Leubner int retval; 1033dce93cd0SAchim Leubner 1034dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 1035dce93cd0SAchim Leubner 1036dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 1037dce93cd0SAchim Leubner sc->aifflags = AAC_AIFFLAGS_RUNNING; 1038dce93cd0SAchim Leubner 1039dce93cd0SAchim Leubner while ((sc->aifflags & AAC_AIFFLAGS_EXIT) == 0) { 1040dce93cd0SAchim Leubner 1041dce93cd0SAchim Leubner retval = 0; 1042dce93cd0SAchim Leubner if ((sc->aifflags & AAC_AIFFLAGS_PENDING) == 0) 1043dce93cd0SAchim Leubner retval = msleep(sc->aifthread, &sc->aac_io_lock, PRIBIO, 1044dce93cd0SAchim Leubner "aacraid_aifthd", AAC_PERIODIC_INTERVAL * hz); 1045dce93cd0SAchim Leubner 1046dce93cd0SAchim Leubner /* 1047*dfdbb320SWarner Losh * First see if any FIBs need to be allocated. 1048dce93cd0SAchim Leubner */ 1049dce93cd0SAchim Leubner if ((sc->aifflags & AAC_AIFFLAGS_ALLOCFIBS) != 0) { 1050dce93cd0SAchim Leubner aac_alloc_commands(sc); 1051dce93cd0SAchim Leubner sc->aifflags &= ~AAC_AIFFLAGS_ALLOCFIBS; 1052dce93cd0SAchim Leubner aacraid_startio(sc); 1053dce93cd0SAchim Leubner } 1054dce93cd0SAchim Leubner 1055dce93cd0SAchim Leubner /* 1056dce93cd0SAchim Leubner * While we're here, check to see if any commands are stuck. 1057dce93cd0SAchim Leubner * This is pretty low-priority, so it's ok if it doesn't 1058dce93cd0SAchim Leubner * always fire. 1059dce93cd0SAchim Leubner */ 1060dce93cd0SAchim Leubner if (retval == EWOULDBLOCK) 1061dce93cd0SAchim Leubner aac_timeout(sc); 1062dce93cd0SAchim Leubner 1063dce93cd0SAchim Leubner /* Check the hardware printf message buffer */ 1064dce93cd0SAchim Leubner if (sc->aac_common->ac_printf[0] != 0) 1065dce93cd0SAchim Leubner aac_print_printf(sc); 1066dce93cd0SAchim Leubner } 1067dce93cd0SAchim Leubner sc->aifflags &= ~AAC_AIFFLAGS_RUNNING; 1068dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 1069dce93cd0SAchim Leubner wakeup(sc->aac_dev); 1070dce93cd0SAchim Leubner 1071dce93cd0SAchim Leubner aac_kthread_exit(0); 1072dce93cd0SAchim Leubner } 1073dce93cd0SAchim Leubner 1074dce93cd0SAchim Leubner /* 1075dce93cd0SAchim Leubner * Submit a command to the controller, return when it completes. 1076dce93cd0SAchim Leubner * XXX This is very dangerous! If the card has gone out to lunch, we could 1077dce93cd0SAchim Leubner * be stuck here forever. At the same time, signals are not caught 1078dce93cd0SAchim Leubner * because there is a risk that a signal could wakeup the sleep before 1079dce93cd0SAchim Leubner * the card has a chance to complete the command. Since there is no way 1080dce93cd0SAchim Leubner * to cancel a command that is in progress, we can't protect against the 1081dce93cd0SAchim Leubner * card completing a command late and spamming the command and data 1082dce93cd0SAchim Leubner * memory. So, we are held hostage until the command completes. 1083dce93cd0SAchim Leubner */ 1084dce93cd0SAchim Leubner int 1085dce93cd0SAchim Leubner aacraid_wait_command(struct aac_command *cm) 1086dce93cd0SAchim Leubner { 1087dce93cd0SAchim Leubner struct aac_softc *sc; 1088dce93cd0SAchim Leubner int error; 1089dce93cd0SAchim Leubner 1090dce93cd0SAchim Leubner sc = cm->cm_sc; 1091dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 1092dce93cd0SAchim Leubner mtx_assert(&sc->aac_io_lock, MA_OWNED); 1093dce93cd0SAchim Leubner 1094dce93cd0SAchim Leubner /* Put the command on the ready queue and get things going */ 1095dce93cd0SAchim Leubner aac_enqueue_ready(cm); 1096dce93cd0SAchim Leubner aacraid_startio(sc); 1097dce93cd0SAchim Leubner error = msleep(cm, &sc->aac_io_lock, PRIBIO, "aacraid_wait", 0); 1098dce93cd0SAchim Leubner return(error); 1099dce93cd0SAchim Leubner } 1100dce93cd0SAchim Leubner 1101dce93cd0SAchim Leubner /* 1102dce93cd0SAchim Leubner *Command Buffer Management 1103dce93cd0SAchim Leubner */ 1104dce93cd0SAchim Leubner 1105dce93cd0SAchim Leubner /* 1106dce93cd0SAchim Leubner * Allocate a command. 1107dce93cd0SAchim Leubner */ 1108dce93cd0SAchim Leubner int 1109dce93cd0SAchim Leubner aacraid_alloc_command(struct aac_softc *sc, struct aac_command **cmp) 1110dce93cd0SAchim Leubner { 1111dce93cd0SAchim Leubner struct aac_command *cm; 1112dce93cd0SAchim Leubner 1113dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 1114dce93cd0SAchim Leubner 1115dce93cd0SAchim Leubner if ((cm = aac_dequeue_free(sc)) == NULL) { 1116dce93cd0SAchim Leubner if (sc->total_fibs < sc->aac_max_fibs) { 1117dce93cd0SAchim Leubner sc->aifflags |= AAC_AIFFLAGS_ALLOCFIBS; 1118dce93cd0SAchim Leubner wakeup(sc->aifthread); 1119dce93cd0SAchim Leubner } 1120dce93cd0SAchim Leubner return (EBUSY); 1121dce93cd0SAchim Leubner } 1122dce93cd0SAchim Leubner 1123dce93cd0SAchim Leubner *cmp = cm; 1124dce93cd0SAchim Leubner return(0); 1125dce93cd0SAchim Leubner } 1126dce93cd0SAchim Leubner 1127dce93cd0SAchim Leubner /* 1128dce93cd0SAchim Leubner * Release a command back to the freelist. 1129dce93cd0SAchim Leubner */ 1130dce93cd0SAchim Leubner void 1131dce93cd0SAchim Leubner aacraid_release_command(struct aac_command *cm) 1132dce93cd0SAchim Leubner { 1133dce93cd0SAchim Leubner struct aac_event *event; 1134dce93cd0SAchim Leubner struct aac_softc *sc; 1135dce93cd0SAchim Leubner 1136dce93cd0SAchim Leubner sc = cm->cm_sc; 1137dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 1138dce93cd0SAchim Leubner mtx_assert(&sc->aac_io_lock, MA_OWNED); 1139dce93cd0SAchim Leubner 1140dce93cd0SAchim Leubner /* (re)initialize the command/FIB */ 1141dce93cd0SAchim Leubner cm->cm_sgtable = NULL; 1142dce93cd0SAchim Leubner cm->cm_flags = 0; 1143dce93cd0SAchim Leubner cm->cm_complete = NULL; 1144dce93cd0SAchim Leubner cm->cm_ccb = NULL; 1145dce93cd0SAchim Leubner cm->cm_passthr_dmat = 0; 1146dce93cd0SAchim Leubner cm->cm_fib->Header.XferState = AAC_FIBSTATE_EMPTY; 1147dce93cd0SAchim Leubner cm->cm_fib->Header.StructType = AAC_FIBTYPE_TFIB; 1148dce93cd0SAchim Leubner cm->cm_fib->Header.Unused = 0; 1149dce93cd0SAchim Leubner cm->cm_fib->Header.SenderSize = cm->cm_sc->aac_max_fib_size; 1150dce93cd0SAchim Leubner 1151dce93cd0SAchim Leubner /* 1152dce93cd0SAchim Leubner * These are duplicated in aac_start to cover the case where an 1153dce93cd0SAchim Leubner * intermediate stage may have destroyed them. They're left 1154dce93cd0SAchim Leubner * initialized here for debugging purposes only. 1155dce93cd0SAchim Leubner */ 1156dce93cd0SAchim Leubner cm->cm_fib->Header.u.ReceiverFibAddress = (u_int32_t)cm->cm_fibphys; 1157dce93cd0SAchim Leubner cm->cm_fib->Header.Handle = 0; 1158dce93cd0SAchim Leubner 1159dce93cd0SAchim Leubner aac_enqueue_free(cm); 1160dce93cd0SAchim Leubner 1161dce93cd0SAchim Leubner /* 1162dce93cd0SAchim Leubner * Dequeue all events so that there's no risk of events getting 1163dce93cd0SAchim Leubner * stranded. 1164dce93cd0SAchim Leubner */ 1165dce93cd0SAchim Leubner while ((event = TAILQ_FIRST(&sc->aac_ev_cmfree)) != NULL) { 1166dce93cd0SAchim Leubner TAILQ_REMOVE(&sc->aac_ev_cmfree, event, ev_links); 1167dce93cd0SAchim Leubner event->ev_callback(sc, event, event->ev_arg); 1168dce93cd0SAchim Leubner } 1169dce93cd0SAchim Leubner } 1170dce93cd0SAchim Leubner 1171dce93cd0SAchim Leubner /* 1172dce93cd0SAchim Leubner * Map helper for command/FIB allocation. 1173dce93cd0SAchim Leubner */ 1174dce93cd0SAchim Leubner static void 1175dce93cd0SAchim Leubner aac_map_command_helper(void *arg, bus_dma_segment_t *segs, int nseg, int error) 1176dce93cd0SAchim Leubner { 1177dce93cd0SAchim Leubner uint64_t *fibphys; 1178dce93cd0SAchim Leubner 1179dce93cd0SAchim Leubner fibphys = (uint64_t *)arg; 1180dce93cd0SAchim Leubner 1181dce93cd0SAchim Leubner *fibphys = segs[0].ds_addr; 1182dce93cd0SAchim Leubner } 1183dce93cd0SAchim Leubner 1184dce93cd0SAchim Leubner /* 1185dce93cd0SAchim Leubner * Allocate and initialize commands/FIBs for this adapter. 1186dce93cd0SAchim Leubner */ 1187dce93cd0SAchim Leubner static int 1188dce93cd0SAchim Leubner aac_alloc_commands(struct aac_softc *sc) 1189dce93cd0SAchim Leubner { 1190dce93cd0SAchim Leubner struct aac_command *cm; 1191dce93cd0SAchim Leubner struct aac_fibmap *fm; 1192dce93cd0SAchim Leubner uint64_t fibphys; 1193dce93cd0SAchim Leubner int i, error; 1194dce93cd0SAchim Leubner u_int32_t maxsize; 1195dce93cd0SAchim Leubner 1196dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 119761722264SAndriy Gapon mtx_assert(&sc->aac_io_lock, MA_OWNED); 1198dce93cd0SAchim Leubner 1199dce93cd0SAchim Leubner if (sc->total_fibs + sc->aac_max_fibs_alloc > sc->aac_max_fibs) 1200dce93cd0SAchim Leubner return (ENOMEM); 1201dce93cd0SAchim Leubner 1202dce93cd0SAchim Leubner fm = malloc(sizeof(struct aac_fibmap), M_AACRAIDBUF, M_NOWAIT|M_ZERO); 1203dce93cd0SAchim Leubner if (fm == NULL) 1204dce93cd0SAchim Leubner return (ENOMEM); 1205dce93cd0SAchim Leubner 120661722264SAndriy Gapon mtx_unlock(&sc->aac_io_lock); 1207dce93cd0SAchim Leubner /* allocate the FIBs in DMAable memory and load them */ 1208dce93cd0SAchim Leubner if (bus_dmamem_alloc(sc->aac_fib_dmat, (void **)&fm->aac_fibs, 1209dce93cd0SAchim Leubner BUS_DMA_NOWAIT, &fm->aac_fibmap)) { 1210dce93cd0SAchim Leubner device_printf(sc->aac_dev, 1211dce93cd0SAchim Leubner "Not enough contiguous memory available.\n"); 1212dce93cd0SAchim Leubner free(fm, M_AACRAIDBUF); 1213dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 1214dce93cd0SAchim Leubner return (ENOMEM); 1215dce93cd0SAchim Leubner } 1216dce93cd0SAchim Leubner 1217dce93cd0SAchim Leubner maxsize = sc->aac_max_fib_size + 31; 1218dce93cd0SAchim Leubner if (sc->flags & AAC_FLAGS_NEW_COMM_TYPE1) 1219dce93cd0SAchim Leubner maxsize += sizeof(struct aac_fib_xporthdr); 1220dce93cd0SAchim Leubner /* Ignore errors since this doesn't bounce */ 1221dce93cd0SAchim Leubner (void)bus_dmamap_load(sc->aac_fib_dmat, fm->aac_fibmap, fm->aac_fibs, 1222dce93cd0SAchim Leubner sc->aac_max_fibs_alloc * maxsize, 1223dce93cd0SAchim Leubner aac_map_command_helper, &fibphys, 0); 122461722264SAndriy Gapon mtx_lock(&sc->aac_io_lock); 1225dce93cd0SAchim Leubner 1226dce93cd0SAchim Leubner /* initialize constant fields in the command structure */ 1227dce93cd0SAchim Leubner bzero(fm->aac_fibs, sc->aac_max_fibs_alloc * maxsize); 1228dce93cd0SAchim Leubner for (i = 0; i < sc->aac_max_fibs_alloc; i++) { 1229dce93cd0SAchim Leubner cm = sc->aac_commands + sc->total_fibs; 1230dce93cd0SAchim Leubner fm->aac_commands = cm; 1231dce93cd0SAchim Leubner cm->cm_sc = sc; 1232dce93cd0SAchim Leubner cm->cm_fib = (struct aac_fib *) 1233dce93cd0SAchim Leubner ((u_int8_t *)fm->aac_fibs + i * maxsize); 1234dce93cd0SAchim Leubner cm->cm_fibphys = fibphys + i * maxsize; 1235dce93cd0SAchim Leubner if (sc->flags & AAC_FLAGS_NEW_COMM_TYPE1) { 1236dce93cd0SAchim Leubner u_int64_t fibphys_aligned; 1237dce93cd0SAchim Leubner fibphys_aligned = 1238dce93cd0SAchim Leubner (cm->cm_fibphys + sizeof(struct aac_fib_xporthdr) + 31) & ~31; 1239dce93cd0SAchim Leubner cm->cm_fib = (struct aac_fib *) 1240dce93cd0SAchim Leubner ((u_int8_t *)cm->cm_fib + (fibphys_aligned - cm->cm_fibphys)); 1241dce93cd0SAchim Leubner cm->cm_fibphys = fibphys_aligned; 1242dce93cd0SAchim Leubner } else { 1243dce93cd0SAchim Leubner u_int64_t fibphys_aligned; 1244dce93cd0SAchim Leubner fibphys_aligned = (cm->cm_fibphys + 31) & ~31; 1245dce93cd0SAchim Leubner cm->cm_fib = (struct aac_fib *) 1246dce93cd0SAchim Leubner ((u_int8_t *)cm->cm_fib + (fibphys_aligned - cm->cm_fibphys)); 1247dce93cd0SAchim Leubner cm->cm_fibphys = fibphys_aligned; 1248dce93cd0SAchim Leubner } 1249dce93cd0SAchim Leubner cm->cm_index = sc->total_fibs; 1250dce93cd0SAchim Leubner 1251dce93cd0SAchim Leubner if ((error = bus_dmamap_create(sc->aac_buffer_dmat, 0, 1252dce93cd0SAchim Leubner &cm->cm_datamap)) != 0) 1253dce93cd0SAchim Leubner break; 125461722264SAndriy Gapon if (sc->aac_max_fibs <= 1 || sc->aac_max_fibs - sc->total_fibs > 1) 1255dce93cd0SAchim Leubner aacraid_release_command(cm); 1256dce93cd0SAchim Leubner sc->total_fibs++; 1257dce93cd0SAchim Leubner } 1258dce93cd0SAchim Leubner 1259dce93cd0SAchim Leubner if (i > 0) { 1260dce93cd0SAchim Leubner TAILQ_INSERT_TAIL(&sc->aac_fibmap_tqh, fm, fm_link); 1261dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_COMM_B, "total_fibs= %d\n", sc->total_fibs); 1262dce93cd0SAchim Leubner return (0); 1263dce93cd0SAchim Leubner } 1264dce93cd0SAchim Leubner 1265dce93cd0SAchim Leubner bus_dmamap_unload(sc->aac_fib_dmat, fm->aac_fibmap); 1266dce93cd0SAchim Leubner bus_dmamem_free(sc->aac_fib_dmat, fm->aac_fibs, fm->aac_fibmap); 1267dce93cd0SAchim Leubner free(fm, M_AACRAIDBUF); 1268dce93cd0SAchim Leubner return (ENOMEM); 1269dce93cd0SAchim Leubner } 1270dce93cd0SAchim Leubner 1271dce93cd0SAchim Leubner /* 1272dce93cd0SAchim Leubner * Free FIBs owned by this adapter. 1273dce93cd0SAchim Leubner */ 1274dce93cd0SAchim Leubner static void 1275dce93cd0SAchim Leubner aac_free_commands(struct aac_softc *sc) 1276dce93cd0SAchim Leubner { 1277dce93cd0SAchim Leubner struct aac_fibmap *fm; 1278dce93cd0SAchim Leubner struct aac_command *cm; 1279dce93cd0SAchim Leubner int i; 1280dce93cd0SAchim Leubner 1281dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 1282dce93cd0SAchim Leubner 1283dce93cd0SAchim Leubner while ((fm = TAILQ_FIRST(&sc->aac_fibmap_tqh)) != NULL) { 1284dce93cd0SAchim Leubner 1285dce93cd0SAchim Leubner TAILQ_REMOVE(&sc->aac_fibmap_tqh, fm, fm_link); 1286dce93cd0SAchim Leubner /* 1287dce93cd0SAchim Leubner * We check against total_fibs to handle partially 1288dce93cd0SAchim Leubner * allocated blocks. 1289dce93cd0SAchim Leubner */ 1290dce93cd0SAchim Leubner for (i = 0; i < sc->aac_max_fibs_alloc && sc->total_fibs--; i++) { 1291dce93cd0SAchim Leubner cm = fm->aac_commands + i; 1292dce93cd0SAchim Leubner bus_dmamap_destroy(sc->aac_buffer_dmat, cm->cm_datamap); 1293dce93cd0SAchim Leubner } 1294dce93cd0SAchim Leubner bus_dmamap_unload(sc->aac_fib_dmat, fm->aac_fibmap); 1295dce93cd0SAchim Leubner bus_dmamem_free(sc->aac_fib_dmat, fm->aac_fibs, fm->aac_fibmap); 1296dce93cd0SAchim Leubner free(fm, M_AACRAIDBUF); 1297dce93cd0SAchim Leubner } 1298dce93cd0SAchim Leubner } 1299dce93cd0SAchim Leubner 1300dce93cd0SAchim Leubner /* 1301dce93cd0SAchim Leubner * Command-mapping helper function - populate this command's s/g table. 1302dce93cd0SAchim Leubner */ 1303dce93cd0SAchim Leubner void 1304dce93cd0SAchim Leubner aacraid_map_command_sg(void *arg, bus_dma_segment_t *segs, int nseg, int error) 1305dce93cd0SAchim Leubner { 1306dce93cd0SAchim Leubner struct aac_softc *sc; 1307dce93cd0SAchim Leubner struct aac_command *cm; 1308dce93cd0SAchim Leubner struct aac_fib *fib; 1309dce93cd0SAchim Leubner int i; 1310dce93cd0SAchim Leubner 1311dce93cd0SAchim Leubner cm = (struct aac_command *)arg; 1312dce93cd0SAchim Leubner sc = cm->cm_sc; 1313dce93cd0SAchim Leubner fib = cm->cm_fib; 1314dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, "nseg %d", nseg); 1315dce93cd0SAchim Leubner mtx_assert(&sc->aac_io_lock, MA_OWNED); 1316dce93cd0SAchim Leubner 13174f1dfabaSMaxim Sobolev if ((sc->flags & AAC_FLAGS_SYNC_MODE) && sc->aac_sync_cm) 13184f1dfabaSMaxim Sobolev return; 13194f1dfabaSMaxim Sobolev 1320dce93cd0SAchim Leubner /* copy into the FIB */ 1321dce93cd0SAchim Leubner if (cm->cm_sgtable != NULL) { 1322dce93cd0SAchim Leubner if (fib->Header.Command == RawIo2) { 1323dce93cd0SAchim Leubner struct aac_raw_io2 *raw; 1324dce93cd0SAchim Leubner struct aac_sge_ieee1212 *sg; 1325dce93cd0SAchim Leubner u_int32_t min_size = PAGE_SIZE, cur_size; 1326dce93cd0SAchim Leubner int conformable = TRUE; 1327dce93cd0SAchim Leubner 1328dce93cd0SAchim Leubner raw = (struct aac_raw_io2 *)&fib->data[0]; 1329dce93cd0SAchim Leubner sg = (struct aac_sge_ieee1212 *)cm->cm_sgtable; 1330dce93cd0SAchim Leubner raw->sgeCnt = nseg; 1331dce93cd0SAchim Leubner 1332dce93cd0SAchim Leubner for (i = 0; i < nseg; i++) { 1333dce93cd0SAchim Leubner cur_size = segs[i].ds_len; 1334dce93cd0SAchim Leubner sg[i].addrHigh = 0; 1335dce93cd0SAchim Leubner *(bus_addr_t *)&sg[i].addrLow = segs[i].ds_addr; 1336dce93cd0SAchim Leubner sg[i].length = cur_size; 1337dce93cd0SAchim Leubner sg[i].flags = 0; 1338dce93cd0SAchim Leubner if (i == 0) { 1339dce93cd0SAchim Leubner raw->sgeFirstSize = cur_size; 1340dce93cd0SAchim Leubner } else if (i == 1) { 1341dce93cd0SAchim Leubner raw->sgeNominalSize = cur_size; 1342dce93cd0SAchim Leubner min_size = cur_size; 1343dce93cd0SAchim Leubner } else if ((i+1) < nseg && 1344dce93cd0SAchim Leubner cur_size != raw->sgeNominalSize) { 1345dce93cd0SAchim Leubner conformable = FALSE; 1346dce93cd0SAchim Leubner if (cur_size < min_size) 1347dce93cd0SAchim Leubner min_size = cur_size; 1348dce93cd0SAchim Leubner } 1349dce93cd0SAchim Leubner } 1350dce93cd0SAchim Leubner 1351dce93cd0SAchim Leubner /* not conformable: evaluate required sg elements */ 1352dce93cd0SAchim Leubner if (!conformable) { 1353dce93cd0SAchim Leubner int j, err_found, nseg_new = nseg; 1354dce93cd0SAchim Leubner for (i = min_size / PAGE_SIZE; i >= 1; --i) { 1355dce93cd0SAchim Leubner err_found = FALSE; 1356dce93cd0SAchim Leubner nseg_new = 2; 1357dce93cd0SAchim Leubner for (j = 1; j < nseg - 1; ++j) { 1358dce93cd0SAchim Leubner if (sg[j].length % (i*PAGE_SIZE)) { 1359dce93cd0SAchim Leubner err_found = TRUE; 1360dce93cd0SAchim Leubner break; 1361dce93cd0SAchim Leubner } 1362dce93cd0SAchim Leubner nseg_new += (sg[j].length / (i*PAGE_SIZE)); 1363dce93cd0SAchim Leubner } 1364dce93cd0SAchim Leubner if (!err_found) 1365dce93cd0SAchim Leubner break; 1366dce93cd0SAchim Leubner } 1367dce93cd0SAchim Leubner if (i>0 && nseg_new<=sc->aac_sg_tablesize && 1368dce93cd0SAchim Leubner !(sc->hint_flags & 4)) 1369dce93cd0SAchim Leubner nseg = aac_convert_sgraw2(sc, 1370dce93cd0SAchim Leubner raw, i, nseg, nseg_new); 1371dce93cd0SAchim Leubner } else { 1372dce93cd0SAchim Leubner raw->flags |= RIO2_SGL_CONFORMANT; 1373dce93cd0SAchim Leubner } 1374dce93cd0SAchim Leubner 1375dce93cd0SAchim Leubner /* update the FIB size for the s/g count */ 1376dce93cd0SAchim Leubner fib->Header.Size += nseg * 1377dce93cd0SAchim Leubner sizeof(struct aac_sge_ieee1212); 1378dce93cd0SAchim Leubner 1379dce93cd0SAchim Leubner } else if (fib->Header.Command == RawIo) { 1380dce93cd0SAchim Leubner struct aac_sg_tableraw *sg; 1381dce93cd0SAchim Leubner sg = (struct aac_sg_tableraw *)cm->cm_sgtable; 1382dce93cd0SAchim Leubner sg->SgCount = nseg; 1383dce93cd0SAchim Leubner for (i = 0; i < nseg; i++) { 1384dce93cd0SAchim Leubner sg->SgEntryRaw[i].SgAddress = segs[i].ds_addr; 1385dce93cd0SAchim Leubner sg->SgEntryRaw[i].SgByteCount = segs[i].ds_len; 1386dce93cd0SAchim Leubner sg->SgEntryRaw[i].Next = 0; 1387dce93cd0SAchim Leubner sg->SgEntryRaw[i].Prev = 0; 1388dce93cd0SAchim Leubner sg->SgEntryRaw[i].Flags = 0; 1389dce93cd0SAchim Leubner } 1390dce93cd0SAchim Leubner /* update the FIB size for the s/g count */ 1391dce93cd0SAchim Leubner fib->Header.Size += nseg*sizeof(struct aac_sg_entryraw); 1392dce93cd0SAchim Leubner } else if ((cm->cm_sc->flags & AAC_FLAGS_SG_64BIT) == 0) { 1393dce93cd0SAchim Leubner struct aac_sg_table *sg; 1394dce93cd0SAchim Leubner sg = cm->cm_sgtable; 1395dce93cd0SAchim Leubner sg->SgCount = nseg; 1396dce93cd0SAchim Leubner for (i = 0; i < nseg; i++) { 1397dce93cd0SAchim Leubner sg->SgEntry[i].SgAddress = segs[i].ds_addr; 1398dce93cd0SAchim Leubner sg->SgEntry[i].SgByteCount = segs[i].ds_len; 1399dce93cd0SAchim Leubner } 1400dce93cd0SAchim Leubner /* update the FIB size for the s/g count */ 1401dce93cd0SAchim Leubner fib->Header.Size += nseg*sizeof(struct aac_sg_entry); 1402dce93cd0SAchim Leubner } else { 1403dce93cd0SAchim Leubner struct aac_sg_table64 *sg; 1404dce93cd0SAchim Leubner sg = (struct aac_sg_table64 *)cm->cm_sgtable; 1405dce93cd0SAchim Leubner sg->SgCount = nseg; 1406dce93cd0SAchim Leubner for (i = 0; i < nseg; i++) { 1407dce93cd0SAchim Leubner sg->SgEntry64[i].SgAddress = segs[i].ds_addr; 1408dce93cd0SAchim Leubner sg->SgEntry64[i].SgByteCount = segs[i].ds_len; 1409dce93cd0SAchim Leubner } 1410dce93cd0SAchim Leubner /* update the FIB size for the s/g count */ 1411dce93cd0SAchim Leubner fib->Header.Size += nseg*sizeof(struct aac_sg_entry64); 1412dce93cd0SAchim Leubner } 1413dce93cd0SAchim Leubner } 1414dce93cd0SAchim Leubner 1415dce93cd0SAchim Leubner /* Fix up the address values in the FIB. Use the command array index 1416dce93cd0SAchim Leubner * instead of a pointer since these fields are only 32 bits. Shift 1417dce93cd0SAchim Leubner * the SenderFibAddress over to make room for the fast response bit 1418dce93cd0SAchim Leubner * and for the AIF bit 1419dce93cd0SAchim Leubner */ 1420dce93cd0SAchim Leubner cm->cm_fib->Header.SenderFibAddress = (cm->cm_index << 2); 1421dce93cd0SAchim Leubner cm->cm_fib->Header.u.ReceiverFibAddress = (u_int32_t)cm->cm_fibphys; 1422dce93cd0SAchim Leubner 1423dce93cd0SAchim Leubner /* save a pointer to the command for speedy reverse-lookup */ 1424dce93cd0SAchim Leubner cm->cm_fib->Header.Handle += cm->cm_index + 1; 1425dce93cd0SAchim Leubner 1426dce93cd0SAchim Leubner if (cm->cm_passthr_dmat == 0) { 1427dce93cd0SAchim Leubner if (cm->cm_flags & AAC_CMD_DATAIN) 1428dce93cd0SAchim Leubner bus_dmamap_sync(sc->aac_buffer_dmat, cm->cm_datamap, 1429dce93cd0SAchim Leubner BUS_DMASYNC_PREREAD); 1430dce93cd0SAchim Leubner if (cm->cm_flags & AAC_CMD_DATAOUT) 1431dce93cd0SAchim Leubner bus_dmamap_sync(sc->aac_buffer_dmat, cm->cm_datamap, 1432dce93cd0SAchim Leubner BUS_DMASYNC_PREWRITE); 1433dce93cd0SAchim Leubner } 1434dce93cd0SAchim Leubner 1435dce93cd0SAchim Leubner cm->cm_flags |= AAC_CMD_MAPPED; 1436dce93cd0SAchim Leubner 14374f1dfabaSMaxim Sobolev if (cm->cm_flags & AAC_CMD_WAIT) { 14384f1dfabaSMaxim Sobolev aacraid_sync_command(sc, AAC_MONKER_SYNCFIB, 14394f1dfabaSMaxim Sobolev cm->cm_fibphys, 0, 0, 0, NULL, NULL); 14404f1dfabaSMaxim Sobolev } else if (sc->flags & AAC_FLAGS_SYNC_MODE) { 1441dce93cd0SAchim Leubner u_int32_t wait = 0; 14424f1dfabaSMaxim Sobolev sc->aac_sync_cm = cm; 14434f1dfabaSMaxim Sobolev aacraid_sync_command(sc, AAC_MONKER_SYNCFIB, 14444f1dfabaSMaxim Sobolev cm->cm_fibphys, 0, 0, 0, &wait, NULL); 1445dce93cd0SAchim Leubner } else { 1446dce93cd0SAchim Leubner int count = 10000000L; 1447dce93cd0SAchim Leubner while (AAC_SEND_COMMAND(sc, cm) != 0) { 1448dce93cd0SAchim Leubner if (--count == 0) { 1449dce93cd0SAchim Leubner aac_unmap_command(cm); 1450dce93cd0SAchim Leubner sc->flags |= AAC_QUEUE_FRZN; 1451dce93cd0SAchim Leubner aac_requeue_ready(cm); 1452dce93cd0SAchim Leubner } 1453dce93cd0SAchim Leubner DELAY(5); /* wait 5 usec. */ 1454dce93cd0SAchim Leubner } 1455dce93cd0SAchim Leubner } 1456dce93cd0SAchim Leubner } 1457dce93cd0SAchim Leubner 1458dce93cd0SAchim Leubner 1459dce93cd0SAchim Leubner static int 1460dce93cd0SAchim Leubner aac_convert_sgraw2(struct aac_softc *sc, struct aac_raw_io2 *raw, 1461dce93cd0SAchim Leubner int pages, int nseg, int nseg_new) 1462dce93cd0SAchim Leubner { 1463dce93cd0SAchim Leubner struct aac_sge_ieee1212 *sge; 1464dce93cd0SAchim Leubner int i, j, pos; 1465dce93cd0SAchim Leubner u_int32_t addr_low; 1466dce93cd0SAchim Leubner 1467ac2fffa4SPedro F. Giffuni sge = malloc(nseg_new * sizeof(struct aac_sge_ieee1212), 1468dce93cd0SAchim Leubner M_AACRAIDBUF, M_NOWAIT|M_ZERO); 1469dce93cd0SAchim Leubner if (sge == NULL) 1470dce93cd0SAchim Leubner return nseg; 1471dce93cd0SAchim Leubner 1472dce93cd0SAchim Leubner for (i = 1, pos = 1; i < nseg - 1; ++i) { 1473dce93cd0SAchim Leubner for (j = 0; j < raw->sge[i].length / (pages*PAGE_SIZE); ++j) { 1474dce93cd0SAchim Leubner addr_low = raw->sge[i].addrLow + j * pages * PAGE_SIZE; 1475dce93cd0SAchim Leubner sge[pos].addrLow = addr_low; 1476dce93cd0SAchim Leubner sge[pos].addrHigh = raw->sge[i].addrHigh; 1477dce93cd0SAchim Leubner if (addr_low < raw->sge[i].addrLow) 1478dce93cd0SAchim Leubner sge[pos].addrHigh++; 1479dce93cd0SAchim Leubner sge[pos].length = pages * PAGE_SIZE; 1480dce93cd0SAchim Leubner sge[pos].flags = 0; 1481dce93cd0SAchim Leubner pos++; 1482dce93cd0SAchim Leubner } 1483dce93cd0SAchim Leubner } 1484dce93cd0SAchim Leubner sge[pos] = raw->sge[nseg-1]; 1485dce93cd0SAchim Leubner for (i = 1; i < nseg_new; ++i) 1486dce93cd0SAchim Leubner raw->sge[i] = sge[i]; 1487dce93cd0SAchim Leubner 1488dce93cd0SAchim Leubner free(sge, M_AACRAIDBUF); 1489dce93cd0SAchim Leubner raw->sgeCnt = nseg_new; 1490dce93cd0SAchim Leubner raw->flags |= RIO2_SGL_CONFORMANT; 1491dce93cd0SAchim Leubner raw->sgeNominalSize = pages * PAGE_SIZE; 1492dce93cd0SAchim Leubner return nseg_new; 1493dce93cd0SAchim Leubner } 1494dce93cd0SAchim Leubner 1495dce93cd0SAchim Leubner 1496dce93cd0SAchim Leubner /* 1497dce93cd0SAchim Leubner * Unmap a command from controller-visible space. 1498dce93cd0SAchim Leubner */ 1499dce93cd0SAchim Leubner static void 1500dce93cd0SAchim Leubner aac_unmap_command(struct aac_command *cm) 1501dce93cd0SAchim Leubner { 1502dce93cd0SAchim Leubner struct aac_softc *sc; 1503dce93cd0SAchim Leubner 1504dce93cd0SAchim Leubner sc = cm->cm_sc; 1505dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 1506dce93cd0SAchim Leubner 1507dce93cd0SAchim Leubner if (!(cm->cm_flags & AAC_CMD_MAPPED)) 1508dce93cd0SAchim Leubner return; 1509dce93cd0SAchim Leubner 1510dce93cd0SAchim Leubner if (cm->cm_datalen != 0 && cm->cm_passthr_dmat == 0) { 1511dce93cd0SAchim Leubner if (cm->cm_flags & AAC_CMD_DATAIN) 1512dce93cd0SAchim Leubner bus_dmamap_sync(sc->aac_buffer_dmat, cm->cm_datamap, 1513dce93cd0SAchim Leubner BUS_DMASYNC_POSTREAD); 1514dce93cd0SAchim Leubner if (cm->cm_flags & AAC_CMD_DATAOUT) 1515dce93cd0SAchim Leubner bus_dmamap_sync(sc->aac_buffer_dmat, cm->cm_datamap, 1516dce93cd0SAchim Leubner BUS_DMASYNC_POSTWRITE); 1517dce93cd0SAchim Leubner 1518dce93cd0SAchim Leubner bus_dmamap_unload(sc->aac_buffer_dmat, cm->cm_datamap); 1519dce93cd0SAchim Leubner } 1520dce93cd0SAchim Leubner cm->cm_flags &= ~AAC_CMD_MAPPED; 1521dce93cd0SAchim Leubner } 1522dce93cd0SAchim Leubner 1523dce93cd0SAchim Leubner /* 1524dce93cd0SAchim Leubner * Hardware Interface 1525dce93cd0SAchim Leubner */ 1526dce93cd0SAchim Leubner 1527dce93cd0SAchim Leubner /* 1528dce93cd0SAchim Leubner * Initialize the adapter. 1529dce93cd0SAchim Leubner */ 1530dce93cd0SAchim Leubner static void 1531dce93cd0SAchim Leubner aac_common_map(void *arg, bus_dma_segment_t *segs, int nseg, int error) 1532dce93cd0SAchim Leubner { 1533dce93cd0SAchim Leubner struct aac_softc *sc; 1534dce93cd0SAchim Leubner 1535dce93cd0SAchim Leubner sc = (struct aac_softc *)arg; 1536dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 1537dce93cd0SAchim Leubner 1538dce93cd0SAchim Leubner sc->aac_common_busaddr = segs[0].ds_addr; 1539dce93cd0SAchim Leubner } 1540dce93cd0SAchim Leubner 1541dce93cd0SAchim Leubner static int 1542dce93cd0SAchim Leubner aac_check_firmware(struct aac_softc *sc) 1543dce93cd0SAchim Leubner { 1544dce93cd0SAchim Leubner u_int32_t code, major, minor, maxsize; 15453fea9c0dSAchim Leubner u_int32_t options = 0, atu_size = 0, status, waitCount; 1546dce93cd0SAchim Leubner time_t then; 1547dce93cd0SAchim Leubner 1548dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 15493fea9c0dSAchim Leubner 15503fea9c0dSAchim Leubner /* check if flash update is running */ 15513fea9c0dSAchim Leubner if (AAC_GET_FWSTATUS(sc) & AAC_FLASH_UPD_PENDING) { 15523fea9c0dSAchim Leubner then = time_uptime; 15533fea9c0dSAchim Leubner do { 15543fea9c0dSAchim Leubner code = AAC_GET_FWSTATUS(sc); 15553fea9c0dSAchim Leubner if (time_uptime > (then + AAC_FWUPD_TIMEOUT)) { 15563fea9c0dSAchim Leubner device_printf(sc->aac_dev, 15573fea9c0dSAchim Leubner "FATAL: controller not coming ready, " 15583fea9c0dSAchim Leubner "status %x\n", code); 15593fea9c0dSAchim Leubner return(ENXIO); 15603fea9c0dSAchim Leubner } 15613fea9c0dSAchim Leubner } while (!(code & AAC_FLASH_UPD_SUCCESS) && !(code & AAC_FLASH_UPD_FAILED)); 15623fea9c0dSAchim Leubner /* 15633fea9c0dSAchim Leubner * Delay 10 seconds. Because right now FW is doing a soft reset, 15643fea9c0dSAchim Leubner * do not read scratch pad register at this time 15653fea9c0dSAchim Leubner */ 15663fea9c0dSAchim Leubner waitCount = 10 * 10000; 15673fea9c0dSAchim Leubner while (waitCount) { 15683fea9c0dSAchim Leubner DELAY(100); /* delay 100 microseconds */ 15693fea9c0dSAchim Leubner waitCount--; 15703fea9c0dSAchim Leubner } 15713fea9c0dSAchim Leubner } 15723fea9c0dSAchim Leubner 1573dce93cd0SAchim Leubner /* 1574dce93cd0SAchim Leubner * Wait for the adapter to come ready. 1575dce93cd0SAchim Leubner */ 1576dce93cd0SAchim Leubner then = time_uptime; 1577dce93cd0SAchim Leubner do { 1578dce93cd0SAchim Leubner code = AAC_GET_FWSTATUS(sc); 1579dce93cd0SAchim Leubner if (time_uptime > (then + AAC_BOOT_TIMEOUT)) { 1580dce93cd0SAchim Leubner device_printf(sc->aac_dev, 1581dce93cd0SAchim Leubner "FATAL: controller not coming ready, " 1582dce93cd0SAchim Leubner "status %x\n", code); 1583dce93cd0SAchim Leubner return(ENXIO); 1584dce93cd0SAchim Leubner } 15853fea9c0dSAchim Leubner } while (!(code & AAC_UP_AND_RUNNING) || code == 0xffffffff); 1586dce93cd0SAchim Leubner 1587dce93cd0SAchim Leubner /* 1588dce93cd0SAchim Leubner * Retrieve the firmware version numbers. Dell PERC2/QC cards with 1589dce93cd0SAchim Leubner * firmware version 1.x are not compatible with this driver. 1590dce93cd0SAchim Leubner */ 1591dce93cd0SAchim Leubner if (sc->flags & AAC_FLAGS_PERC2QC) { 1592dce93cd0SAchim Leubner if (aacraid_sync_command(sc, AAC_MONKER_GETKERNVER, 0, 0, 0, 0, 1593dce93cd0SAchim Leubner NULL, NULL)) { 1594dce93cd0SAchim Leubner device_printf(sc->aac_dev, 1595dce93cd0SAchim Leubner "Error reading firmware version\n"); 1596dce93cd0SAchim Leubner return (EIO); 1597dce93cd0SAchim Leubner } 1598dce93cd0SAchim Leubner 1599dce93cd0SAchim Leubner /* These numbers are stored as ASCII! */ 1600dce93cd0SAchim Leubner major = (AAC_GET_MAILBOX(sc, 1) & 0xff) - 0x30; 1601dce93cd0SAchim Leubner minor = (AAC_GET_MAILBOX(sc, 2) & 0xff) - 0x30; 1602dce93cd0SAchim Leubner if (major == 1) { 1603dce93cd0SAchim Leubner device_printf(sc->aac_dev, 1604dce93cd0SAchim Leubner "Firmware version %d.%d is not supported.\n", 1605dce93cd0SAchim Leubner major, minor); 1606dce93cd0SAchim Leubner return (EINVAL); 1607dce93cd0SAchim Leubner } 1608dce93cd0SAchim Leubner } 1609dce93cd0SAchim Leubner /* 1610dce93cd0SAchim Leubner * Retrieve the capabilities/supported options word so we know what 1611dce93cd0SAchim Leubner * work-arounds to enable. Some firmware revs don't support this 1612dce93cd0SAchim Leubner * command. 1613dce93cd0SAchim Leubner */ 1614dce93cd0SAchim Leubner if (aacraid_sync_command(sc, AAC_MONKER_GETINFO, 0, 0, 0, 0, &status, NULL)) { 1615dce93cd0SAchim Leubner if (status != AAC_SRB_STS_INVALID_REQUEST) { 1616dce93cd0SAchim Leubner device_printf(sc->aac_dev, 1617dce93cd0SAchim Leubner "RequestAdapterInfo failed\n"); 1618dce93cd0SAchim Leubner return (EIO); 1619dce93cd0SAchim Leubner } 1620dce93cd0SAchim Leubner } else { 1621dce93cd0SAchim Leubner options = AAC_GET_MAILBOX(sc, 1); 1622dce93cd0SAchim Leubner atu_size = AAC_GET_MAILBOX(sc, 2); 1623dce93cd0SAchim Leubner sc->supported_options = options; 16244f1dfabaSMaxim Sobolev sc->doorbell_mask = AAC_GET_MAILBOX(sc, 3); 1625dce93cd0SAchim Leubner 1626dce93cd0SAchim Leubner if ((options & AAC_SUPPORTED_4GB_WINDOW) != 0 && 1627dce93cd0SAchim Leubner (sc->flags & AAC_FLAGS_NO4GB) == 0) 1628dce93cd0SAchim Leubner sc->flags |= AAC_FLAGS_4GB_WINDOW; 1629dce93cd0SAchim Leubner if (options & AAC_SUPPORTED_NONDASD) 1630dce93cd0SAchim Leubner sc->flags |= AAC_FLAGS_ENABLE_CAM; 1631dce93cd0SAchim Leubner if ((options & AAC_SUPPORTED_SGMAP_HOST64) != 0 1632dce93cd0SAchim Leubner && (sizeof(bus_addr_t) > 4) 1633dce93cd0SAchim Leubner && (sc->hint_flags & 0x1)) { 1634dce93cd0SAchim Leubner device_printf(sc->aac_dev, 1635dce93cd0SAchim Leubner "Enabling 64-bit address support\n"); 1636dce93cd0SAchim Leubner sc->flags |= AAC_FLAGS_SG_64BIT; 1637dce93cd0SAchim Leubner } 1638dce93cd0SAchim Leubner if (sc->aac_if.aif_send_command) { 16394f1dfabaSMaxim Sobolev if (options & AAC_SUPPORTED_NEW_COMM_TYPE2) 16404f1dfabaSMaxim Sobolev sc->flags |= AAC_FLAGS_NEW_COMM | AAC_FLAGS_NEW_COMM_TYPE2; 1641dce93cd0SAchim Leubner else if (options & AAC_SUPPORTED_NEW_COMM_TYPE1) 1642dce93cd0SAchim Leubner sc->flags |= AAC_FLAGS_NEW_COMM | AAC_FLAGS_NEW_COMM_TYPE1; 16434f1dfabaSMaxim Sobolev else if ((options & AAC_SUPPORTED_NEW_COMM_TYPE3) || 16444f1dfabaSMaxim Sobolev (options & AAC_SUPPORTED_NEW_COMM_TYPE4)) 16454f1dfabaSMaxim Sobolev sc->flags |= AAC_FLAGS_NEW_COMM | AAC_FLAGS_NEW_COMM_TYPE34; 1646dce93cd0SAchim Leubner } 1647dce93cd0SAchim Leubner if (options & AAC_SUPPORTED_64BIT_ARRAYSIZE) 1648dce93cd0SAchim Leubner sc->flags |= AAC_FLAGS_ARRAY_64BIT; 1649dce93cd0SAchim Leubner } 1650dce93cd0SAchim Leubner 1651dce93cd0SAchim Leubner if (!(sc->flags & AAC_FLAGS_NEW_COMM)) { 1652dce93cd0SAchim Leubner device_printf(sc->aac_dev, "Communication interface not supported!\n"); 1653dce93cd0SAchim Leubner return (ENXIO); 1654dce93cd0SAchim Leubner } 1655dce93cd0SAchim Leubner 1656dce93cd0SAchim Leubner if (sc->hint_flags & 2) { 1657dce93cd0SAchim Leubner device_printf(sc->aac_dev, 1658dce93cd0SAchim Leubner "Sync. mode enforced by driver parameter. This will cause a significant performance decrease!\n"); 1659dce93cd0SAchim Leubner sc->flags |= AAC_FLAGS_SYNC_MODE; 1660dce93cd0SAchim Leubner } else if (sc->flags & AAC_FLAGS_NEW_COMM_TYPE34) { 1661dce93cd0SAchim Leubner device_printf(sc->aac_dev, 1662dce93cd0SAchim Leubner "Async. mode not supported by current driver, sync. mode enforced.\nPlease update driver to get full performance.\n"); 1663dce93cd0SAchim Leubner sc->flags |= AAC_FLAGS_SYNC_MODE; 1664dce93cd0SAchim Leubner } 1665dce93cd0SAchim Leubner 1666dce93cd0SAchim Leubner /* Check for broken hardware that does a lower number of commands */ 1667dce93cd0SAchim Leubner sc->aac_max_fibs = (sc->flags & AAC_FLAGS_256FIBS ? 256:512); 1668dce93cd0SAchim Leubner 1669dce93cd0SAchim Leubner /* Remap mem. resource, if required */ 1670dce93cd0SAchim Leubner if (atu_size > rman_get_size(sc->aac_regs_res0)) { 1671dce93cd0SAchim Leubner bus_release_resource( 1672dce93cd0SAchim Leubner sc->aac_dev, SYS_RES_MEMORY, 1673dce93cd0SAchim Leubner sc->aac_regs_rid0, sc->aac_regs_res0); 1674c47476d7SJustin Hibbits sc->aac_regs_res0 = bus_alloc_resource_anywhere( 1675dce93cd0SAchim Leubner sc->aac_dev, SYS_RES_MEMORY, &sc->aac_regs_rid0, 1676c47476d7SJustin Hibbits atu_size, RF_ACTIVE); 1677dce93cd0SAchim Leubner if (sc->aac_regs_res0 == NULL) { 1678dce93cd0SAchim Leubner sc->aac_regs_res0 = bus_alloc_resource_any( 1679dce93cd0SAchim Leubner sc->aac_dev, SYS_RES_MEMORY, 1680dce93cd0SAchim Leubner &sc->aac_regs_rid0, RF_ACTIVE); 1681dce93cd0SAchim Leubner if (sc->aac_regs_res0 == NULL) { 1682dce93cd0SAchim Leubner device_printf(sc->aac_dev, 1683dce93cd0SAchim Leubner "couldn't allocate register window\n"); 1684dce93cd0SAchim Leubner return (ENXIO); 1685dce93cd0SAchim Leubner } 1686dce93cd0SAchim Leubner } 1687dce93cd0SAchim Leubner sc->aac_btag0 = rman_get_bustag(sc->aac_regs_res0); 1688dce93cd0SAchim Leubner sc->aac_bhandle0 = rman_get_bushandle(sc->aac_regs_res0); 1689dce93cd0SAchim Leubner } 1690dce93cd0SAchim Leubner 1691dce93cd0SAchim Leubner /* Read preferred settings */ 1692dce93cd0SAchim Leubner sc->aac_max_fib_size = sizeof(struct aac_fib); 1693dce93cd0SAchim Leubner sc->aac_max_sectors = 128; /* 64KB */ 1694dce93cd0SAchim Leubner sc->aac_max_aif = 1; 1695dce93cd0SAchim Leubner if (sc->flags & AAC_FLAGS_SG_64BIT) 1696dce93cd0SAchim Leubner sc->aac_sg_tablesize = (AAC_FIB_DATASIZE 1697dce93cd0SAchim Leubner - sizeof(struct aac_blockwrite64)) 1698dce93cd0SAchim Leubner / sizeof(struct aac_sg_entry64); 1699dce93cd0SAchim Leubner else 1700dce93cd0SAchim Leubner sc->aac_sg_tablesize = (AAC_FIB_DATASIZE 1701dce93cd0SAchim Leubner - sizeof(struct aac_blockwrite)) 1702dce93cd0SAchim Leubner / sizeof(struct aac_sg_entry); 1703dce93cd0SAchim Leubner 1704dce93cd0SAchim Leubner if (!aacraid_sync_command(sc, AAC_MONKER_GETCOMMPREF, 0, 0, 0, 0, NULL, NULL)) { 1705dce93cd0SAchim Leubner options = AAC_GET_MAILBOX(sc, 1); 1706dce93cd0SAchim Leubner sc->aac_max_fib_size = (options & 0xFFFF); 1707dce93cd0SAchim Leubner sc->aac_max_sectors = (options >> 16) << 1; 1708dce93cd0SAchim Leubner options = AAC_GET_MAILBOX(sc, 2); 1709dce93cd0SAchim Leubner sc->aac_sg_tablesize = (options >> 16); 1710dce93cd0SAchim Leubner options = AAC_GET_MAILBOX(sc, 3); 17113fea9c0dSAchim Leubner sc->aac_max_fibs = ((options >> 16) & 0xFFFF); 17123fea9c0dSAchim Leubner if (sc->aac_max_fibs == 0 || sc->aac_hwif != AAC_HWIF_SRCV) 1713dce93cd0SAchim Leubner sc->aac_max_fibs = (options & 0xFFFF); 1714dce93cd0SAchim Leubner options = AAC_GET_MAILBOX(sc, 4); 1715dce93cd0SAchim Leubner sc->aac_max_aif = (options & 0xFFFF); 17163fea9c0dSAchim Leubner options = AAC_GET_MAILBOX(sc, 5); 17173fea9c0dSAchim Leubner sc->aac_max_msix =(sc->flags & AAC_FLAGS_NEW_COMM_TYPE2) ? options : 0; 1718dce93cd0SAchim Leubner } 1719dce93cd0SAchim Leubner 1720dce93cd0SAchim Leubner maxsize = sc->aac_max_fib_size + 31; 1721dce93cd0SAchim Leubner if (sc->flags & AAC_FLAGS_NEW_COMM_TYPE1) 1722dce93cd0SAchim Leubner maxsize += sizeof(struct aac_fib_xporthdr); 1723dce93cd0SAchim Leubner if (maxsize > PAGE_SIZE) { 1724dce93cd0SAchim Leubner sc->aac_max_fib_size -= (maxsize - PAGE_SIZE); 1725dce93cd0SAchim Leubner maxsize = PAGE_SIZE; 1726dce93cd0SAchim Leubner } 1727dce93cd0SAchim Leubner sc->aac_max_fibs_alloc = PAGE_SIZE / maxsize; 1728dce93cd0SAchim Leubner 1729dce93cd0SAchim Leubner if (sc->aac_max_fib_size > sizeof(struct aac_fib)) { 1730dce93cd0SAchim Leubner sc->flags |= AAC_FLAGS_RAW_IO; 1731dce93cd0SAchim Leubner device_printf(sc->aac_dev, "Enable Raw I/O\n"); 1732dce93cd0SAchim Leubner } 1733dce93cd0SAchim Leubner if ((sc->flags & AAC_FLAGS_RAW_IO) && 1734dce93cd0SAchim Leubner (sc->flags & AAC_FLAGS_ARRAY_64BIT)) { 1735dce93cd0SAchim Leubner sc->flags |= AAC_FLAGS_LBA_64BIT; 1736dce93cd0SAchim Leubner device_printf(sc->aac_dev, "Enable 64-bit array\n"); 1737dce93cd0SAchim Leubner } 1738dce93cd0SAchim Leubner 1739457b3426SSean Bruno #ifdef AACRAID_DEBUG 1740dce93cd0SAchim Leubner aacraid_get_fw_debug_buffer(sc); 1741457b3426SSean Bruno #endif 1742dce93cd0SAchim Leubner return (0); 1743dce93cd0SAchim Leubner } 1744dce93cd0SAchim Leubner 1745dce93cd0SAchim Leubner static int 1746dce93cd0SAchim Leubner aac_init(struct aac_softc *sc) 1747dce93cd0SAchim Leubner { 1748dce93cd0SAchim Leubner struct aac_adapter_init *ip; 17493fea9c0dSAchim Leubner int i, error; 1750dce93cd0SAchim Leubner 1751dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 1752dce93cd0SAchim Leubner 1753dce93cd0SAchim Leubner /* reset rrq index */ 17543fea9c0dSAchim Leubner sc->aac_fibs_pushed_no = 0; 17553fea9c0dSAchim Leubner for (i = 0; i < sc->aac_max_msix; i++) 17563fea9c0dSAchim Leubner sc->aac_host_rrq_idx[i] = i * sc->aac_vector_cap; 1757dce93cd0SAchim Leubner 1758dce93cd0SAchim Leubner /* 1759dce93cd0SAchim Leubner * Fill in the init structure. This tells the adapter about the 1760dce93cd0SAchim Leubner * physical location of various important shared data structures. 1761dce93cd0SAchim Leubner */ 1762dce93cd0SAchim Leubner ip = &sc->aac_common->ac_init; 1763dce93cd0SAchim Leubner ip->InitStructRevision = AAC_INIT_STRUCT_REVISION; 1764dce93cd0SAchim Leubner if (sc->aac_max_fib_size > sizeof(struct aac_fib)) { 1765dce93cd0SAchim Leubner ip->InitStructRevision = AAC_INIT_STRUCT_REVISION_4; 1766dce93cd0SAchim Leubner sc->flags |= AAC_FLAGS_RAW_IO; 1767dce93cd0SAchim Leubner } 17683fea9c0dSAchim Leubner ip->NoOfMSIXVectors = sc->aac_max_msix; 1769dce93cd0SAchim Leubner 1770dce93cd0SAchim Leubner ip->AdapterFibsPhysicalAddress = sc->aac_common_busaddr + 1771dce93cd0SAchim Leubner offsetof(struct aac_common, ac_fibs); 1772dce93cd0SAchim Leubner ip->AdapterFibsVirtualAddress = 0; 1773dce93cd0SAchim Leubner ip->AdapterFibsSize = AAC_ADAPTER_FIBS * sizeof(struct aac_fib); 1774dce93cd0SAchim Leubner ip->AdapterFibAlign = sizeof(struct aac_fib); 1775dce93cd0SAchim Leubner 1776dce93cd0SAchim Leubner ip->PrintfBufferAddress = sc->aac_common_busaddr + 1777dce93cd0SAchim Leubner offsetof(struct aac_common, ac_printf); 1778dce93cd0SAchim Leubner ip->PrintfBufferSize = AAC_PRINTF_BUFSIZE; 1779dce93cd0SAchim Leubner 1780dce93cd0SAchim Leubner /* 1781dce93cd0SAchim Leubner * The adapter assumes that pages are 4K in size, except on some 1782dce93cd0SAchim Leubner * broken firmware versions that do the page->byte conversion twice, 1783dce93cd0SAchim Leubner * therefore 'assuming' that this value is in 16MB units (2^24). 1784dce93cd0SAchim Leubner * Round up since the granularity is so high. 1785dce93cd0SAchim Leubner */ 1786dce93cd0SAchim Leubner ip->HostPhysMemPages = ctob(physmem) / AAC_PAGE_SIZE; 1787dce93cd0SAchim Leubner if (sc->flags & AAC_FLAGS_BROKEN_MEMMAP) { 1788dce93cd0SAchim Leubner ip->HostPhysMemPages = 1789dce93cd0SAchim Leubner (ip->HostPhysMemPages + AAC_PAGE_SIZE) / AAC_PAGE_SIZE; 1790dce93cd0SAchim Leubner } 1791dce93cd0SAchim Leubner ip->HostElapsedSeconds = time_uptime; /* reset later if invalid */ 1792dce93cd0SAchim Leubner 1793dce93cd0SAchim Leubner ip->InitFlags = AAC_INITFLAGS_NEW_COMM_SUPPORTED; 1794dce93cd0SAchim Leubner if (sc->flags & AAC_FLAGS_NEW_COMM_TYPE1) { 1795dce93cd0SAchim Leubner ip->InitStructRevision = AAC_INIT_STRUCT_REVISION_6; 1796dce93cd0SAchim Leubner ip->InitFlags |= (AAC_INITFLAGS_NEW_COMM_TYPE1_SUPPORTED | 1797dce93cd0SAchim Leubner AAC_INITFLAGS_FAST_JBOD_SUPPORTED); 1798dce93cd0SAchim Leubner device_printf(sc->aac_dev, "New comm. interface type1 enabled\n"); 1799dce93cd0SAchim Leubner } else if (sc->flags & AAC_FLAGS_NEW_COMM_TYPE2) { 1800dce93cd0SAchim Leubner ip->InitStructRevision = AAC_INIT_STRUCT_REVISION_7; 1801dce93cd0SAchim Leubner ip->InitFlags |= (AAC_INITFLAGS_NEW_COMM_TYPE2_SUPPORTED | 1802dce93cd0SAchim Leubner AAC_INITFLAGS_FAST_JBOD_SUPPORTED); 1803dce93cd0SAchim Leubner device_printf(sc->aac_dev, "New comm. interface type2 enabled\n"); 1804dce93cd0SAchim Leubner } 1805dce93cd0SAchim Leubner ip->MaxNumAif = sc->aac_max_aif; 1806dce93cd0SAchim Leubner ip->HostRRQ_AddrLow = 1807dce93cd0SAchim Leubner sc->aac_common_busaddr + offsetof(struct aac_common, ac_host_rrq); 1808dce93cd0SAchim Leubner /* always 32-bit address */ 1809dce93cd0SAchim Leubner ip->HostRRQ_AddrHigh = 0; 1810dce93cd0SAchim Leubner 1811dce93cd0SAchim Leubner if (sc->aac_support_opt2 & AAC_SUPPORTED_POWER_MANAGEMENT) { 1812dce93cd0SAchim Leubner ip->InitFlags |= AAC_INITFLAGS_DRIVER_SUPPORTS_PM; 1813dce93cd0SAchim Leubner ip->InitFlags |= AAC_INITFLAGS_DRIVER_USES_UTC_TIME; 1814dce93cd0SAchim Leubner device_printf(sc->aac_dev, "Power Management enabled\n"); 1815dce93cd0SAchim Leubner } 1816dce93cd0SAchim Leubner 1817dce93cd0SAchim Leubner ip->MaxIoCommands = sc->aac_max_fibs; 1818dce93cd0SAchim Leubner ip->MaxIoSize = sc->aac_max_sectors << 9; 1819dce93cd0SAchim Leubner ip->MaxFibSize = sc->aac_max_fib_size; 1820dce93cd0SAchim Leubner 1821dce93cd0SAchim Leubner /* 1822dce93cd0SAchim Leubner * Do controller-type-specific initialisation 1823dce93cd0SAchim Leubner */ 1824dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_ODBR_C, ~0); 1825dce93cd0SAchim Leubner 1826dce93cd0SAchim Leubner /* 1827dce93cd0SAchim Leubner * Give the init structure to the controller. 1828dce93cd0SAchim Leubner */ 1829dce93cd0SAchim Leubner if (aacraid_sync_command(sc, AAC_MONKER_INITSTRUCT, 1830dce93cd0SAchim Leubner sc->aac_common_busaddr + 1831dce93cd0SAchim Leubner offsetof(struct aac_common, ac_init), 0, 0, 0, 1832dce93cd0SAchim Leubner NULL, NULL)) { 1833dce93cd0SAchim Leubner device_printf(sc->aac_dev, 1834dce93cd0SAchim Leubner "error establishing init structure\n"); 1835dce93cd0SAchim Leubner error = EIO; 1836dce93cd0SAchim Leubner goto out; 1837dce93cd0SAchim Leubner } 1838dce93cd0SAchim Leubner 18393fea9c0dSAchim Leubner /* 18403fea9c0dSAchim Leubner * Check configuration issues 18413fea9c0dSAchim Leubner */ 18423fea9c0dSAchim Leubner if ((error = aac_check_config(sc)) != 0) 18433fea9c0dSAchim Leubner goto out; 18443fea9c0dSAchim Leubner 1845dce93cd0SAchim Leubner error = 0; 1846dce93cd0SAchim Leubner out: 1847dce93cd0SAchim Leubner return(error); 1848dce93cd0SAchim Leubner } 1849dce93cd0SAchim Leubner 18503fea9c0dSAchim Leubner static void 18513fea9c0dSAchim Leubner aac_define_int_mode(struct aac_softc *sc) 18523fea9c0dSAchim Leubner { 18533fea9c0dSAchim Leubner device_t dev; 18543fea9c0dSAchim Leubner int cap, msi_count, error = 0; 18553fea9c0dSAchim Leubner uint32_t val; 18563fea9c0dSAchim Leubner 18573fea9c0dSAchim Leubner dev = sc->aac_dev; 18583fea9c0dSAchim Leubner 18594f1dfabaSMaxim Sobolev if (sc->flags & AAC_FLAGS_SYNC_MODE) { 18604f1dfabaSMaxim Sobolev device_printf(dev, "using line interrupts\n"); 18614f1dfabaSMaxim Sobolev sc->aac_max_msix = 1; 18624f1dfabaSMaxim Sobolev sc->aac_vector_cap = sc->aac_max_fibs; 18634f1dfabaSMaxim Sobolev return; 18644f1dfabaSMaxim Sobolev } 18654f1dfabaSMaxim Sobolev 18663fea9c0dSAchim Leubner /* max. vectors from AAC_MONKER_GETCOMMPREF */ 18673fea9c0dSAchim Leubner if (sc->aac_max_msix == 0) { 18684f1dfabaSMaxim Sobolev if (sc->aac_hwif == AAC_HWIF_SRC) { 18694f1dfabaSMaxim Sobolev msi_count = 1; 18704f1dfabaSMaxim Sobolev if ((error = pci_alloc_msi(dev, &msi_count)) != 0) { 18714f1dfabaSMaxim Sobolev device_printf(dev, "alloc msi failed - err=%d; " 18724f1dfabaSMaxim Sobolev "will use INTx\n", error); 18734f1dfabaSMaxim Sobolev pci_release_msi(dev); 18744f1dfabaSMaxim Sobolev } else { 18754f1dfabaSMaxim Sobolev sc->msi_tupelo = TRUE; 18764f1dfabaSMaxim Sobolev } 18774f1dfabaSMaxim Sobolev } 18784f1dfabaSMaxim Sobolev if (sc->msi_tupelo) 18794f1dfabaSMaxim Sobolev device_printf(dev, "using MSI interrupts\n"); 18804f1dfabaSMaxim Sobolev else 18814f1dfabaSMaxim Sobolev device_printf(dev, "using line interrupts\n"); 18824f1dfabaSMaxim Sobolev 18833fea9c0dSAchim Leubner sc->aac_max_msix = 1; 18843fea9c0dSAchim Leubner sc->aac_vector_cap = sc->aac_max_fibs; 18853fea9c0dSAchim Leubner return; 18863fea9c0dSAchim Leubner } 18873fea9c0dSAchim Leubner 18883fea9c0dSAchim Leubner /* OS capability */ 18893fea9c0dSAchim Leubner msi_count = pci_msix_count(dev); 18903fea9c0dSAchim Leubner if (msi_count > AAC_MAX_MSIX) 18913fea9c0dSAchim Leubner msi_count = AAC_MAX_MSIX; 18923fea9c0dSAchim Leubner if (msi_count > sc->aac_max_msix) 18933fea9c0dSAchim Leubner msi_count = sc->aac_max_msix; 18943fea9c0dSAchim Leubner if (msi_count == 0 || (error = pci_alloc_msix(dev, &msi_count)) != 0) { 18953fea9c0dSAchim Leubner device_printf(dev, "alloc msix failed - msi_count=%d, err=%d; " 18963fea9c0dSAchim Leubner "will try MSI\n", msi_count, error); 18973fea9c0dSAchim Leubner pci_release_msi(dev); 18983fea9c0dSAchim Leubner } else { 18993fea9c0dSAchim Leubner sc->msi_enabled = TRUE; 19003fea9c0dSAchim Leubner device_printf(dev, "using MSI-X interrupts (%u vectors)\n", 19013fea9c0dSAchim Leubner msi_count); 19023fea9c0dSAchim Leubner } 19033fea9c0dSAchim Leubner 19043fea9c0dSAchim Leubner if (!sc->msi_enabled) { 19053fea9c0dSAchim Leubner msi_count = 1; 19063fea9c0dSAchim Leubner if ((error = pci_alloc_msi(dev, &msi_count)) != 0) { 19073fea9c0dSAchim Leubner device_printf(dev, "alloc msi failed - err=%d; " 19083fea9c0dSAchim Leubner "will use INTx\n", error); 19093fea9c0dSAchim Leubner pci_release_msi(dev); 19103fea9c0dSAchim Leubner } else { 19113fea9c0dSAchim Leubner sc->msi_enabled = TRUE; 19123fea9c0dSAchim Leubner device_printf(dev, "using MSI interrupts\n"); 19133fea9c0dSAchim Leubner } 19143fea9c0dSAchim Leubner } 19153fea9c0dSAchim Leubner 19163fea9c0dSAchim Leubner if (sc->msi_enabled) { 19173fea9c0dSAchim Leubner /* now read controller capability from PCI config. space */ 19183fea9c0dSAchim Leubner cap = aac_find_pci_capability(sc, PCIY_MSIX); 19193fea9c0dSAchim Leubner val = (cap != 0 ? pci_read_config(dev, cap + 2, 2) : 0); 19203fea9c0dSAchim Leubner if (!(val & AAC_PCI_MSI_ENABLE)) { 19213fea9c0dSAchim Leubner pci_release_msi(dev); 19223fea9c0dSAchim Leubner sc->msi_enabled = FALSE; 19233fea9c0dSAchim Leubner } 19243fea9c0dSAchim Leubner } 19253fea9c0dSAchim Leubner 19263fea9c0dSAchim Leubner if (!sc->msi_enabled) { 19273fea9c0dSAchim Leubner device_printf(dev, "using legacy interrupts\n"); 19283fea9c0dSAchim Leubner sc->aac_max_msix = 1; 19293fea9c0dSAchim Leubner } else { 19303fea9c0dSAchim Leubner AAC_ACCESS_DEVREG(sc, AAC_ENABLE_MSIX); 19313fea9c0dSAchim Leubner if (sc->aac_max_msix > msi_count) 19323fea9c0dSAchim Leubner sc->aac_max_msix = msi_count; 19333fea9c0dSAchim Leubner } 19343fea9c0dSAchim Leubner sc->aac_vector_cap = sc->aac_max_fibs / sc->aac_max_msix; 19353fea9c0dSAchim Leubner 19363fea9c0dSAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_DEBUG_B, "msi_enabled %d vector_cap %d max_fibs %d max_msix %d", 19373fea9c0dSAchim Leubner sc->msi_enabled,sc->aac_vector_cap, sc->aac_max_fibs, sc->aac_max_msix); 19383fea9c0dSAchim Leubner } 19393fea9c0dSAchim Leubner 19403fea9c0dSAchim Leubner static int 19413fea9c0dSAchim Leubner aac_find_pci_capability(struct aac_softc *sc, int cap) 19423fea9c0dSAchim Leubner { 19433fea9c0dSAchim Leubner device_t dev; 19443fea9c0dSAchim Leubner uint32_t status; 19453fea9c0dSAchim Leubner uint8_t ptr; 19463fea9c0dSAchim Leubner 19473fea9c0dSAchim Leubner dev = sc->aac_dev; 19483fea9c0dSAchim Leubner 19493fea9c0dSAchim Leubner status = pci_read_config(dev, PCIR_STATUS, 2); 19503fea9c0dSAchim Leubner if (!(status & PCIM_STATUS_CAPPRESENT)) 19513fea9c0dSAchim Leubner return (0); 19523fea9c0dSAchim Leubner 19533fea9c0dSAchim Leubner status = pci_read_config(dev, PCIR_HDRTYPE, 1); 19543fea9c0dSAchim Leubner switch (status & PCIM_HDRTYPE) { 19553fea9c0dSAchim Leubner case 0: 19563fea9c0dSAchim Leubner case 1: 19573fea9c0dSAchim Leubner ptr = PCIR_CAP_PTR; 19583fea9c0dSAchim Leubner break; 19593fea9c0dSAchim Leubner case 2: 19603fea9c0dSAchim Leubner ptr = PCIR_CAP_PTR_2; 19613fea9c0dSAchim Leubner break; 19623fea9c0dSAchim Leubner default: 19633fea9c0dSAchim Leubner return (0); 19643fea9c0dSAchim Leubner break; 19653fea9c0dSAchim Leubner } 19663fea9c0dSAchim Leubner ptr = pci_read_config(dev, ptr, 1); 19673fea9c0dSAchim Leubner 19683fea9c0dSAchim Leubner while (ptr != 0) { 19693fea9c0dSAchim Leubner int next, val; 19703fea9c0dSAchim Leubner next = pci_read_config(dev, ptr + PCICAP_NEXTPTR, 1); 19713fea9c0dSAchim Leubner val = pci_read_config(dev, ptr + PCICAP_ID, 1); 19723fea9c0dSAchim Leubner if (val == cap) 19733fea9c0dSAchim Leubner return (ptr); 19743fea9c0dSAchim Leubner ptr = next; 19753fea9c0dSAchim Leubner } 19763fea9c0dSAchim Leubner 19773fea9c0dSAchim Leubner return (0); 19783fea9c0dSAchim Leubner } 19793fea9c0dSAchim Leubner 1980dce93cd0SAchim Leubner static int 1981dce93cd0SAchim Leubner aac_setup_intr(struct aac_softc *sc) 1982dce93cd0SAchim Leubner { 19833fea9c0dSAchim Leubner int i, msi_count, rid; 19843fea9c0dSAchim Leubner struct resource *res; 19853fea9c0dSAchim Leubner void *tag; 19863fea9c0dSAchim Leubner 19873fea9c0dSAchim Leubner msi_count = sc->aac_max_msix; 19884f1dfabaSMaxim Sobolev rid = ((sc->msi_enabled || sc->msi_tupelo)? 1:0); 19893fea9c0dSAchim Leubner 19903fea9c0dSAchim Leubner for (i = 0; i < msi_count; i++, rid++) { 19913fea9c0dSAchim Leubner if ((res = bus_alloc_resource_any(sc->aac_dev,SYS_RES_IRQ, &rid, 19923fea9c0dSAchim Leubner RF_SHAREABLE | RF_ACTIVE)) == NULL) { 1993dce93cd0SAchim Leubner device_printf(sc->aac_dev,"can't allocate interrupt\n"); 1994dce93cd0SAchim Leubner return (EINVAL); 1995dce93cd0SAchim Leubner } 19963fea9c0dSAchim Leubner sc->aac_irq_rid[i] = rid; 19973fea9c0dSAchim Leubner sc->aac_irq[i] = res; 19983fea9c0dSAchim Leubner if (aac_bus_setup_intr(sc->aac_dev, res, 1999dce93cd0SAchim Leubner INTR_MPSAFE | INTR_TYPE_BIO, NULL, 20003fea9c0dSAchim Leubner aacraid_new_intr_type1, &sc->aac_msix[i], &tag)) { 2001dce93cd0SAchim Leubner device_printf(sc->aac_dev, "can't set up interrupt\n"); 2002dce93cd0SAchim Leubner return (EINVAL); 2003dce93cd0SAchim Leubner } 20043fea9c0dSAchim Leubner sc->aac_msix[i].vector_no = i; 20053fea9c0dSAchim Leubner sc->aac_msix[i].sc = sc; 20063fea9c0dSAchim Leubner sc->aac_intr[i] = tag; 20073fea9c0dSAchim Leubner } 20083fea9c0dSAchim Leubner 2009dce93cd0SAchim Leubner return (0); 2010dce93cd0SAchim Leubner } 2011dce93cd0SAchim Leubner 20123fea9c0dSAchim Leubner static int 20133fea9c0dSAchim Leubner aac_check_config(struct aac_softc *sc) 20143fea9c0dSAchim Leubner { 20153fea9c0dSAchim Leubner struct aac_fib *fib; 20163fea9c0dSAchim Leubner struct aac_cnt_config *ccfg; 20173fea9c0dSAchim Leubner struct aac_cf_status_hdr *cf_shdr; 20183fea9c0dSAchim Leubner int rval; 20193fea9c0dSAchim Leubner 20203fea9c0dSAchim Leubner mtx_lock(&sc->aac_io_lock); 20213fea9c0dSAchim Leubner aac_alloc_sync_fib(sc, &fib); 20223fea9c0dSAchim Leubner 20233fea9c0dSAchim Leubner ccfg = (struct aac_cnt_config *)&fib->data[0]; 20243fea9c0dSAchim Leubner bzero(ccfg, sizeof (*ccfg) - CT_PACKET_SIZE); 20253fea9c0dSAchim Leubner ccfg->Command = VM_ContainerConfig; 20263fea9c0dSAchim Leubner ccfg->CTCommand.command = CT_GET_CONFIG_STATUS; 20273fea9c0dSAchim Leubner ccfg->CTCommand.param[CNT_SIZE] = sizeof(struct aac_cf_status_hdr); 20283fea9c0dSAchim Leubner 20293fea9c0dSAchim Leubner rval = aac_sync_fib(sc, ContainerCommand, 0, fib, 20303fea9c0dSAchim Leubner sizeof (struct aac_cnt_config)); 20313fea9c0dSAchim Leubner cf_shdr = (struct aac_cf_status_hdr *)ccfg->CTCommand.data; 20323fea9c0dSAchim Leubner if (rval == 0 && ccfg->Command == ST_OK && 20333fea9c0dSAchim Leubner ccfg->CTCommand.param[0] == CT_OK) { 20343fea9c0dSAchim Leubner if (cf_shdr->action <= CFACT_PAUSE) { 20353fea9c0dSAchim Leubner bzero(ccfg, sizeof (*ccfg) - CT_PACKET_SIZE); 20363fea9c0dSAchim Leubner ccfg->Command = VM_ContainerConfig; 20373fea9c0dSAchim Leubner ccfg->CTCommand.command = CT_COMMIT_CONFIG; 20383fea9c0dSAchim Leubner 20393fea9c0dSAchim Leubner rval = aac_sync_fib(sc, ContainerCommand, 0, fib, 20403fea9c0dSAchim Leubner sizeof (struct aac_cnt_config)); 20413fea9c0dSAchim Leubner if (rval == 0 && ccfg->Command == ST_OK && 20423fea9c0dSAchim Leubner ccfg->CTCommand.param[0] == CT_OK) { 20433fea9c0dSAchim Leubner /* successful completion */ 20443fea9c0dSAchim Leubner rval = 0; 20453fea9c0dSAchim Leubner } else { 20463fea9c0dSAchim Leubner /* auto commit aborted due to error(s) */ 20473fea9c0dSAchim Leubner rval = -2; 20483fea9c0dSAchim Leubner } 20493fea9c0dSAchim Leubner } else { 20503fea9c0dSAchim Leubner /* auto commit aborted due to adapter indicating 20513fea9c0dSAchim Leubner config. issues too dangerous to auto commit */ 20523fea9c0dSAchim Leubner rval = -3; 20533fea9c0dSAchim Leubner } 20543fea9c0dSAchim Leubner } else { 20553fea9c0dSAchim Leubner /* error */ 20563fea9c0dSAchim Leubner rval = -1; 20573fea9c0dSAchim Leubner } 20583fea9c0dSAchim Leubner 20593fea9c0dSAchim Leubner aac_release_sync_fib(sc); 20603fea9c0dSAchim Leubner mtx_unlock(&sc->aac_io_lock); 20613fea9c0dSAchim Leubner return(rval); 20623fea9c0dSAchim Leubner } 20633fea9c0dSAchim Leubner 2064dce93cd0SAchim Leubner /* 2065dce93cd0SAchim Leubner * Send a synchronous command to the controller and wait for a result. 2066dce93cd0SAchim Leubner * Indicate if the controller completed the command with an error status. 2067dce93cd0SAchim Leubner */ 2068dce93cd0SAchim Leubner int 2069dce93cd0SAchim Leubner aacraid_sync_command(struct aac_softc *sc, u_int32_t command, 2070dce93cd0SAchim Leubner u_int32_t arg0, u_int32_t arg1, u_int32_t arg2, u_int32_t arg3, 2071dce93cd0SAchim Leubner u_int32_t *sp, u_int32_t *r1) 2072dce93cd0SAchim Leubner { 2073dce93cd0SAchim Leubner time_t then; 2074dce93cd0SAchim Leubner u_int32_t status; 2075dce93cd0SAchim Leubner 2076dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 2077dce93cd0SAchim Leubner 2078dce93cd0SAchim Leubner /* populate the mailbox */ 2079dce93cd0SAchim Leubner AAC_SET_MAILBOX(sc, command, arg0, arg1, arg2, arg3); 2080dce93cd0SAchim Leubner 2081dce93cd0SAchim Leubner /* ensure the sync command doorbell flag is cleared */ 20823fea9c0dSAchim Leubner if (!sc->msi_enabled) 2083dce93cd0SAchim Leubner AAC_CLEAR_ISTATUS(sc, AAC_DB_SYNC_COMMAND); 2084dce93cd0SAchim Leubner 2085dce93cd0SAchim Leubner /* then set it to signal the adapter */ 2086dce93cd0SAchim Leubner AAC_QNOTIFY(sc, AAC_DB_SYNC_COMMAND); 2087dce93cd0SAchim Leubner 2088dce93cd0SAchim Leubner if ((command != AAC_MONKER_SYNCFIB) || (sp == NULL) || (*sp != 0)) { 2089dce93cd0SAchim Leubner /* spin waiting for the command to complete */ 2090dce93cd0SAchim Leubner then = time_uptime; 2091dce93cd0SAchim Leubner do { 20923fea9c0dSAchim Leubner if (time_uptime > (then + AAC_SYNC_TIMEOUT)) { 2093dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_ERROR_B, "timed out"); 2094dce93cd0SAchim Leubner return(EIO); 2095dce93cd0SAchim Leubner } 2096dce93cd0SAchim Leubner } while (!(AAC_GET_ISTATUS(sc) & AAC_DB_SYNC_COMMAND)); 2097dce93cd0SAchim Leubner 2098dce93cd0SAchim Leubner /* clear the completion flag */ 2099dce93cd0SAchim Leubner AAC_CLEAR_ISTATUS(sc, AAC_DB_SYNC_COMMAND); 2100dce93cd0SAchim Leubner 2101dce93cd0SAchim Leubner /* get the command status */ 2102dce93cd0SAchim Leubner status = AAC_GET_MAILBOX(sc, 0); 2103dce93cd0SAchim Leubner if (sp != NULL) 2104dce93cd0SAchim Leubner *sp = status; 2105dce93cd0SAchim Leubner 2106dce93cd0SAchim Leubner /* return parameter */ 2107dce93cd0SAchim Leubner if (r1 != NULL) 2108dce93cd0SAchim Leubner *r1 = AAC_GET_MAILBOX(sc, 1); 2109dce93cd0SAchim Leubner 2110dce93cd0SAchim Leubner if (status != AAC_SRB_STS_SUCCESS) 2111dce93cd0SAchim Leubner return (-1); 2112dce93cd0SAchim Leubner } 2113dce93cd0SAchim Leubner return(0); 2114dce93cd0SAchim Leubner } 2115dce93cd0SAchim Leubner 2116dce93cd0SAchim Leubner static int 2117dce93cd0SAchim Leubner aac_sync_fib(struct aac_softc *sc, u_int32_t command, u_int32_t xferstate, 2118dce93cd0SAchim Leubner struct aac_fib *fib, u_int16_t datasize) 2119dce93cd0SAchim Leubner { 2120dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 2121dce93cd0SAchim Leubner mtx_assert(&sc->aac_io_lock, MA_OWNED); 2122dce93cd0SAchim Leubner 2123dce93cd0SAchim Leubner if (datasize > AAC_FIB_DATASIZE) 2124dce93cd0SAchim Leubner return(EINVAL); 2125dce93cd0SAchim Leubner 2126dce93cd0SAchim Leubner /* 2127dce93cd0SAchim Leubner * Set up the sync FIB 2128dce93cd0SAchim Leubner */ 2129dce93cd0SAchim Leubner fib->Header.XferState = AAC_FIBSTATE_HOSTOWNED | 2130dce93cd0SAchim Leubner AAC_FIBSTATE_INITIALISED | 2131dce93cd0SAchim Leubner AAC_FIBSTATE_EMPTY; 2132dce93cd0SAchim Leubner fib->Header.XferState |= xferstate; 2133dce93cd0SAchim Leubner fib->Header.Command = command; 2134dce93cd0SAchim Leubner fib->Header.StructType = AAC_FIBTYPE_TFIB; 2135dce93cd0SAchim Leubner fib->Header.Size = sizeof(struct aac_fib_header) + datasize; 2136dce93cd0SAchim Leubner fib->Header.SenderSize = sizeof(struct aac_fib); 2137dce93cd0SAchim Leubner fib->Header.SenderFibAddress = 0; /* Not needed */ 2138dce93cd0SAchim Leubner fib->Header.u.ReceiverFibAddress = sc->aac_common_busaddr + 21393fea9c0dSAchim Leubner offsetof(struct aac_common, ac_sync_fib); 2140dce93cd0SAchim Leubner 2141dce93cd0SAchim Leubner /* 2142dce93cd0SAchim Leubner * Give the FIB to the controller, wait for a response. 2143dce93cd0SAchim Leubner */ 2144dce93cd0SAchim Leubner if (aacraid_sync_command(sc, AAC_MONKER_SYNCFIB, 2145dce93cd0SAchim Leubner fib->Header.u.ReceiverFibAddress, 0, 0, 0, NULL, NULL)) { 2146dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_ERROR_B, "IO error"); 2147dce93cd0SAchim Leubner return(EIO); 2148dce93cd0SAchim Leubner } 2149dce93cd0SAchim Leubner 2150dce93cd0SAchim Leubner return (0); 2151dce93cd0SAchim Leubner } 2152dce93cd0SAchim Leubner 2153dce93cd0SAchim Leubner /* 2154dce93cd0SAchim Leubner * Check for commands that have been outstanding for a suspiciously long time, 2155dce93cd0SAchim Leubner * and complain about them. 2156dce93cd0SAchim Leubner */ 2157dce93cd0SAchim Leubner static void 2158dce93cd0SAchim Leubner aac_timeout(struct aac_softc *sc) 2159dce93cd0SAchim Leubner { 2160dce93cd0SAchim Leubner struct aac_command *cm; 2161dce93cd0SAchim Leubner time_t deadline; 21623fea9c0dSAchim Leubner int timedout; 2163dce93cd0SAchim Leubner 2164dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 2165dce93cd0SAchim Leubner /* 2166dce93cd0SAchim Leubner * Traverse the busy command list, bitch about late commands once 2167dce93cd0SAchim Leubner * only. 2168dce93cd0SAchim Leubner */ 2169dce93cd0SAchim Leubner timedout = 0; 2170dce93cd0SAchim Leubner deadline = time_uptime - AAC_CMD_TIMEOUT; 2171dce93cd0SAchim Leubner TAILQ_FOREACH(cm, &sc->aac_busy, cm_link) { 21723fea9c0dSAchim Leubner if (cm->cm_timestamp < deadline) { 2173dce93cd0SAchim Leubner device_printf(sc->aac_dev, 2174dce93cd0SAchim Leubner "COMMAND %p TIMEOUT AFTER %d SECONDS\n", 2175dce93cd0SAchim Leubner cm, (int)(time_uptime-cm->cm_timestamp)); 2176dce93cd0SAchim Leubner AAC_PRINT_FIB(sc, cm->cm_fib); 2177dce93cd0SAchim Leubner timedout++; 2178dce93cd0SAchim Leubner } 2179dce93cd0SAchim Leubner } 2180dce93cd0SAchim Leubner 21813fea9c0dSAchim Leubner if (timedout) 2182dce93cd0SAchim Leubner aac_reset_adapter(sc); 2183dce93cd0SAchim Leubner aacraid_print_queues(sc); 2184dce93cd0SAchim Leubner } 2185dce93cd0SAchim Leubner 2186dce93cd0SAchim Leubner /* 2187dce93cd0SAchim Leubner * Interface Function Vectors 2188dce93cd0SAchim Leubner */ 2189dce93cd0SAchim Leubner 2190dce93cd0SAchim Leubner /* 2191dce93cd0SAchim Leubner * Read the current firmware status word. 2192dce93cd0SAchim Leubner */ 2193dce93cd0SAchim Leubner static int 2194dce93cd0SAchim Leubner aac_src_get_fwstatus(struct aac_softc *sc) 2195dce93cd0SAchim Leubner { 2196dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 2197dce93cd0SAchim Leubner 2198dce93cd0SAchim Leubner return(AAC_MEM0_GETREG4(sc, AAC_SRC_OMR)); 2199dce93cd0SAchim Leubner } 2200dce93cd0SAchim Leubner 2201dce93cd0SAchim Leubner /* 2202dce93cd0SAchim Leubner * Notify the controller of a change in a given queue 2203dce93cd0SAchim Leubner */ 2204dce93cd0SAchim Leubner static void 2205dce93cd0SAchim Leubner aac_src_qnotify(struct aac_softc *sc, int qbit) 2206dce93cd0SAchim Leubner { 2207dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 2208dce93cd0SAchim Leubner 2209dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_IDBR, qbit << AAC_SRC_IDR_SHIFT); 2210dce93cd0SAchim Leubner } 2211dce93cd0SAchim Leubner 2212dce93cd0SAchim Leubner /* 2213dce93cd0SAchim Leubner * Get the interrupt reason bits 2214dce93cd0SAchim Leubner */ 2215dce93cd0SAchim Leubner static int 2216dce93cd0SAchim Leubner aac_src_get_istatus(struct aac_softc *sc) 2217dce93cd0SAchim Leubner { 22183fea9c0dSAchim Leubner int val; 22193fea9c0dSAchim Leubner 2220dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 2221dce93cd0SAchim Leubner 22223fea9c0dSAchim Leubner if (sc->msi_enabled) { 22233fea9c0dSAchim Leubner val = AAC_MEM0_GETREG4(sc, AAC_SRC_ODBR_MSI); 22243fea9c0dSAchim Leubner if (val & AAC_MSI_SYNC_STATUS) 22253fea9c0dSAchim Leubner val = AAC_DB_SYNC_COMMAND; 22263fea9c0dSAchim Leubner else 22273fea9c0dSAchim Leubner val = 0; 22283fea9c0dSAchim Leubner } else { 22293fea9c0dSAchim Leubner val = AAC_MEM0_GETREG4(sc, AAC_SRC_ODBR_R) >> AAC_SRC_ODR_SHIFT; 22303fea9c0dSAchim Leubner } 22313fea9c0dSAchim Leubner return(val); 2232dce93cd0SAchim Leubner } 2233dce93cd0SAchim Leubner 2234dce93cd0SAchim Leubner /* 2235dce93cd0SAchim Leubner * Clear some interrupt reason bits 2236dce93cd0SAchim Leubner */ 2237dce93cd0SAchim Leubner static void 2238dce93cd0SAchim Leubner aac_src_clear_istatus(struct aac_softc *sc, int mask) 2239dce93cd0SAchim Leubner { 2240dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 2241dce93cd0SAchim Leubner 22423fea9c0dSAchim Leubner if (sc->msi_enabled) { 22433fea9c0dSAchim Leubner if (mask == AAC_DB_SYNC_COMMAND) 22443fea9c0dSAchim Leubner AAC_ACCESS_DEVREG(sc, AAC_CLEAR_SYNC_BIT); 22453fea9c0dSAchim Leubner } else { 2246dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_ODBR_C, mask << AAC_SRC_ODR_SHIFT); 2247dce93cd0SAchim Leubner } 22483fea9c0dSAchim Leubner } 2249dce93cd0SAchim Leubner 2250dce93cd0SAchim Leubner /* 2251dce93cd0SAchim Leubner * Populate the mailbox and set the command word 2252dce93cd0SAchim Leubner */ 2253dce93cd0SAchim Leubner static void 2254dce93cd0SAchim Leubner aac_src_set_mailbox(struct aac_softc *sc, u_int32_t command, u_int32_t arg0, 2255dce93cd0SAchim Leubner u_int32_t arg1, u_int32_t arg2, u_int32_t arg3) 2256dce93cd0SAchim Leubner { 2257dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 2258dce93cd0SAchim Leubner 2259dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_MAILBOX, command); 2260dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_MAILBOX + 4, arg0); 2261dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_MAILBOX + 8, arg1); 2262dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_MAILBOX + 12, arg2); 2263dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_MAILBOX + 16, arg3); 2264dce93cd0SAchim Leubner } 2265dce93cd0SAchim Leubner 2266dce93cd0SAchim Leubner static void 2267dce93cd0SAchim Leubner aac_srcv_set_mailbox(struct aac_softc *sc, u_int32_t command, u_int32_t arg0, 2268dce93cd0SAchim Leubner u_int32_t arg1, u_int32_t arg2, u_int32_t arg3) 2269dce93cd0SAchim Leubner { 2270dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 2271dce93cd0SAchim Leubner 2272dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRCV_MAILBOX, command); 2273dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRCV_MAILBOX + 4, arg0); 2274dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRCV_MAILBOX + 8, arg1); 2275dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRCV_MAILBOX + 12, arg2); 2276dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRCV_MAILBOX + 16, arg3); 2277dce93cd0SAchim Leubner } 2278dce93cd0SAchim Leubner 2279dce93cd0SAchim Leubner /* 2280dce93cd0SAchim Leubner * Fetch the immediate command status word 2281dce93cd0SAchim Leubner */ 2282dce93cd0SAchim Leubner static int 2283dce93cd0SAchim Leubner aac_src_get_mailbox(struct aac_softc *sc, int mb) 2284dce93cd0SAchim Leubner { 2285dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 2286dce93cd0SAchim Leubner 2287dce93cd0SAchim Leubner return(AAC_MEM0_GETREG4(sc, AAC_SRC_MAILBOX + (mb * 4))); 2288dce93cd0SAchim Leubner } 2289dce93cd0SAchim Leubner 2290dce93cd0SAchim Leubner static int 2291dce93cd0SAchim Leubner aac_srcv_get_mailbox(struct aac_softc *sc, int mb) 2292dce93cd0SAchim Leubner { 2293dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 2294dce93cd0SAchim Leubner 2295dce93cd0SAchim Leubner return(AAC_MEM0_GETREG4(sc, AAC_SRCV_MAILBOX + (mb * 4))); 2296dce93cd0SAchim Leubner } 2297dce93cd0SAchim Leubner 2298dce93cd0SAchim Leubner /* 2299dce93cd0SAchim Leubner * Set/clear interrupt masks 2300dce93cd0SAchim Leubner */ 2301dce93cd0SAchim Leubner static void 23023fea9c0dSAchim Leubner aac_src_access_devreg(struct aac_softc *sc, int mode) 2303dce93cd0SAchim Leubner { 23043fea9c0dSAchim Leubner u_int32_t val; 2305dce93cd0SAchim Leubner 23063fea9c0dSAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 23073fea9c0dSAchim Leubner 23083fea9c0dSAchim Leubner switch (mode) { 23093fea9c0dSAchim Leubner case AAC_ENABLE_INTERRUPT: 23103fea9c0dSAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_OIMR, 23113fea9c0dSAchim Leubner (sc->msi_enabled ? AAC_INT_ENABLE_TYPE1_MSIX : 23123fea9c0dSAchim Leubner AAC_INT_ENABLE_TYPE1_INTX)); 23133fea9c0dSAchim Leubner break; 23143fea9c0dSAchim Leubner 23153fea9c0dSAchim Leubner case AAC_DISABLE_INTERRUPT: 23163fea9c0dSAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_OIMR, AAC_INT_DISABLE_ALL); 23173fea9c0dSAchim Leubner break; 23183fea9c0dSAchim Leubner 23193fea9c0dSAchim Leubner case AAC_ENABLE_MSIX: 23203fea9c0dSAchim Leubner /* set bit 6 */ 23213fea9c0dSAchim Leubner val = AAC_MEM0_GETREG4(sc, AAC_SRC_IDBR); 23223fea9c0dSAchim Leubner val |= 0x40; 23233fea9c0dSAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_IDBR, val); 23243fea9c0dSAchim Leubner AAC_MEM0_GETREG4(sc, AAC_SRC_IDBR); 23253fea9c0dSAchim Leubner /* unmask int. */ 23263fea9c0dSAchim Leubner val = PMC_ALL_INTERRUPT_BITS; 23273fea9c0dSAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_IOAR, val); 23283fea9c0dSAchim Leubner val = AAC_MEM0_GETREG4(sc, AAC_SRC_OIMR); 23293fea9c0dSAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_OIMR, 23303fea9c0dSAchim Leubner val & (~(PMC_GLOBAL_INT_BIT2 | PMC_GLOBAL_INT_BIT0))); 23313fea9c0dSAchim Leubner break; 23323fea9c0dSAchim Leubner 23333fea9c0dSAchim Leubner case AAC_DISABLE_MSIX: 23343fea9c0dSAchim Leubner /* reset bit 6 */ 23353fea9c0dSAchim Leubner val = AAC_MEM0_GETREG4(sc, AAC_SRC_IDBR); 23363fea9c0dSAchim Leubner val &= ~0x40; 23373fea9c0dSAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_IDBR, val); 23383fea9c0dSAchim Leubner AAC_MEM0_GETREG4(sc, AAC_SRC_IDBR); 23393fea9c0dSAchim Leubner break; 23403fea9c0dSAchim Leubner 23413fea9c0dSAchim Leubner case AAC_CLEAR_AIF_BIT: 23423fea9c0dSAchim Leubner /* set bit 5 */ 23433fea9c0dSAchim Leubner val = AAC_MEM0_GETREG4(sc, AAC_SRC_IDBR); 23443fea9c0dSAchim Leubner val |= 0x20; 23453fea9c0dSAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_IDBR, val); 23463fea9c0dSAchim Leubner AAC_MEM0_GETREG4(sc, AAC_SRC_IDBR); 23473fea9c0dSAchim Leubner break; 23483fea9c0dSAchim Leubner 23493fea9c0dSAchim Leubner case AAC_CLEAR_SYNC_BIT: 23503fea9c0dSAchim Leubner /* set bit 4 */ 23513fea9c0dSAchim Leubner val = AAC_MEM0_GETREG4(sc, AAC_SRC_IDBR); 23523fea9c0dSAchim Leubner val |= 0x10; 23533fea9c0dSAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_IDBR, val); 23543fea9c0dSAchim Leubner AAC_MEM0_GETREG4(sc, AAC_SRC_IDBR); 23553fea9c0dSAchim Leubner break; 23563fea9c0dSAchim Leubner 23573fea9c0dSAchim Leubner case AAC_ENABLE_INTX: 23583fea9c0dSAchim Leubner /* set bit 7 */ 23593fea9c0dSAchim Leubner val = AAC_MEM0_GETREG4(sc, AAC_SRC_IDBR); 23603fea9c0dSAchim Leubner val |= 0x80; 23613fea9c0dSAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_IDBR, val); 23623fea9c0dSAchim Leubner AAC_MEM0_GETREG4(sc, AAC_SRC_IDBR); 23633fea9c0dSAchim Leubner /* unmask int. */ 23643fea9c0dSAchim Leubner val = PMC_ALL_INTERRUPT_BITS; 23653fea9c0dSAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_IOAR, val); 23663fea9c0dSAchim Leubner val = AAC_MEM0_GETREG4(sc, AAC_SRC_OIMR); 23673fea9c0dSAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_OIMR, 23683fea9c0dSAchim Leubner val & (~(PMC_GLOBAL_INT_BIT2))); 23693fea9c0dSAchim Leubner break; 23703fea9c0dSAchim Leubner 23713fea9c0dSAchim Leubner default: 23723fea9c0dSAchim Leubner break; 2373dce93cd0SAchim Leubner } 2374dce93cd0SAchim Leubner } 2375dce93cd0SAchim Leubner 2376dce93cd0SAchim Leubner /* 2377dce93cd0SAchim Leubner * New comm. interface: Send command functions 2378dce93cd0SAchim Leubner */ 2379dce93cd0SAchim Leubner static int 2380dce93cd0SAchim Leubner aac_src_send_command(struct aac_softc *sc, struct aac_command *cm) 2381dce93cd0SAchim Leubner { 2382dce93cd0SAchim Leubner struct aac_fib_xporthdr *pFibX; 2383dce93cd0SAchim Leubner u_int32_t fibsize, high_addr; 2384dce93cd0SAchim Leubner u_int64_t address; 2385dce93cd0SAchim Leubner 2386dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, "send command (new comm. type1)"); 2387dce93cd0SAchim Leubner 23883fea9c0dSAchim Leubner if (sc->msi_enabled && cm->cm_fib->Header.Command != AifRequest && 23893fea9c0dSAchim Leubner sc->aac_max_msix > 1) { 23903fea9c0dSAchim Leubner u_int16_t vector_no, first_choice = 0xffff; 23913fea9c0dSAchim Leubner 23923fea9c0dSAchim Leubner vector_no = sc->aac_fibs_pushed_no % sc->aac_max_msix; 23933fea9c0dSAchim Leubner do { 23943fea9c0dSAchim Leubner vector_no += 1; 23953fea9c0dSAchim Leubner if (vector_no == sc->aac_max_msix) 23963fea9c0dSAchim Leubner vector_no = 1; 23973fea9c0dSAchim Leubner if (sc->aac_rrq_outstanding[vector_no] < 23983fea9c0dSAchim Leubner sc->aac_vector_cap) 23993fea9c0dSAchim Leubner break; 24003fea9c0dSAchim Leubner if (0xffff == first_choice) 24013fea9c0dSAchim Leubner first_choice = vector_no; 24023fea9c0dSAchim Leubner else if (vector_no == first_choice) 24033fea9c0dSAchim Leubner break; 24043fea9c0dSAchim Leubner } while (1); 24053fea9c0dSAchim Leubner if (vector_no == first_choice) 24063fea9c0dSAchim Leubner vector_no = 0; 24073fea9c0dSAchim Leubner sc->aac_rrq_outstanding[vector_no]++; 24083fea9c0dSAchim Leubner if (sc->aac_fibs_pushed_no == 0xffffffff) 24093fea9c0dSAchim Leubner sc->aac_fibs_pushed_no = 0; 24103fea9c0dSAchim Leubner else 24113fea9c0dSAchim Leubner sc->aac_fibs_pushed_no++; 24123fea9c0dSAchim Leubner 24133fea9c0dSAchim Leubner cm->cm_fib->Header.Handle += (vector_no << 16); 24143fea9c0dSAchim Leubner } 24153fea9c0dSAchim Leubner 2416dce93cd0SAchim Leubner if (sc->flags & AAC_FLAGS_NEW_COMM_TYPE2) { 2417dce93cd0SAchim Leubner /* Calculate the amount to the fibsize bits */ 2418dce93cd0SAchim Leubner fibsize = (cm->cm_fib->Header.Size + 127) / 128 - 1; 2419dce93cd0SAchim Leubner /* Fill new FIB header */ 2420dce93cd0SAchim Leubner address = cm->cm_fibphys; 2421dce93cd0SAchim Leubner high_addr = (u_int32_t)(address >> 32); 2422dce93cd0SAchim Leubner if (high_addr == 0L) { 2423dce93cd0SAchim Leubner cm->cm_fib->Header.StructType = AAC_FIBTYPE_TFIB2; 2424dce93cd0SAchim Leubner cm->cm_fib->Header.u.TimeStamp = 0L; 2425dce93cd0SAchim Leubner } else { 2426dce93cd0SAchim Leubner cm->cm_fib->Header.StructType = AAC_FIBTYPE_TFIB2_64; 2427dce93cd0SAchim Leubner cm->cm_fib->Header.u.SenderFibAddressHigh = high_addr; 2428dce93cd0SAchim Leubner } 2429dce93cd0SAchim Leubner cm->cm_fib->Header.SenderFibAddress = (u_int32_t)address; 2430dce93cd0SAchim Leubner } else { 2431dce93cd0SAchim Leubner /* Calculate the amount to the fibsize bits */ 2432dce93cd0SAchim Leubner fibsize = (sizeof(struct aac_fib_xporthdr) + 2433dce93cd0SAchim Leubner cm->cm_fib->Header.Size + 127) / 128 - 1; 2434dce93cd0SAchim Leubner /* Fill XPORT header */ 2435dce93cd0SAchim Leubner pFibX = (struct aac_fib_xporthdr *) 2436dce93cd0SAchim Leubner ((unsigned char *)cm->cm_fib - sizeof(struct aac_fib_xporthdr)); 2437dce93cd0SAchim Leubner pFibX->Handle = cm->cm_fib->Header.Handle; 2438dce93cd0SAchim Leubner pFibX->HostAddress = cm->cm_fibphys; 2439dce93cd0SAchim Leubner pFibX->Size = cm->cm_fib->Header.Size; 2440dce93cd0SAchim Leubner address = cm->cm_fibphys - sizeof(struct aac_fib_xporthdr); 2441dce93cd0SAchim Leubner high_addr = (u_int32_t)(address >> 32); 2442dce93cd0SAchim Leubner } 2443dce93cd0SAchim Leubner 2444dce93cd0SAchim Leubner if (fibsize > 31) 2445dce93cd0SAchim Leubner fibsize = 31; 2446dce93cd0SAchim Leubner aac_enqueue_busy(cm); 2447dce93cd0SAchim Leubner if (high_addr) { 2448dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_IQUE64_H, high_addr); 2449dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_IQUE64_L, (u_int32_t)address + fibsize); 2450dce93cd0SAchim Leubner } else { 2451dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_IQUE32, (u_int32_t)address + fibsize); 2452dce93cd0SAchim Leubner } 2453dce93cd0SAchim Leubner return 0; 2454dce93cd0SAchim Leubner } 2455dce93cd0SAchim Leubner 2456dce93cd0SAchim Leubner /* 2457dce93cd0SAchim Leubner * New comm. interface: get, set outbound queue index 2458dce93cd0SAchim Leubner */ 2459dce93cd0SAchim Leubner static int 2460dce93cd0SAchim Leubner aac_src_get_outb_queue(struct aac_softc *sc) 2461dce93cd0SAchim Leubner { 2462dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 2463dce93cd0SAchim Leubner 2464dce93cd0SAchim Leubner return(-1); 2465dce93cd0SAchim Leubner } 2466dce93cd0SAchim Leubner 2467dce93cd0SAchim Leubner static void 2468dce93cd0SAchim Leubner aac_src_set_outb_queue(struct aac_softc *sc, int index) 2469dce93cd0SAchim Leubner { 2470dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 2471dce93cd0SAchim Leubner } 2472dce93cd0SAchim Leubner 2473dce93cd0SAchim Leubner /* 2474dce93cd0SAchim Leubner * Debugging and Diagnostics 2475dce93cd0SAchim Leubner */ 2476dce93cd0SAchim Leubner 2477dce93cd0SAchim Leubner /* 2478dce93cd0SAchim Leubner * Print some information about the controller. 2479dce93cd0SAchim Leubner */ 2480dce93cd0SAchim Leubner static void 2481dce93cd0SAchim Leubner aac_describe_controller(struct aac_softc *sc) 2482dce93cd0SAchim Leubner { 2483dce93cd0SAchim Leubner struct aac_fib *fib; 2484dce93cd0SAchim Leubner struct aac_adapter_info *info; 2485dce93cd0SAchim Leubner char *adapter_type = "Adaptec RAID controller"; 2486dce93cd0SAchim Leubner 2487dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 2488dce93cd0SAchim Leubner 2489dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 2490dce93cd0SAchim Leubner aac_alloc_sync_fib(sc, &fib); 2491dce93cd0SAchim Leubner 2492dce93cd0SAchim Leubner if (sc->supported_options & AAC_SUPPORTED_SUPPLEMENT_ADAPTER_INFO) { 2493dce93cd0SAchim Leubner fib->data[0] = 0; 2494dce93cd0SAchim Leubner if (aac_sync_fib(sc, RequestSupplementAdapterInfo, 0, fib, 1)) 2495dce93cd0SAchim Leubner device_printf(sc->aac_dev, "RequestSupplementAdapterInfo failed\n"); 2496dce93cd0SAchim Leubner else { 2497dce93cd0SAchim Leubner struct aac_supplement_adapter_info *supp_info; 2498dce93cd0SAchim Leubner 2499dce93cd0SAchim Leubner supp_info = ((struct aac_supplement_adapter_info *)&fib->data[0]); 2500dce93cd0SAchim Leubner adapter_type = (char *)supp_info->AdapterTypeText; 2501dce93cd0SAchim Leubner sc->aac_feature_bits = supp_info->FeatureBits; 2502dce93cd0SAchim Leubner sc->aac_support_opt2 = supp_info->SupportedOptions2; 2503dce93cd0SAchim Leubner } 2504dce93cd0SAchim Leubner } 2505dce93cd0SAchim Leubner device_printf(sc->aac_dev, "%s, aacraid driver %d.%d.%d-%d\n", 2506dce93cd0SAchim Leubner adapter_type, 2507dce93cd0SAchim Leubner AAC_DRIVER_MAJOR_VERSION, AAC_DRIVER_MINOR_VERSION, 2508dce93cd0SAchim Leubner AAC_DRIVER_BUGFIX_LEVEL, AAC_DRIVER_BUILD); 2509dce93cd0SAchim Leubner 2510dce93cd0SAchim Leubner fib->data[0] = 0; 2511dce93cd0SAchim Leubner if (aac_sync_fib(sc, RequestAdapterInfo, 0, fib, 1)) { 2512dce93cd0SAchim Leubner device_printf(sc->aac_dev, "RequestAdapterInfo failed\n"); 2513dce93cd0SAchim Leubner aac_release_sync_fib(sc); 2514dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 2515dce93cd0SAchim Leubner return; 2516dce93cd0SAchim Leubner } 2517dce93cd0SAchim Leubner 2518dce93cd0SAchim Leubner /* save the kernel revision structure for later use */ 2519dce93cd0SAchim Leubner info = (struct aac_adapter_info *)&fib->data[0]; 2520dce93cd0SAchim Leubner sc->aac_revision = info->KernelRevision; 2521dce93cd0SAchim Leubner 2522dce93cd0SAchim Leubner if (bootverbose) { 2523dce93cd0SAchim Leubner device_printf(sc->aac_dev, "%s %dMHz, %dMB memory " 2524dce93cd0SAchim Leubner "(%dMB cache, %dMB execution), %s\n", 2525dce93cd0SAchim Leubner aac_describe_code(aac_cpu_variant, info->CpuVariant), 2526dce93cd0SAchim Leubner info->ClockSpeed, info->TotalMem / (1024 * 1024), 2527dce93cd0SAchim Leubner info->BufferMem / (1024 * 1024), 2528dce93cd0SAchim Leubner info->ExecutionMem / (1024 * 1024), 2529dce93cd0SAchim Leubner aac_describe_code(aac_battery_platform, 2530dce93cd0SAchim Leubner info->batteryPlatform)); 2531dce93cd0SAchim Leubner 2532dce93cd0SAchim Leubner device_printf(sc->aac_dev, 2533dce93cd0SAchim Leubner "Kernel %d.%d-%d, Build %d, S/N %6X\n", 2534dce93cd0SAchim Leubner info->KernelRevision.external.comp.major, 2535dce93cd0SAchim Leubner info->KernelRevision.external.comp.minor, 2536dce93cd0SAchim Leubner info->KernelRevision.external.comp.dash, 2537dce93cd0SAchim Leubner info->KernelRevision.buildNumber, 2538dce93cd0SAchim Leubner (u_int32_t)(info->SerialNumber & 0xffffff)); 2539dce93cd0SAchim Leubner 2540dce93cd0SAchim Leubner device_printf(sc->aac_dev, "Supported Options=%b\n", 2541dce93cd0SAchim Leubner sc->supported_options, 2542dce93cd0SAchim Leubner "\20" 2543dce93cd0SAchim Leubner "\1SNAPSHOT" 2544dce93cd0SAchim Leubner "\2CLUSTERS" 2545dce93cd0SAchim Leubner "\3WCACHE" 2546dce93cd0SAchim Leubner "\4DATA64" 2547dce93cd0SAchim Leubner "\5HOSTTIME" 2548dce93cd0SAchim Leubner "\6RAID50" 2549dce93cd0SAchim Leubner "\7WINDOW4GB" 2550dce93cd0SAchim Leubner "\10SCSIUPGD" 2551dce93cd0SAchim Leubner "\11SOFTERR" 2552dce93cd0SAchim Leubner "\12NORECOND" 2553dce93cd0SAchim Leubner "\13SGMAP64" 2554dce93cd0SAchim Leubner "\14ALARM" 2555dce93cd0SAchim Leubner "\15NONDASD" 2556dce93cd0SAchim Leubner "\16SCSIMGT" 2557dce93cd0SAchim Leubner "\17RAIDSCSI" 2558dce93cd0SAchim Leubner "\21ADPTINFO" 2559dce93cd0SAchim Leubner "\22NEWCOMM" 2560dce93cd0SAchim Leubner "\23ARRAY64BIT" 2561dce93cd0SAchim Leubner "\24HEATSENSOR"); 2562dce93cd0SAchim Leubner } 2563dce93cd0SAchim Leubner 2564dce93cd0SAchim Leubner aac_release_sync_fib(sc); 2565dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 2566dce93cd0SAchim Leubner } 2567dce93cd0SAchim Leubner 2568dce93cd0SAchim Leubner /* 2569dce93cd0SAchim Leubner * Look up a text description of a numeric error code and return a pointer to 2570dce93cd0SAchim Leubner * same. 2571dce93cd0SAchim Leubner */ 2572dce93cd0SAchim Leubner static char * 2573dce93cd0SAchim Leubner aac_describe_code(struct aac_code_lookup *table, u_int32_t code) 2574dce93cd0SAchim Leubner { 2575dce93cd0SAchim Leubner int i; 2576dce93cd0SAchim Leubner 2577dce93cd0SAchim Leubner for (i = 0; table[i].string != NULL; i++) 2578dce93cd0SAchim Leubner if (table[i].code == code) 2579dce93cd0SAchim Leubner return(table[i].string); 2580dce93cd0SAchim Leubner return(table[i + 1].string); 2581dce93cd0SAchim Leubner } 2582dce93cd0SAchim Leubner 2583dce93cd0SAchim Leubner /* 2584dce93cd0SAchim Leubner * Management Interface 2585dce93cd0SAchim Leubner */ 2586dce93cd0SAchim Leubner 2587dce93cd0SAchim Leubner static int 2588dce93cd0SAchim Leubner aac_open(struct cdev *dev, int flags, int fmt, struct thread *td) 2589dce93cd0SAchim Leubner { 2590dce93cd0SAchim Leubner struct aac_softc *sc; 2591dce93cd0SAchim Leubner 2592dce93cd0SAchim Leubner sc = dev->si_drv1; 2593dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 2594dce93cd0SAchim Leubner #if __FreeBSD_version >= 702000 2595dce93cd0SAchim Leubner device_busy(sc->aac_dev); 2596dce93cd0SAchim Leubner devfs_set_cdevpriv(sc, aac_cdevpriv_dtor); 2597dce93cd0SAchim Leubner #endif 2598dce93cd0SAchim Leubner return 0; 2599dce93cd0SAchim Leubner } 2600dce93cd0SAchim Leubner 2601dce93cd0SAchim Leubner static int 2602dce93cd0SAchim Leubner aac_ioctl(struct cdev *dev, u_long cmd, caddr_t arg, int flag, struct thread *td) 2603dce93cd0SAchim Leubner { 2604dce93cd0SAchim Leubner union aac_statrequest *as; 2605dce93cd0SAchim Leubner struct aac_softc *sc; 2606dce93cd0SAchim Leubner int error = 0; 2607dce93cd0SAchim Leubner 2608dce93cd0SAchim Leubner as = (union aac_statrequest *)arg; 2609dce93cd0SAchim Leubner sc = dev->si_drv1; 2610dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 2611dce93cd0SAchim Leubner 2612dce93cd0SAchim Leubner switch (cmd) { 2613dce93cd0SAchim Leubner case AACIO_STATS: 2614dce93cd0SAchim Leubner switch (as->as_item) { 2615dce93cd0SAchim Leubner case AACQ_FREE: 2616dce93cd0SAchim Leubner case AACQ_READY: 2617dce93cd0SAchim Leubner case AACQ_BUSY: 2618dce93cd0SAchim Leubner bcopy(&sc->aac_qstat[as->as_item], &as->as_qstat, 2619dce93cd0SAchim Leubner sizeof(struct aac_qstat)); 2620dce93cd0SAchim Leubner break; 2621dce93cd0SAchim Leubner default: 2622dce93cd0SAchim Leubner error = ENOENT; 2623dce93cd0SAchim Leubner break; 2624dce93cd0SAchim Leubner } 2625dce93cd0SAchim Leubner break; 2626dce93cd0SAchim Leubner 2627dce93cd0SAchim Leubner case FSACTL_SENDFIB: 2628dce93cd0SAchim Leubner case FSACTL_SEND_LARGE_FIB: 2629dce93cd0SAchim Leubner arg = *(caddr_t*)arg; 2630dce93cd0SAchim Leubner case FSACTL_LNX_SENDFIB: 2631dce93cd0SAchim Leubner case FSACTL_LNX_SEND_LARGE_FIB: 2632dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_IOCTL_COMMANDS_B, "FSACTL_SENDFIB"); 2633dce93cd0SAchim Leubner error = aac_ioctl_sendfib(sc, arg); 2634dce93cd0SAchim Leubner break; 2635dce93cd0SAchim Leubner case FSACTL_SEND_RAW_SRB: 2636dce93cd0SAchim Leubner arg = *(caddr_t*)arg; 2637dce93cd0SAchim Leubner case FSACTL_LNX_SEND_RAW_SRB: 2638dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_IOCTL_COMMANDS_B, "FSACTL_SEND_RAW_SRB"); 2639dce93cd0SAchim Leubner error = aac_ioctl_send_raw_srb(sc, arg); 2640dce93cd0SAchim Leubner break; 2641dce93cd0SAchim Leubner case FSACTL_AIF_THREAD: 2642dce93cd0SAchim Leubner case FSACTL_LNX_AIF_THREAD: 2643dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_IOCTL_COMMANDS_B, "FSACTL_AIF_THREAD"); 2644dce93cd0SAchim Leubner error = EINVAL; 2645dce93cd0SAchim Leubner break; 2646dce93cd0SAchim Leubner case FSACTL_OPEN_GET_ADAPTER_FIB: 2647dce93cd0SAchim Leubner arg = *(caddr_t*)arg; 2648dce93cd0SAchim Leubner case FSACTL_LNX_OPEN_GET_ADAPTER_FIB: 2649dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_IOCTL_COMMANDS_B, "FSACTL_OPEN_GET_ADAPTER_FIB"); 2650dce93cd0SAchim Leubner error = aac_open_aif(sc, arg); 2651dce93cd0SAchim Leubner break; 2652dce93cd0SAchim Leubner case FSACTL_GET_NEXT_ADAPTER_FIB: 2653dce93cd0SAchim Leubner arg = *(caddr_t*)arg; 2654dce93cd0SAchim Leubner case FSACTL_LNX_GET_NEXT_ADAPTER_FIB: 2655dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_IOCTL_COMMANDS_B, "FSACTL_GET_NEXT_ADAPTER_FIB"); 2656dce93cd0SAchim Leubner error = aac_getnext_aif(sc, arg); 2657dce93cd0SAchim Leubner break; 2658dce93cd0SAchim Leubner case FSACTL_CLOSE_GET_ADAPTER_FIB: 2659dce93cd0SAchim Leubner arg = *(caddr_t*)arg; 2660dce93cd0SAchim Leubner case FSACTL_LNX_CLOSE_GET_ADAPTER_FIB: 2661dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_IOCTL_COMMANDS_B, "FSACTL_CLOSE_GET_ADAPTER_FIB"); 2662dce93cd0SAchim Leubner error = aac_close_aif(sc, arg); 2663dce93cd0SAchim Leubner break; 2664dce93cd0SAchim Leubner case FSACTL_MINIPORT_REV_CHECK: 2665dce93cd0SAchim Leubner arg = *(caddr_t*)arg; 2666dce93cd0SAchim Leubner case FSACTL_LNX_MINIPORT_REV_CHECK: 2667dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_IOCTL_COMMANDS_B, "FSACTL_MINIPORT_REV_CHECK"); 2668dce93cd0SAchim Leubner error = aac_rev_check(sc, arg); 2669dce93cd0SAchim Leubner break; 2670dce93cd0SAchim Leubner case FSACTL_QUERY_DISK: 2671dce93cd0SAchim Leubner arg = *(caddr_t*)arg; 2672dce93cd0SAchim Leubner case FSACTL_LNX_QUERY_DISK: 2673dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_IOCTL_COMMANDS_B, "FSACTL_QUERY_DISK"); 2674dce93cd0SAchim Leubner error = aac_query_disk(sc, arg); 2675dce93cd0SAchim Leubner break; 2676dce93cd0SAchim Leubner case FSACTL_DELETE_DISK: 2677dce93cd0SAchim Leubner case FSACTL_LNX_DELETE_DISK: 2678dce93cd0SAchim Leubner /* 2679dce93cd0SAchim Leubner * We don't trust the underland to tell us when to delete a 2680dce93cd0SAchim Leubner * container, rather we rely on an AIF coming from the 2681dce93cd0SAchim Leubner * controller 2682dce93cd0SAchim Leubner */ 2683dce93cd0SAchim Leubner error = 0; 2684dce93cd0SAchim Leubner break; 2685dce93cd0SAchim Leubner case FSACTL_GET_PCI_INFO: 2686dce93cd0SAchim Leubner arg = *(caddr_t*)arg; 2687dce93cd0SAchim Leubner case FSACTL_LNX_GET_PCI_INFO: 2688dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_IOCTL_COMMANDS_B, "FSACTL_GET_PCI_INFO"); 2689dce93cd0SAchim Leubner error = aac_get_pci_info(sc, arg); 2690dce93cd0SAchim Leubner break; 2691dce93cd0SAchim Leubner case FSACTL_GET_FEATURES: 2692dce93cd0SAchim Leubner arg = *(caddr_t*)arg; 2693dce93cd0SAchim Leubner case FSACTL_LNX_GET_FEATURES: 2694dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_IOCTL_COMMANDS_B, "FSACTL_GET_FEATURES"); 2695dce93cd0SAchim Leubner error = aac_supported_features(sc, arg); 2696dce93cd0SAchim Leubner break; 2697dce93cd0SAchim Leubner default: 2698dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_IOCTL_COMMANDS_B, "unsupported cmd 0x%lx\n", cmd); 2699dce93cd0SAchim Leubner error = EINVAL; 2700dce93cd0SAchim Leubner break; 2701dce93cd0SAchim Leubner } 2702dce93cd0SAchim Leubner return(error); 2703dce93cd0SAchim Leubner } 2704dce93cd0SAchim Leubner 2705dce93cd0SAchim Leubner static int 2706dce93cd0SAchim Leubner aac_poll(struct cdev *dev, int poll_events, struct thread *td) 2707dce93cd0SAchim Leubner { 2708dce93cd0SAchim Leubner struct aac_softc *sc; 2709dce93cd0SAchim Leubner struct aac_fib_context *ctx; 2710dce93cd0SAchim Leubner int revents; 2711dce93cd0SAchim Leubner 2712dce93cd0SAchim Leubner sc = dev->si_drv1; 2713dce93cd0SAchim Leubner revents = 0; 2714dce93cd0SAchim Leubner 2715dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 2716dce93cd0SAchim Leubner if ((poll_events & (POLLRDNORM | POLLIN)) != 0) { 2717dce93cd0SAchim Leubner for (ctx = sc->fibctx; ctx; ctx = ctx->next) { 2718dce93cd0SAchim Leubner if (ctx->ctx_idx != sc->aifq_idx || ctx->ctx_wrap) { 2719dce93cd0SAchim Leubner revents |= poll_events & (POLLIN | POLLRDNORM); 2720dce93cd0SAchim Leubner break; 2721dce93cd0SAchim Leubner } 2722dce93cd0SAchim Leubner } 2723dce93cd0SAchim Leubner } 2724dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 2725dce93cd0SAchim Leubner 2726dce93cd0SAchim Leubner if (revents == 0) { 2727dce93cd0SAchim Leubner if (poll_events & (POLLIN | POLLRDNORM)) 2728dce93cd0SAchim Leubner selrecord(td, &sc->rcv_select); 2729dce93cd0SAchim Leubner } 2730dce93cd0SAchim Leubner 2731dce93cd0SAchim Leubner return (revents); 2732dce93cd0SAchim Leubner } 2733dce93cd0SAchim Leubner 2734dce93cd0SAchim Leubner static void 2735dce93cd0SAchim Leubner aac_ioctl_event(struct aac_softc *sc, struct aac_event *event, void *arg) 2736dce93cd0SAchim Leubner { 2737dce93cd0SAchim Leubner 2738dce93cd0SAchim Leubner switch (event->ev_type) { 2739dce93cd0SAchim Leubner case AAC_EVENT_CMFREE: 2740dce93cd0SAchim Leubner mtx_assert(&sc->aac_io_lock, MA_OWNED); 2741dce93cd0SAchim Leubner if (aacraid_alloc_command(sc, (struct aac_command **)arg)) { 2742dce93cd0SAchim Leubner aacraid_add_event(sc, event); 2743dce93cd0SAchim Leubner return; 2744dce93cd0SAchim Leubner } 2745dce93cd0SAchim Leubner free(event, M_AACRAIDBUF); 2746dce93cd0SAchim Leubner wakeup(arg); 2747dce93cd0SAchim Leubner break; 2748dce93cd0SAchim Leubner default: 2749dce93cd0SAchim Leubner break; 2750dce93cd0SAchim Leubner } 2751dce93cd0SAchim Leubner } 2752dce93cd0SAchim Leubner 2753dce93cd0SAchim Leubner /* 2754dce93cd0SAchim Leubner * Send a FIB supplied from userspace 2755dce93cd0SAchim Leubner */ 2756dce93cd0SAchim Leubner static int 2757dce93cd0SAchim Leubner aac_ioctl_sendfib(struct aac_softc *sc, caddr_t ufib) 2758dce93cd0SAchim Leubner { 2759dce93cd0SAchim Leubner struct aac_command *cm; 2760dce93cd0SAchim Leubner int size, error; 2761dce93cd0SAchim Leubner 2762dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 2763dce93cd0SAchim Leubner 2764dce93cd0SAchim Leubner cm = NULL; 2765dce93cd0SAchim Leubner 2766dce93cd0SAchim Leubner /* 2767dce93cd0SAchim Leubner * Get a command 2768dce93cd0SAchim Leubner */ 2769dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 2770dce93cd0SAchim Leubner if (aacraid_alloc_command(sc, &cm)) { 2771dce93cd0SAchim Leubner struct aac_event *event; 2772dce93cd0SAchim Leubner 2773dce93cd0SAchim Leubner event = malloc(sizeof(struct aac_event), M_AACRAIDBUF, 2774dce93cd0SAchim Leubner M_NOWAIT | M_ZERO); 2775dce93cd0SAchim Leubner if (event == NULL) { 2776dce93cd0SAchim Leubner error = EBUSY; 2777dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 2778dce93cd0SAchim Leubner goto out; 2779dce93cd0SAchim Leubner } 2780dce93cd0SAchim Leubner event->ev_type = AAC_EVENT_CMFREE; 2781dce93cd0SAchim Leubner event->ev_callback = aac_ioctl_event; 2782dce93cd0SAchim Leubner event->ev_arg = &cm; 2783dce93cd0SAchim Leubner aacraid_add_event(sc, event); 2784dce93cd0SAchim Leubner msleep(cm, &sc->aac_io_lock, 0, "aacraid_ctlsfib", 0); 2785dce93cd0SAchim Leubner } 2786dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 2787dce93cd0SAchim Leubner 2788dce93cd0SAchim Leubner /* 2789dce93cd0SAchim Leubner * Fetch the FIB header, then re-copy to get data as well. 2790dce93cd0SAchim Leubner */ 2791dce93cd0SAchim Leubner if ((error = copyin(ufib, cm->cm_fib, 2792dce93cd0SAchim Leubner sizeof(struct aac_fib_header))) != 0) 2793dce93cd0SAchim Leubner goto out; 2794dce93cd0SAchim Leubner size = cm->cm_fib->Header.Size + sizeof(struct aac_fib_header); 2795dce93cd0SAchim Leubner if (size > sc->aac_max_fib_size) { 2796dce93cd0SAchim Leubner device_printf(sc->aac_dev, "incoming FIB oversized (%d > %d)\n", 2797dce93cd0SAchim Leubner size, sc->aac_max_fib_size); 2798dce93cd0SAchim Leubner size = sc->aac_max_fib_size; 2799dce93cd0SAchim Leubner } 2800dce93cd0SAchim Leubner if ((error = copyin(ufib, cm->cm_fib, size)) != 0) 2801dce93cd0SAchim Leubner goto out; 2802dce93cd0SAchim Leubner cm->cm_fib->Header.Size = size; 2803dce93cd0SAchim Leubner cm->cm_timestamp = time_uptime; 2804dce93cd0SAchim Leubner cm->cm_datalen = 0; 2805dce93cd0SAchim Leubner 2806dce93cd0SAchim Leubner /* 2807dce93cd0SAchim Leubner * Pass the FIB to the controller, wait for it to complete. 2808dce93cd0SAchim Leubner */ 2809dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 2810dce93cd0SAchim Leubner error = aacraid_wait_command(cm); 2811dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 2812dce93cd0SAchim Leubner if (error != 0) { 2813dce93cd0SAchim Leubner device_printf(sc->aac_dev, 2814dce93cd0SAchim Leubner "aacraid_wait_command return %d\n", error); 2815dce93cd0SAchim Leubner goto out; 2816dce93cd0SAchim Leubner } 2817dce93cd0SAchim Leubner 2818dce93cd0SAchim Leubner /* 2819dce93cd0SAchim Leubner * Copy the FIB and data back out to the caller. 2820dce93cd0SAchim Leubner */ 2821dce93cd0SAchim Leubner size = cm->cm_fib->Header.Size; 2822dce93cd0SAchim Leubner if (size > sc->aac_max_fib_size) { 2823dce93cd0SAchim Leubner device_printf(sc->aac_dev, "outbound FIB oversized (%d > %d)\n", 2824dce93cd0SAchim Leubner size, sc->aac_max_fib_size); 2825dce93cd0SAchim Leubner size = sc->aac_max_fib_size; 2826dce93cd0SAchim Leubner } 2827dce93cd0SAchim Leubner error = copyout(cm->cm_fib, ufib, size); 2828dce93cd0SAchim Leubner 2829dce93cd0SAchim Leubner out: 2830dce93cd0SAchim Leubner if (cm != NULL) { 2831dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 2832dce93cd0SAchim Leubner aacraid_release_command(cm); 2833dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 2834dce93cd0SAchim Leubner } 2835dce93cd0SAchim Leubner return(error); 2836dce93cd0SAchim Leubner } 2837dce93cd0SAchim Leubner 2838dce93cd0SAchim Leubner /* 2839dce93cd0SAchim Leubner * Send a passthrough FIB supplied from userspace 2840dce93cd0SAchim Leubner */ 2841dce93cd0SAchim Leubner static int 2842dce93cd0SAchim Leubner aac_ioctl_send_raw_srb(struct aac_softc *sc, caddr_t arg) 2843dce93cd0SAchim Leubner { 2844dce93cd0SAchim Leubner struct aac_command *cm; 2845dce93cd0SAchim Leubner struct aac_fib *fib; 2846dce93cd0SAchim Leubner struct aac_srb *srbcmd; 2847dce93cd0SAchim Leubner struct aac_srb *user_srb = (struct aac_srb *)arg; 2848dce93cd0SAchim Leubner void *user_reply; 2849dce93cd0SAchim Leubner int error, transfer_data = 0; 2850dce93cd0SAchim Leubner bus_dmamap_t orig_map = 0; 2851dce93cd0SAchim Leubner u_int32_t fibsize = 0; 2852dce93cd0SAchim Leubner u_int64_t srb_sg_address; 2853dce93cd0SAchim Leubner u_int32_t srb_sg_bytecount; 2854dce93cd0SAchim Leubner 2855dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 2856dce93cd0SAchim Leubner 2857dce93cd0SAchim Leubner cm = NULL; 2858dce93cd0SAchim Leubner 2859dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 2860dce93cd0SAchim Leubner if (aacraid_alloc_command(sc, &cm)) { 2861dce93cd0SAchim Leubner struct aac_event *event; 2862dce93cd0SAchim Leubner 2863dce93cd0SAchim Leubner event = malloc(sizeof(struct aac_event), M_AACRAIDBUF, 2864dce93cd0SAchim Leubner M_NOWAIT | M_ZERO); 2865dce93cd0SAchim Leubner if (event == NULL) { 2866dce93cd0SAchim Leubner error = EBUSY; 2867dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 2868dce93cd0SAchim Leubner goto out; 2869dce93cd0SAchim Leubner } 2870dce93cd0SAchim Leubner event->ev_type = AAC_EVENT_CMFREE; 2871dce93cd0SAchim Leubner event->ev_callback = aac_ioctl_event; 2872dce93cd0SAchim Leubner event->ev_arg = &cm; 2873dce93cd0SAchim Leubner aacraid_add_event(sc, event); 2874dce93cd0SAchim Leubner msleep(cm, &sc->aac_io_lock, 0, "aacraid_ctlsraw", 0); 2875dce93cd0SAchim Leubner } 2876dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 2877dce93cd0SAchim Leubner 2878dce93cd0SAchim Leubner cm->cm_data = NULL; 2879dce93cd0SAchim Leubner /* save original dma map */ 2880dce93cd0SAchim Leubner orig_map = cm->cm_datamap; 2881dce93cd0SAchim Leubner 2882dce93cd0SAchim Leubner fib = cm->cm_fib; 2883dce93cd0SAchim Leubner srbcmd = (struct aac_srb *)fib->data; 2884dce93cd0SAchim Leubner if ((error = copyin((void *)&user_srb->data_len, &fibsize, 28854f1dfabaSMaxim Sobolev sizeof (u_int32_t))) != 0) 2886dce93cd0SAchim Leubner goto out; 2887dce93cd0SAchim Leubner if (fibsize > (sc->aac_max_fib_size-sizeof(struct aac_fib_header))) { 2888dce93cd0SAchim Leubner error = EINVAL; 2889dce93cd0SAchim Leubner goto out; 2890dce93cd0SAchim Leubner } 28914f1dfabaSMaxim Sobolev if ((error = copyin((void *)user_srb, srbcmd, fibsize)) != 0) 2892dce93cd0SAchim Leubner goto out; 2893dce93cd0SAchim Leubner 2894dce93cd0SAchim Leubner srbcmd->function = 0; /* SRBF_ExecuteScsi */ 2895dce93cd0SAchim Leubner srbcmd->retry_limit = 0; /* obsolete */ 2896dce93cd0SAchim Leubner 2897dce93cd0SAchim Leubner /* only one sg element from userspace supported */ 2898dce93cd0SAchim Leubner if (srbcmd->sg_map.SgCount > 1) { 2899dce93cd0SAchim Leubner error = EINVAL; 2900dce93cd0SAchim Leubner goto out; 2901dce93cd0SAchim Leubner } 2902dce93cd0SAchim Leubner /* check fibsize */ 2903dce93cd0SAchim Leubner if (fibsize == (sizeof(struct aac_srb) + 2904dce93cd0SAchim Leubner srbcmd->sg_map.SgCount * sizeof(struct aac_sg_entry))) { 2905dce93cd0SAchim Leubner struct aac_sg_entry *sgp = srbcmd->sg_map.SgEntry; 2906f4a18258SSean Bruno struct aac_sg_entry sg; 2907f4a18258SSean Bruno 2908f4a18258SSean Bruno if ((error = copyin(sgp, &sg, sizeof(sg))) != 0) 2909f4a18258SSean Bruno goto out; 2910f4a18258SSean Bruno 2911f4a18258SSean Bruno srb_sg_bytecount = sg.SgByteCount; 2912f4a18258SSean Bruno srb_sg_address = (u_int64_t)sg.SgAddress; 2913dce93cd0SAchim Leubner } else if (fibsize == (sizeof(struct aac_srb) + 2914dce93cd0SAchim Leubner srbcmd->sg_map.SgCount * sizeof(struct aac_sg_entry64))) { 2915dceba9b5SMarcel Moolenaar #ifdef __LP64__ 2916dce93cd0SAchim Leubner struct aac_sg_entry64 *sgp = 2917dce93cd0SAchim Leubner (struct aac_sg_entry64 *)srbcmd->sg_map.SgEntry; 2918f4a18258SSean Bruno struct aac_sg_entry64 sg; 2919f4a18258SSean Bruno 2920f4a18258SSean Bruno if ((error = copyin(sgp, &sg, sizeof(sg))) != 0) 2921f4a18258SSean Bruno goto out; 2922f4a18258SSean Bruno 2923f4a18258SSean Bruno srb_sg_bytecount = sg.SgByteCount; 2924f4a18258SSean Bruno srb_sg_address = sg.SgAddress; 29254f1dfabaSMaxim Sobolev #else 2926dce93cd0SAchim Leubner error = EINVAL; 2927dce93cd0SAchim Leubner goto out; 29284f1dfabaSMaxim Sobolev #endif 2929dce93cd0SAchim Leubner } else { 2930dce93cd0SAchim Leubner error = EINVAL; 2931dce93cd0SAchim Leubner goto out; 2932dce93cd0SAchim Leubner } 2933dce93cd0SAchim Leubner user_reply = (char *)arg + fibsize; 2934dce93cd0SAchim Leubner srbcmd->data_len = srb_sg_bytecount; 2935dce93cd0SAchim Leubner if (srbcmd->sg_map.SgCount == 1) 2936dce93cd0SAchim Leubner transfer_data = 1; 2937dce93cd0SAchim Leubner 2938dce93cd0SAchim Leubner if (transfer_data) { 2939dce93cd0SAchim Leubner /* 2940dce93cd0SAchim Leubner * Create DMA tag for the passthr. data buffer and allocate it. 2941dce93cd0SAchim Leubner */ 2942dce93cd0SAchim Leubner if (bus_dma_tag_create(sc->aac_parent_dmat, /* parent */ 2943dce93cd0SAchim Leubner 1, 0, /* algnmnt, boundary */ 2944dce93cd0SAchim Leubner (sc->flags & AAC_FLAGS_SG_64BIT) ? 2945dce93cd0SAchim Leubner BUS_SPACE_MAXADDR_32BIT : 2946dce93cd0SAchim Leubner 0x7fffffff, /* lowaddr */ 2947dce93cd0SAchim Leubner BUS_SPACE_MAXADDR, /* highaddr */ 2948dce93cd0SAchim Leubner NULL, NULL, /* filter, filterarg */ 2949dce93cd0SAchim Leubner srb_sg_bytecount, /* size */ 2950dce93cd0SAchim Leubner sc->aac_sg_tablesize, /* nsegments */ 2951dce93cd0SAchim Leubner srb_sg_bytecount, /* maxsegsize */ 2952dce93cd0SAchim Leubner 0, /* flags */ 2953dce93cd0SAchim Leubner NULL, NULL, /* No locking needed */ 2954dce93cd0SAchim Leubner &cm->cm_passthr_dmat)) { 2955dce93cd0SAchim Leubner error = ENOMEM; 2956dce93cd0SAchim Leubner goto out; 2957dce93cd0SAchim Leubner } 2958dce93cd0SAchim Leubner if (bus_dmamem_alloc(cm->cm_passthr_dmat, (void **)&cm->cm_data, 2959dce93cd0SAchim Leubner BUS_DMA_NOWAIT, &cm->cm_datamap)) { 2960dce93cd0SAchim Leubner error = ENOMEM; 2961dce93cd0SAchim Leubner goto out; 2962dce93cd0SAchim Leubner } 2963dce93cd0SAchim Leubner /* fill some cm variables */ 2964dce93cd0SAchim Leubner cm->cm_datalen = srb_sg_bytecount; 2965dce93cd0SAchim Leubner if (srbcmd->flags & AAC_SRB_FLAGS_DATA_IN) 2966dce93cd0SAchim Leubner cm->cm_flags |= AAC_CMD_DATAIN; 2967dce93cd0SAchim Leubner if (srbcmd->flags & AAC_SRB_FLAGS_DATA_OUT) 2968dce93cd0SAchim Leubner cm->cm_flags |= AAC_CMD_DATAOUT; 2969dce93cd0SAchim Leubner 2970dce93cd0SAchim Leubner if (srbcmd->flags & AAC_SRB_FLAGS_DATA_OUT) { 2971dceba9b5SMarcel Moolenaar if ((error = copyin((void *)(uintptr_t)srb_sg_address, 2972dce93cd0SAchim Leubner cm->cm_data, cm->cm_datalen)) != 0) 2973dce93cd0SAchim Leubner goto out; 2974dce93cd0SAchim Leubner /* sync required for bus_dmamem_alloc() alloc. mem.? */ 2975dce93cd0SAchim Leubner bus_dmamap_sync(cm->cm_passthr_dmat, cm->cm_datamap, 2976dce93cd0SAchim Leubner BUS_DMASYNC_PREWRITE); 2977dce93cd0SAchim Leubner } 2978dce93cd0SAchim Leubner } 2979dce93cd0SAchim Leubner 2980dce93cd0SAchim Leubner /* build the FIB */ 2981dce93cd0SAchim Leubner fib->Header.Size = sizeof(struct aac_fib_header) + 2982dce93cd0SAchim Leubner sizeof(struct aac_srb); 2983dce93cd0SAchim Leubner fib->Header.XferState = 2984dce93cd0SAchim Leubner AAC_FIBSTATE_HOSTOWNED | 2985dce93cd0SAchim Leubner AAC_FIBSTATE_INITIALISED | 2986dce93cd0SAchim Leubner AAC_FIBSTATE_EMPTY | 2987dce93cd0SAchim Leubner AAC_FIBSTATE_FROMHOST | 2988dce93cd0SAchim Leubner AAC_FIBSTATE_REXPECTED | 2989dce93cd0SAchim Leubner AAC_FIBSTATE_NORM | 2990dce93cd0SAchim Leubner AAC_FIBSTATE_ASYNC; 2991dce93cd0SAchim Leubner 2992dce93cd0SAchim Leubner fib->Header.Command = (sc->flags & AAC_FLAGS_SG_64BIT) ? 2993dce93cd0SAchim Leubner ScsiPortCommandU64 : ScsiPortCommand; 2994dce93cd0SAchim Leubner cm->cm_sgtable = (struct aac_sg_table *)&srbcmd->sg_map; 2995dce93cd0SAchim Leubner 2996dce93cd0SAchim Leubner /* send command */ 2997dce93cd0SAchim Leubner if (transfer_data) { 2998dce93cd0SAchim Leubner bus_dmamap_load(cm->cm_passthr_dmat, 2999dce93cd0SAchim Leubner cm->cm_datamap, cm->cm_data, 3000dce93cd0SAchim Leubner cm->cm_datalen, 3001dce93cd0SAchim Leubner aacraid_map_command_sg, cm, 0); 3002dce93cd0SAchim Leubner } else { 3003dce93cd0SAchim Leubner aacraid_map_command_sg(cm, NULL, 0, 0); 3004dce93cd0SAchim Leubner } 3005dce93cd0SAchim Leubner 3006dce93cd0SAchim Leubner /* wait for completion */ 3007dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 3008dce93cd0SAchim Leubner while (!(cm->cm_flags & AAC_CMD_COMPLETED)) 3009dce93cd0SAchim Leubner msleep(cm, &sc->aac_io_lock, 0, "aacraid_ctlsrw2", 0); 3010dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 3011dce93cd0SAchim Leubner 3012dce93cd0SAchim Leubner /* copy data */ 3013dce93cd0SAchim Leubner if (transfer_data && (srbcmd->flags & AAC_SRB_FLAGS_DATA_IN)) { 3014dce93cd0SAchim Leubner if ((error = copyout(cm->cm_data, 3015dceba9b5SMarcel Moolenaar (void *)(uintptr_t)srb_sg_address, 3016dce93cd0SAchim Leubner cm->cm_datalen)) != 0) 3017dce93cd0SAchim Leubner goto out; 3018dce93cd0SAchim Leubner /* sync required for bus_dmamem_alloc() allocated mem.? */ 3019dce93cd0SAchim Leubner bus_dmamap_sync(cm->cm_passthr_dmat, cm->cm_datamap, 3020dce93cd0SAchim Leubner BUS_DMASYNC_POSTREAD); 3021dce93cd0SAchim Leubner } 3022dce93cd0SAchim Leubner 3023dce93cd0SAchim Leubner /* status */ 3024dce93cd0SAchim Leubner error = copyout(fib->data, user_reply, sizeof(struct aac_srb_response)); 3025dce93cd0SAchim Leubner 3026dce93cd0SAchim Leubner out: 3027dce93cd0SAchim Leubner if (cm && cm->cm_data) { 3028dce93cd0SAchim Leubner if (transfer_data) 3029dce93cd0SAchim Leubner bus_dmamap_unload(cm->cm_passthr_dmat, cm->cm_datamap); 3030dce93cd0SAchim Leubner bus_dmamem_free(cm->cm_passthr_dmat, cm->cm_data, cm->cm_datamap); 3031dce93cd0SAchim Leubner cm->cm_datamap = orig_map; 3032dce93cd0SAchim Leubner } 3033dce93cd0SAchim Leubner if (cm && cm->cm_passthr_dmat) 3034dce93cd0SAchim Leubner bus_dma_tag_destroy(cm->cm_passthr_dmat); 3035dce93cd0SAchim Leubner if (cm) { 3036dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 3037dce93cd0SAchim Leubner aacraid_release_command(cm); 3038dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 3039dce93cd0SAchim Leubner } 3040dce93cd0SAchim Leubner return(error); 3041dce93cd0SAchim Leubner } 3042dce93cd0SAchim Leubner 3043dce93cd0SAchim Leubner /* 3044dce93cd0SAchim Leubner * Request an AIF from the controller (new comm. type1) 3045dce93cd0SAchim Leubner */ 3046dce93cd0SAchim Leubner static void 3047dce93cd0SAchim Leubner aac_request_aif(struct aac_softc *sc) 3048dce93cd0SAchim Leubner { 3049dce93cd0SAchim Leubner struct aac_command *cm; 3050dce93cd0SAchim Leubner struct aac_fib *fib; 3051dce93cd0SAchim Leubner 3052dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 3053dce93cd0SAchim Leubner 3054dce93cd0SAchim Leubner if (aacraid_alloc_command(sc, &cm)) { 3055dce93cd0SAchim Leubner sc->aif_pending = 1; 3056dce93cd0SAchim Leubner return; 3057dce93cd0SAchim Leubner } 3058dce93cd0SAchim Leubner sc->aif_pending = 0; 3059dce93cd0SAchim Leubner 3060dce93cd0SAchim Leubner /* build the FIB */ 3061dce93cd0SAchim Leubner fib = cm->cm_fib; 3062dce93cd0SAchim Leubner fib->Header.Size = sizeof(struct aac_fib); 3063dce93cd0SAchim Leubner fib->Header.XferState = 3064dce93cd0SAchim Leubner AAC_FIBSTATE_HOSTOWNED | 3065dce93cd0SAchim Leubner AAC_FIBSTATE_INITIALISED | 3066dce93cd0SAchim Leubner AAC_FIBSTATE_EMPTY | 3067dce93cd0SAchim Leubner AAC_FIBSTATE_FROMHOST | 3068dce93cd0SAchim Leubner AAC_FIBSTATE_REXPECTED | 3069dce93cd0SAchim Leubner AAC_FIBSTATE_NORM | 3070dce93cd0SAchim Leubner AAC_FIBSTATE_ASYNC; 3071dce93cd0SAchim Leubner /* set AIF marker */ 3072dce93cd0SAchim Leubner fib->Header.Handle = 0x00800000; 3073dce93cd0SAchim Leubner fib->Header.Command = AifRequest; 3074dce93cd0SAchim Leubner ((struct aac_aif_command *)fib->data)->command = AifReqEvent; 3075dce93cd0SAchim Leubner 3076dce93cd0SAchim Leubner aacraid_map_command_sg(cm, NULL, 0, 0); 3077dce93cd0SAchim Leubner } 3078dce93cd0SAchim Leubner 3079dce93cd0SAchim Leubner 3080dce93cd0SAchim Leubner #if __FreeBSD_version >= 702000 3081dce93cd0SAchim Leubner /* 3082dce93cd0SAchim Leubner * cdevpriv interface private destructor. 3083dce93cd0SAchim Leubner */ 3084dce93cd0SAchim Leubner static void 3085dce93cd0SAchim Leubner aac_cdevpriv_dtor(void *arg) 3086dce93cd0SAchim Leubner { 3087dce93cd0SAchim Leubner struct aac_softc *sc; 3088dce93cd0SAchim Leubner 3089dce93cd0SAchim Leubner sc = arg; 3090dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 3091dce93cd0SAchim Leubner device_unbusy(sc->aac_dev); 3092dce93cd0SAchim Leubner } 3093dce93cd0SAchim Leubner #else 3094dce93cd0SAchim Leubner static int 3095dce93cd0SAchim Leubner aac_close(struct cdev *dev, int flags, int fmt, struct thread *td) 3096dce93cd0SAchim Leubner { 3097dce93cd0SAchim Leubner struct aac_softc *sc; 3098dce93cd0SAchim Leubner 3099dce93cd0SAchim Leubner sc = dev->si_drv1; 3100dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 3101dce93cd0SAchim Leubner return 0; 3102dce93cd0SAchim Leubner } 3103dce93cd0SAchim Leubner #endif 3104dce93cd0SAchim Leubner 3105dce93cd0SAchim Leubner /* 3106dce93cd0SAchim Leubner * Handle an AIF sent to us by the controller; queue it for later reference. 3107dce93cd0SAchim Leubner * If the queue fills up, then drop the older entries. 3108dce93cd0SAchim Leubner */ 3109dce93cd0SAchim Leubner static void 3110dce93cd0SAchim Leubner aac_handle_aif(struct aac_softc *sc, struct aac_fib *fib) 3111dce93cd0SAchim Leubner { 3112dce93cd0SAchim Leubner struct aac_aif_command *aif; 3113dce93cd0SAchim Leubner struct aac_container *co, *co_next; 3114dce93cd0SAchim Leubner struct aac_fib_context *ctx; 3115dce93cd0SAchim Leubner struct aac_fib *sync_fib; 3116dce93cd0SAchim Leubner struct aac_mntinforesp mir; 3117dce93cd0SAchim Leubner int next, current, found; 3118dce93cd0SAchim Leubner int count = 0, changed = 0, i = 0; 3119dce93cd0SAchim Leubner u_int32_t channel, uid; 3120dce93cd0SAchim Leubner 3121dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 3122dce93cd0SAchim Leubner 3123dce93cd0SAchim Leubner aif = (struct aac_aif_command*)&fib->data[0]; 3124dce93cd0SAchim Leubner aacraid_print_aif(sc, aif); 3125dce93cd0SAchim Leubner 3126dce93cd0SAchim Leubner /* Is it an event that we should care about? */ 3127dce93cd0SAchim Leubner switch (aif->command) { 3128dce93cd0SAchim Leubner case AifCmdEventNotify: 3129dce93cd0SAchim Leubner switch (aif->data.EN.type) { 3130dce93cd0SAchim Leubner case AifEnAddContainer: 3131dce93cd0SAchim Leubner case AifEnDeleteContainer: 3132dce93cd0SAchim Leubner /* 3133dce93cd0SAchim Leubner * A container was added or deleted, but the message 3134dce93cd0SAchim Leubner * doesn't tell us anything else! Re-enumerate the 3135dce93cd0SAchim Leubner * containers and sort things out. 3136dce93cd0SAchim Leubner */ 3137dce93cd0SAchim Leubner aac_alloc_sync_fib(sc, &sync_fib); 3138dce93cd0SAchim Leubner do { 3139dce93cd0SAchim Leubner /* 3140dce93cd0SAchim Leubner * Ask the controller for its containers one at 3141dce93cd0SAchim Leubner * a time. 3142dce93cd0SAchim Leubner * XXX What if the controller's list changes 3143dce93cd0SAchim Leubner * midway through this enumaration? 3144dce93cd0SAchim Leubner * XXX This should be done async. 3145dce93cd0SAchim Leubner */ 3146dce93cd0SAchim Leubner if (aac_get_container_info(sc, sync_fib, i, 3147dce93cd0SAchim Leubner &mir, &uid) != 0) 3148dce93cd0SAchim Leubner continue; 3149dce93cd0SAchim Leubner if (i == 0) 3150dce93cd0SAchim Leubner count = mir.MntRespCount; 3151dce93cd0SAchim Leubner /* 3152dce93cd0SAchim Leubner * Check the container against our list. 3153dce93cd0SAchim Leubner * co->co_found was already set to 0 in a 3154dce93cd0SAchim Leubner * previous run. 3155dce93cd0SAchim Leubner */ 3156dce93cd0SAchim Leubner if ((mir.Status == ST_OK) && 3157dce93cd0SAchim Leubner (mir.MntTable[0].VolType != CT_NONE)) { 3158dce93cd0SAchim Leubner found = 0; 3159dce93cd0SAchim Leubner TAILQ_FOREACH(co, 3160dce93cd0SAchim Leubner &sc->aac_container_tqh, 3161dce93cd0SAchim Leubner co_link) { 3162dce93cd0SAchim Leubner if (co->co_mntobj.ObjectId == 3163dce93cd0SAchim Leubner mir.MntTable[0].ObjectId) { 3164dce93cd0SAchim Leubner co->co_found = 1; 3165dce93cd0SAchim Leubner found = 1; 3166dce93cd0SAchim Leubner break; 3167dce93cd0SAchim Leubner } 3168dce93cd0SAchim Leubner } 3169dce93cd0SAchim Leubner /* 3170dce93cd0SAchim Leubner * If the container matched, continue 3171dce93cd0SAchim Leubner * in the list. 3172dce93cd0SAchim Leubner */ 3173dce93cd0SAchim Leubner if (found) { 3174dce93cd0SAchim Leubner i++; 3175dce93cd0SAchim Leubner continue; 3176dce93cd0SAchim Leubner } 3177dce93cd0SAchim Leubner 3178dce93cd0SAchim Leubner /* 3179dce93cd0SAchim Leubner * This is a new container. Do all the 3180dce93cd0SAchim Leubner * appropriate things to set it up. 3181dce93cd0SAchim Leubner */ 3182dce93cd0SAchim Leubner aac_add_container(sc, &mir, 1, uid); 3183dce93cd0SAchim Leubner changed = 1; 3184dce93cd0SAchim Leubner } 3185dce93cd0SAchim Leubner i++; 3186dce93cd0SAchim Leubner } while ((i < count) && (i < AAC_MAX_CONTAINERS)); 3187dce93cd0SAchim Leubner aac_release_sync_fib(sc); 3188dce93cd0SAchim Leubner 3189dce93cd0SAchim Leubner /* 3190dce93cd0SAchim Leubner * Go through our list of containers and see which ones 3191dce93cd0SAchim Leubner * were not marked 'found'. Since the controller didn't 3192dce93cd0SAchim Leubner * list them they must have been deleted. Do the 3193dce93cd0SAchim Leubner * appropriate steps to destroy the device. Also reset 3194dce93cd0SAchim Leubner * the co->co_found field. 3195dce93cd0SAchim Leubner */ 3196dce93cd0SAchim Leubner co = TAILQ_FIRST(&sc->aac_container_tqh); 3197dce93cd0SAchim Leubner while (co != NULL) { 3198dce93cd0SAchim Leubner if (co->co_found == 0) { 3199dce93cd0SAchim Leubner co_next = TAILQ_NEXT(co, co_link); 3200dce93cd0SAchim Leubner TAILQ_REMOVE(&sc->aac_container_tqh, co, 3201dce93cd0SAchim Leubner co_link); 3202dce93cd0SAchim Leubner free(co, M_AACRAIDBUF); 3203dce93cd0SAchim Leubner changed = 1; 3204dce93cd0SAchim Leubner co = co_next; 3205dce93cd0SAchim Leubner } else { 3206dce93cd0SAchim Leubner co->co_found = 0; 3207dce93cd0SAchim Leubner co = TAILQ_NEXT(co, co_link); 3208dce93cd0SAchim Leubner } 3209dce93cd0SAchim Leubner } 3210dce93cd0SAchim Leubner 3211dce93cd0SAchim Leubner /* Attach the newly created containers */ 3212dce93cd0SAchim Leubner if (changed) { 3213dce93cd0SAchim Leubner if (sc->cam_rescan_cb != NULL) 3214dce93cd0SAchim Leubner sc->cam_rescan_cb(sc, 0, 3215dce93cd0SAchim Leubner AAC_CAM_TARGET_WILDCARD); 3216dce93cd0SAchim Leubner } 3217dce93cd0SAchim Leubner 3218dce93cd0SAchim Leubner break; 3219dce93cd0SAchim Leubner 3220dce93cd0SAchim Leubner case AifEnEnclosureManagement: 3221dce93cd0SAchim Leubner switch (aif->data.EN.data.EEE.eventType) { 3222dce93cd0SAchim Leubner case AIF_EM_DRIVE_INSERTION: 3223dce93cd0SAchim Leubner case AIF_EM_DRIVE_REMOVAL: 3224dce93cd0SAchim Leubner channel = aif->data.EN.data.EEE.unitID; 3225dce93cd0SAchim Leubner if (sc->cam_rescan_cb != NULL) 3226dce93cd0SAchim Leubner sc->cam_rescan_cb(sc, 3227dce93cd0SAchim Leubner ((channel>>24) & 0xF) + 1, 3228dce93cd0SAchim Leubner (channel & 0xFFFF)); 3229dce93cd0SAchim Leubner break; 3230dce93cd0SAchim Leubner } 3231dce93cd0SAchim Leubner break; 3232dce93cd0SAchim Leubner 3233dce93cd0SAchim Leubner case AifEnAddJBOD: 3234dce93cd0SAchim Leubner case AifEnDeleteJBOD: 3235dce93cd0SAchim Leubner case AifRawDeviceRemove: 3236dce93cd0SAchim Leubner channel = aif->data.EN.data.ECE.container; 3237dce93cd0SAchim Leubner if (sc->cam_rescan_cb != NULL) 3238dce93cd0SAchim Leubner sc->cam_rescan_cb(sc, ((channel>>24) & 0xF) + 1, 3239dce93cd0SAchim Leubner AAC_CAM_TARGET_WILDCARD); 3240dce93cd0SAchim Leubner break; 3241dce93cd0SAchim Leubner 3242dce93cd0SAchim Leubner default: 3243dce93cd0SAchim Leubner break; 3244dce93cd0SAchim Leubner } 3245dce93cd0SAchim Leubner 3246dce93cd0SAchim Leubner default: 3247dce93cd0SAchim Leubner break; 3248dce93cd0SAchim Leubner } 3249dce93cd0SAchim Leubner 3250dce93cd0SAchim Leubner /* Copy the AIF data to the AIF queue for ioctl retrieval */ 3251dce93cd0SAchim Leubner current = sc->aifq_idx; 3252dce93cd0SAchim Leubner next = (current + 1) % AAC_AIFQ_LENGTH; 3253dce93cd0SAchim Leubner if (next == 0) 3254dce93cd0SAchim Leubner sc->aifq_filled = 1; 3255dce93cd0SAchim Leubner bcopy(fib, &sc->aac_aifq[current], sizeof(struct aac_fib)); 3256dce93cd0SAchim Leubner /* modify AIF contexts */ 3257dce93cd0SAchim Leubner if (sc->aifq_filled) { 3258dce93cd0SAchim Leubner for (ctx = sc->fibctx; ctx; ctx = ctx->next) { 3259dce93cd0SAchim Leubner if (next == ctx->ctx_idx) 3260dce93cd0SAchim Leubner ctx->ctx_wrap = 1; 3261dce93cd0SAchim Leubner else if (current == ctx->ctx_idx && ctx->ctx_wrap) 3262dce93cd0SAchim Leubner ctx->ctx_idx = next; 3263dce93cd0SAchim Leubner } 3264dce93cd0SAchim Leubner } 3265dce93cd0SAchim Leubner sc->aifq_idx = next; 3266dce93cd0SAchim Leubner /* On the off chance that someone is sleeping for an aif... */ 3267dce93cd0SAchim Leubner if (sc->aac_state & AAC_STATE_AIF_SLEEPER) 3268dce93cd0SAchim Leubner wakeup(sc->aac_aifq); 3269dce93cd0SAchim Leubner /* Wakeup any poll()ers */ 3270dce93cd0SAchim Leubner selwakeuppri(&sc->rcv_select, PRIBIO); 3271dce93cd0SAchim Leubner 3272dce93cd0SAchim Leubner return; 3273dce93cd0SAchim Leubner } 3274dce93cd0SAchim Leubner 3275dce93cd0SAchim Leubner /* 3276dce93cd0SAchim Leubner * Return the Revision of the driver to userspace and check to see if the 3277dce93cd0SAchim Leubner * userspace app is possibly compatible. This is extremely bogus since 3278dce93cd0SAchim Leubner * our driver doesn't follow Adaptec's versioning system. Cheat by just 3279dce93cd0SAchim Leubner * returning what the card reported. 3280dce93cd0SAchim Leubner */ 3281dce93cd0SAchim Leubner static int 3282dce93cd0SAchim Leubner aac_rev_check(struct aac_softc *sc, caddr_t udata) 3283dce93cd0SAchim Leubner { 3284dce93cd0SAchim Leubner struct aac_rev_check rev_check; 3285dce93cd0SAchim Leubner struct aac_rev_check_resp rev_check_resp; 3286dce93cd0SAchim Leubner int error = 0; 3287dce93cd0SAchim Leubner 3288dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 3289dce93cd0SAchim Leubner 3290dce93cd0SAchim Leubner /* 3291dce93cd0SAchim Leubner * Copyin the revision struct from userspace 3292dce93cd0SAchim Leubner */ 3293dce93cd0SAchim Leubner if ((error = copyin(udata, (caddr_t)&rev_check, 3294dce93cd0SAchim Leubner sizeof(struct aac_rev_check))) != 0) { 3295dce93cd0SAchim Leubner return error; 3296dce93cd0SAchim Leubner } 3297dce93cd0SAchim Leubner 3298dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_IOCTL_COMMANDS_B, "Userland revision= %d\n", 3299dce93cd0SAchim Leubner rev_check.callingRevision.buildNumber); 3300dce93cd0SAchim Leubner 3301dce93cd0SAchim Leubner /* 3302dce93cd0SAchim Leubner * Doctor up the response struct. 3303dce93cd0SAchim Leubner */ 3304dce93cd0SAchim Leubner rev_check_resp.possiblyCompatible = 1; 3305dce93cd0SAchim Leubner rev_check_resp.adapterSWRevision.external.comp.major = 3306dce93cd0SAchim Leubner AAC_DRIVER_MAJOR_VERSION; 3307dce93cd0SAchim Leubner rev_check_resp.adapterSWRevision.external.comp.minor = 3308dce93cd0SAchim Leubner AAC_DRIVER_MINOR_VERSION; 3309dce93cd0SAchim Leubner rev_check_resp.adapterSWRevision.external.comp.type = 3310dce93cd0SAchim Leubner AAC_DRIVER_TYPE; 3311dce93cd0SAchim Leubner rev_check_resp.adapterSWRevision.external.comp.dash = 3312dce93cd0SAchim Leubner AAC_DRIVER_BUGFIX_LEVEL; 3313dce93cd0SAchim Leubner rev_check_resp.adapterSWRevision.buildNumber = 3314dce93cd0SAchim Leubner AAC_DRIVER_BUILD; 3315dce93cd0SAchim Leubner 3316dce93cd0SAchim Leubner return(copyout((caddr_t)&rev_check_resp, udata, 3317dce93cd0SAchim Leubner sizeof(struct aac_rev_check_resp))); 3318dce93cd0SAchim Leubner } 3319dce93cd0SAchim Leubner 3320dce93cd0SAchim Leubner /* 3321dce93cd0SAchim Leubner * Pass the fib context to the caller 3322dce93cd0SAchim Leubner */ 3323dce93cd0SAchim Leubner static int 3324dce93cd0SAchim Leubner aac_open_aif(struct aac_softc *sc, caddr_t arg) 3325dce93cd0SAchim Leubner { 3326dce93cd0SAchim Leubner struct aac_fib_context *fibctx, *ctx; 3327dce93cd0SAchim Leubner int error = 0; 3328dce93cd0SAchim Leubner 3329dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 3330dce93cd0SAchim Leubner 3331dce93cd0SAchim Leubner fibctx = malloc(sizeof(struct aac_fib_context), M_AACRAIDBUF, M_NOWAIT|M_ZERO); 3332dce93cd0SAchim Leubner if (fibctx == NULL) 3333dce93cd0SAchim Leubner return (ENOMEM); 3334dce93cd0SAchim Leubner 3335dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 3336dce93cd0SAchim Leubner /* all elements are already 0, add to queue */ 3337dce93cd0SAchim Leubner if (sc->fibctx == NULL) 3338dce93cd0SAchim Leubner sc->fibctx = fibctx; 3339dce93cd0SAchim Leubner else { 3340dce93cd0SAchim Leubner for (ctx = sc->fibctx; ctx->next; ctx = ctx->next) 3341dce93cd0SAchim Leubner ; 3342dce93cd0SAchim Leubner ctx->next = fibctx; 3343dce93cd0SAchim Leubner fibctx->prev = ctx; 3344dce93cd0SAchim Leubner } 3345dce93cd0SAchim Leubner 3346dce93cd0SAchim Leubner /* evaluate unique value */ 3347dce93cd0SAchim Leubner fibctx->unique = (*(u_int32_t *)&fibctx & 0xffffffff); 3348dce93cd0SAchim Leubner ctx = sc->fibctx; 3349dce93cd0SAchim Leubner while (ctx != fibctx) { 3350dce93cd0SAchim Leubner if (ctx->unique == fibctx->unique) { 3351dce93cd0SAchim Leubner fibctx->unique++; 3352dce93cd0SAchim Leubner ctx = sc->fibctx; 3353dce93cd0SAchim Leubner } else { 3354dce93cd0SAchim Leubner ctx = ctx->next; 3355dce93cd0SAchim Leubner } 3356dce93cd0SAchim Leubner } 3357dce93cd0SAchim Leubner 3358dce93cd0SAchim Leubner error = copyout(&fibctx->unique, (void *)arg, sizeof(u_int32_t)); 3359dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 3360dce93cd0SAchim Leubner if (error) 3361dce93cd0SAchim Leubner aac_close_aif(sc, (caddr_t)ctx); 3362dce93cd0SAchim Leubner return error; 3363dce93cd0SAchim Leubner } 3364dce93cd0SAchim Leubner 3365dce93cd0SAchim Leubner /* 3366dce93cd0SAchim Leubner * Close the caller's fib context 3367dce93cd0SAchim Leubner */ 3368dce93cd0SAchim Leubner static int 3369dce93cd0SAchim Leubner aac_close_aif(struct aac_softc *sc, caddr_t arg) 3370dce93cd0SAchim Leubner { 3371dce93cd0SAchim Leubner struct aac_fib_context *ctx; 3372dce93cd0SAchim Leubner 3373dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 3374dce93cd0SAchim Leubner 3375dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 3376dce93cd0SAchim Leubner for (ctx = sc->fibctx; ctx; ctx = ctx->next) { 3377dce93cd0SAchim Leubner if (ctx->unique == *(uint32_t *)&arg) { 3378dce93cd0SAchim Leubner if (ctx == sc->fibctx) 3379dce93cd0SAchim Leubner sc->fibctx = NULL; 3380dce93cd0SAchim Leubner else { 3381dce93cd0SAchim Leubner ctx->prev->next = ctx->next; 3382dce93cd0SAchim Leubner if (ctx->next) 3383dce93cd0SAchim Leubner ctx->next->prev = ctx->prev; 3384dce93cd0SAchim Leubner } 3385dce93cd0SAchim Leubner break; 3386dce93cd0SAchim Leubner } 3387dce93cd0SAchim Leubner } 3388dce93cd0SAchim Leubner if (ctx) 3389dce93cd0SAchim Leubner free(ctx, M_AACRAIDBUF); 3390dce93cd0SAchim Leubner 3391dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 3392dce93cd0SAchim Leubner return 0; 3393dce93cd0SAchim Leubner } 3394dce93cd0SAchim Leubner 3395dce93cd0SAchim Leubner /* 3396dce93cd0SAchim Leubner * Pass the caller the next AIF in their queue 3397dce93cd0SAchim Leubner */ 3398dce93cd0SAchim Leubner static int 3399dce93cd0SAchim Leubner aac_getnext_aif(struct aac_softc *sc, caddr_t arg) 3400dce93cd0SAchim Leubner { 3401dce93cd0SAchim Leubner struct get_adapter_fib_ioctl agf; 3402dce93cd0SAchim Leubner struct aac_fib_context *ctx; 3403dce93cd0SAchim Leubner int error; 3404dce93cd0SAchim Leubner 3405dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 3406dce93cd0SAchim Leubner 3407dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 3408f287c3e4SBrooks Davis #ifdef COMPAT_FREEBSD32 3409f287c3e4SBrooks Davis if (SV_CURPROC_FLAG(SV_ILP32)) { 3410f287c3e4SBrooks Davis struct get_adapter_fib_ioctl32 agf32; 3411f287c3e4SBrooks Davis error = copyin(arg, &agf32, sizeof(agf32)); 3412f287c3e4SBrooks Davis if (error == 0) { 3413f287c3e4SBrooks Davis agf.AdapterFibContext = agf32.AdapterFibContext; 3414f287c3e4SBrooks Davis agf.Wait = agf32.Wait; 3415f287c3e4SBrooks Davis agf.AifFib = (caddr_t)(uintptr_t)agf32.AifFib; 3416f287c3e4SBrooks Davis } 3417f287c3e4SBrooks Davis } else 3418f287c3e4SBrooks Davis #endif 3419f287c3e4SBrooks Davis error = copyin(arg, &agf, sizeof(agf)); 3420f287c3e4SBrooks Davis if (error == 0) { 3421dce93cd0SAchim Leubner for (ctx = sc->fibctx; ctx; ctx = ctx->next) { 3422dce93cd0SAchim Leubner if (agf.AdapterFibContext == ctx->unique) 3423dce93cd0SAchim Leubner break; 3424dce93cd0SAchim Leubner } 3425dce93cd0SAchim Leubner if (!ctx) { 3426dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 3427dce93cd0SAchim Leubner return (EFAULT); 3428dce93cd0SAchim Leubner } 3429dce93cd0SAchim Leubner 3430dce93cd0SAchim Leubner error = aac_return_aif(sc, ctx, agf.AifFib); 3431dce93cd0SAchim Leubner if (error == EAGAIN && agf.Wait) { 3432dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_AIF_B, "aac_getnext_aif(): waiting for AIF"); 3433dce93cd0SAchim Leubner sc->aac_state |= AAC_STATE_AIF_SLEEPER; 3434dce93cd0SAchim Leubner while (error == EAGAIN) { 3435dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 3436dce93cd0SAchim Leubner error = tsleep(sc->aac_aifq, PRIBIO | 3437dce93cd0SAchim Leubner PCATCH, "aacaif", 0); 3438dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 3439dce93cd0SAchim Leubner if (error == 0) 3440dce93cd0SAchim Leubner error = aac_return_aif(sc, ctx, agf.AifFib); 3441dce93cd0SAchim Leubner } 3442dce93cd0SAchim Leubner sc->aac_state &= ~AAC_STATE_AIF_SLEEPER; 3443dce93cd0SAchim Leubner } 3444dce93cd0SAchim Leubner } 3445dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 3446dce93cd0SAchim Leubner return(error); 3447dce93cd0SAchim Leubner } 3448dce93cd0SAchim Leubner 3449dce93cd0SAchim Leubner /* 3450dce93cd0SAchim Leubner * Hand the next AIF off the top of the queue out to userspace. 3451dce93cd0SAchim Leubner */ 3452dce93cd0SAchim Leubner static int 3453dce93cd0SAchim Leubner aac_return_aif(struct aac_softc *sc, struct aac_fib_context *ctx, caddr_t uptr) 3454dce93cd0SAchim Leubner { 3455dce93cd0SAchim Leubner int current, error; 3456dce93cd0SAchim Leubner 3457dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 3458dce93cd0SAchim Leubner 3459dce93cd0SAchim Leubner current = ctx->ctx_idx; 3460dce93cd0SAchim Leubner if (current == sc->aifq_idx && !ctx->ctx_wrap) { 3461dce93cd0SAchim Leubner /* empty */ 3462dce93cd0SAchim Leubner return (EAGAIN); 3463dce93cd0SAchim Leubner } 3464dce93cd0SAchim Leubner error = 3465dce93cd0SAchim Leubner copyout(&sc->aac_aifq[current], (void *)uptr, sizeof(struct aac_fib)); 3466dce93cd0SAchim Leubner if (error) 3467dce93cd0SAchim Leubner device_printf(sc->aac_dev, 3468dce93cd0SAchim Leubner "aac_return_aif: copyout returned %d\n", error); 3469dce93cd0SAchim Leubner else { 3470dce93cd0SAchim Leubner ctx->ctx_wrap = 0; 3471dce93cd0SAchim Leubner ctx->ctx_idx = (current + 1) % AAC_AIFQ_LENGTH; 3472dce93cd0SAchim Leubner } 3473dce93cd0SAchim Leubner return(error); 3474dce93cd0SAchim Leubner } 3475dce93cd0SAchim Leubner 3476dce93cd0SAchim Leubner static int 3477dce93cd0SAchim Leubner aac_get_pci_info(struct aac_softc *sc, caddr_t uptr) 3478dce93cd0SAchim Leubner { 3479dce93cd0SAchim Leubner struct aac_pci_info { 3480dce93cd0SAchim Leubner u_int32_t bus; 3481dce93cd0SAchim Leubner u_int32_t slot; 3482dce93cd0SAchim Leubner } pciinf; 3483dce93cd0SAchim Leubner int error; 3484dce93cd0SAchim Leubner 3485dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 3486dce93cd0SAchim Leubner 3487dce93cd0SAchim Leubner pciinf.bus = pci_get_bus(sc->aac_dev); 3488dce93cd0SAchim Leubner pciinf.slot = pci_get_slot(sc->aac_dev); 3489dce93cd0SAchim Leubner 3490dce93cd0SAchim Leubner error = copyout((caddr_t)&pciinf, uptr, 3491dce93cd0SAchim Leubner sizeof(struct aac_pci_info)); 3492dce93cd0SAchim Leubner 3493dce93cd0SAchim Leubner return (error); 3494dce93cd0SAchim Leubner } 3495dce93cd0SAchim Leubner 3496dce93cd0SAchim Leubner static int 3497dce93cd0SAchim Leubner aac_supported_features(struct aac_softc *sc, caddr_t uptr) 3498dce93cd0SAchim Leubner { 3499dce93cd0SAchim Leubner struct aac_features f; 3500dce93cd0SAchim Leubner int error; 3501dce93cd0SAchim Leubner 3502dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 3503dce93cd0SAchim Leubner 3504dce93cd0SAchim Leubner if ((error = copyin(uptr, &f, sizeof (f))) != 0) 3505dce93cd0SAchim Leubner return (error); 3506dce93cd0SAchim Leubner 3507dce93cd0SAchim Leubner /* 3508dce93cd0SAchim Leubner * When the management driver receives FSACTL_GET_FEATURES ioctl with 3509dce93cd0SAchim Leubner * ALL zero in the featuresState, the driver will return the current 3510dce93cd0SAchim Leubner * state of all the supported features, the data field will not be 3511dce93cd0SAchim Leubner * valid. 3512dce93cd0SAchim Leubner * When the management driver receives FSACTL_GET_FEATURES ioctl with 3513dce93cd0SAchim Leubner * a specific bit set in the featuresState, the driver will return the 3514dce93cd0SAchim Leubner * current state of this specific feature and whatever data that are 3515dce93cd0SAchim Leubner * associated with the feature in the data field or perform whatever 3516dce93cd0SAchim Leubner * action needed indicates in the data field. 3517dce93cd0SAchim Leubner */ 3518dce93cd0SAchim Leubner if (f.feat.fValue == 0) { 3519dce93cd0SAchim Leubner f.feat.fBits.largeLBA = 3520dce93cd0SAchim Leubner (sc->flags & AAC_FLAGS_LBA_64BIT) ? 1 : 0; 3521dce93cd0SAchim Leubner f.feat.fBits.JBODSupport = 1; 3522dce93cd0SAchim Leubner /* TODO: In the future, add other features state here as well */ 3523dce93cd0SAchim Leubner } else { 3524dce93cd0SAchim Leubner if (f.feat.fBits.largeLBA) 3525dce93cd0SAchim Leubner f.feat.fBits.largeLBA = 3526dce93cd0SAchim Leubner (sc->flags & AAC_FLAGS_LBA_64BIT) ? 1 : 0; 3527dce93cd0SAchim Leubner /* TODO: Add other features state and data in the future */ 3528dce93cd0SAchim Leubner } 3529dce93cd0SAchim Leubner 3530dce93cd0SAchim Leubner error = copyout(&f, uptr, sizeof (f)); 3531dce93cd0SAchim Leubner return (error); 3532dce93cd0SAchim Leubner } 3533dce93cd0SAchim Leubner 3534dce93cd0SAchim Leubner /* 3535dce93cd0SAchim Leubner * Give the userland some information about the container. The AAC arch 3536dce93cd0SAchim Leubner * expects the driver to be a SCSI passthrough type driver, so it expects 3537dce93cd0SAchim Leubner * the containers to have b:t:l numbers. Fake it. 3538dce93cd0SAchim Leubner */ 3539dce93cd0SAchim Leubner static int 3540dce93cd0SAchim Leubner aac_query_disk(struct aac_softc *sc, caddr_t uptr) 3541dce93cd0SAchim Leubner { 3542dce93cd0SAchim Leubner struct aac_query_disk query_disk; 3543dce93cd0SAchim Leubner struct aac_container *co; 3544dce93cd0SAchim Leubner int error, id; 3545dce93cd0SAchim Leubner 3546dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 3547dce93cd0SAchim Leubner 3548dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 3549dce93cd0SAchim Leubner error = copyin(uptr, (caddr_t)&query_disk, 3550dce93cd0SAchim Leubner sizeof(struct aac_query_disk)); 3551dce93cd0SAchim Leubner if (error) { 3552dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 3553dce93cd0SAchim Leubner return (error); 3554dce93cd0SAchim Leubner } 3555dce93cd0SAchim Leubner 3556dce93cd0SAchim Leubner id = query_disk.ContainerNumber; 3557dce93cd0SAchim Leubner if (id == -1) { 3558dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 3559dce93cd0SAchim Leubner return (EINVAL); 3560dce93cd0SAchim Leubner } 3561dce93cd0SAchim Leubner 3562dce93cd0SAchim Leubner TAILQ_FOREACH(co, &sc->aac_container_tqh, co_link) { 3563dce93cd0SAchim Leubner if (co->co_mntobj.ObjectId == id) 3564dce93cd0SAchim Leubner break; 3565dce93cd0SAchim Leubner } 3566dce93cd0SAchim Leubner 3567dce93cd0SAchim Leubner if (co == NULL) { 3568dce93cd0SAchim Leubner query_disk.Valid = 0; 3569dce93cd0SAchim Leubner query_disk.Locked = 0; 3570dce93cd0SAchim Leubner query_disk.Deleted = 1; /* XXX is this right? */ 3571dce93cd0SAchim Leubner } else { 3572dce93cd0SAchim Leubner query_disk.Valid = 1; 3573dce93cd0SAchim Leubner query_disk.Locked = 1; 3574dce93cd0SAchim Leubner query_disk.Deleted = 0; 3575dce93cd0SAchim Leubner query_disk.Bus = device_get_unit(sc->aac_dev); 3576dce93cd0SAchim Leubner query_disk.Target = 0; 3577dce93cd0SAchim Leubner query_disk.Lun = 0; 3578dce93cd0SAchim Leubner query_disk.UnMapped = 0; 3579dce93cd0SAchim Leubner } 3580dce93cd0SAchim Leubner 3581dce93cd0SAchim Leubner error = copyout((caddr_t)&query_disk, uptr, 3582dce93cd0SAchim Leubner sizeof(struct aac_query_disk)); 3583dce93cd0SAchim Leubner 3584dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 3585dce93cd0SAchim Leubner return (error); 3586dce93cd0SAchim Leubner } 3587dce93cd0SAchim Leubner 3588dce93cd0SAchim Leubner static void 3589dce93cd0SAchim Leubner aac_container_bus(struct aac_softc *sc) 3590dce93cd0SAchim Leubner { 3591dce93cd0SAchim Leubner struct aac_sim *sim; 3592dce93cd0SAchim Leubner device_t child; 3593dce93cd0SAchim Leubner 3594dce93cd0SAchim Leubner sim =(struct aac_sim *)malloc(sizeof(struct aac_sim), 3595dce93cd0SAchim Leubner M_AACRAIDBUF, M_NOWAIT | M_ZERO); 3596dce93cd0SAchim Leubner if (sim == NULL) { 3597dce93cd0SAchim Leubner device_printf(sc->aac_dev, 3598dce93cd0SAchim Leubner "No memory to add container bus\n"); 3599dce93cd0SAchim Leubner panic("Out of memory?!"); 360074b8d63dSPedro F. Giffuni } 3601dce93cd0SAchim Leubner child = device_add_child(sc->aac_dev, "aacraidp", -1); 3602dce93cd0SAchim Leubner if (child == NULL) { 3603dce93cd0SAchim Leubner device_printf(sc->aac_dev, 3604dce93cd0SAchim Leubner "device_add_child failed for container bus\n"); 3605dce93cd0SAchim Leubner free(sim, M_AACRAIDBUF); 3606dce93cd0SAchim Leubner panic("Out of memory?!"); 3607dce93cd0SAchim Leubner } 3608dce93cd0SAchim Leubner 3609dce93cd0SAchim Leubner sim->TargetsPerBus = AAC_MAX_CONTAINERS; 3610dce93cd0SAchim Leubner sim->BusNumber = 0; 3611dce93cd0SAchim Leubner sim->BusType = CONTAINER_BUS; 3612dce93cd0SAchim Leubner sim->InitiatorBusId = -1; 3613dce93cd0SAchim Leubner sim->aac_sc = sc; 3614dce93cd0SAchim Leubner sim->sim_dev = child; 3615dce93cd0SAchim Leubner sim->aac_cam = NULL; 3616dce93cd0SAchim Leubner 3617dce93cd0SAchim Leubner device_set_ivars(child, sim); 3618dce93cd0SAchim Leubner device_set_desc(child, "Container Bus"); 3619dce93cd0SAchim Leubner TAILQ_INSERT_TAIL(&sc->aac_sim_tqh, sim, sim_link); 3620dce93cd0SAchim Leubner /* 3621dce93cd0SAchim Leubner device_set_desc(child, aac_describe_code(aac_container_types, 3622dce93cd0SAchim Leubner mir->MntTable[0].VolType)); 3623dce93cd0SAchim Leubner */ 3624dce93cd0SAchim Leubner bus_generic_attach(sc->aac_dev); 3625dce93cd0SAchim Leubner } 3626dce93cd0SAchim Leubner 3627dce93cd0SAchim Leubner static void 3628dce93cd0SAchim Leubner aac_get_bus_info(struct aac_softc *sc) 3629dce93cd0SAchim Leubner { 3630dce93cd0SAchim Leubner struct aac_fib *fib; 3631dce93cd0SAchim Leubner struct aac_ctcfg *c_cmd; 3632dce93cd0SAchim Leubner struct aac_ctcfg_resp *c_resp; 3633dce93cd0SAchim Leubner struct aac_vmioctl *vmi; 3634dce93cd0SAchim Leubner struct aac_vmi_businf_resp *vmi_resp; 3635dce93cd0SAchim Leubner struct aac_getbusinf businfo; 3636dce93cd0SAchim Leubner struct aac_sim *caminf; 3637dce93cd0SAchim Leubner device_t child; 3638dce93cd0SAchim Leubner int i, error; 3639dce93cd0SAchim Leubner 3640dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 3641dce93cd0SAchim Leubner aac_alloc_sync_fib(sc, &fib); 3642dce93cd0SAchim Leubner c_cmd = (struct aac_ctcfg *)&fib->data[0]; 3643dce93cd0SAchim Leubner bzero(c_cmd, sizeof(struct aac_ctcfg)); 3644dce93cd0SAchim Leubner 3645dce93cd0SAchim Leubner c_cmd->Command = VM_ContainerConfig; 3646dce93cd0SAchim Leubner c_cmd->cmd = CT_GET_SCSI_METHOD; 3647dce93cd0SAchim Leubner c_cmd->param = 0; 3648dce93cd0SAchim Leubner 3649dce93cd0SAchim Leubner error = aac_sync_fib(sc, ContainerCommand, 0, fib, 3650dce93cd0SAchim Leubner sizeof(struct aac_ctcfg)); 3651dce93cd0SAchim Leubner if (error) { 3652dce93cd0SAchim Leubner device_printf(sc->aac_dev, "Error %d sending " 3653dce93cd0SAchim Leubner "VM_ContainerConfig command\n", error); 3654dce93cd0SAchim Leubner aac_release_sync_fib(sc); 3655dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 3656dce93cd0SAchim Leubner return; 3657dce93cd0SAchim Leubner } 3658dce93cd0SAchim Leubner 3659dce93cd0SAchim Leubner c_resp = (struct aac_ctcfg_resp *)&fib->data[0]; 3660dce93cd0SAchim Leubner if (c_resp->Status != ST_OK) { 3661dce93cd0SAchim Leubner device_printf(sc->aac_dev, "VM_ContainerConfig returned 0x%x\n", 3662dce93cd0SAchim Leubner c_resp->Status); 3663dce93cd0SAchim Leubner aac_release_sync_fib(sc); 3664dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 3665dce93cd0SAchim Leubner return; 3666dce93cd0SAchim Leubner } 3667dce93cd0SAchim Leubner 3668dce93cd0SAchim Leubner sc->scsi_method_id = c_resp->param; 3669dce93cd0SAchim Leubner 3670dce93cd0SAchim Leubner vmi = (struct aac_vmioctl *)&fib->data[0]; 3671dce93cd0SAchim Leubner bzero(vmi, sizeof(struct aac_vmioctl)); 3672dce93cd0SAchim Leubner 3673dce93cd0SAchim Leubner vmi->Command = VM_Ioctl; 3674dce93cd0SAchim Leubner vmi->ObjType = FT_DRIVE; 3675dce93cd0SAchim Leubner vmi->MethId = sc->scsi_method_id; 3676dce93cd0SAchim Leubner vmi->ObjId = 0; 3677dce93cd0SAchim Leubner vmi->IoctlCmd = GetBusInfo; 3678dce93cd0SAchim Leubner 3679dce93cd0SAchim Leubner error = aac_sync_fib(sc, ContainerCommand, 0, fib, 3680dce93cd0SAchim Leubner sizeof(struct aac_vmi_businf_resp)); 3681dce93cd0SAchim Leubner if (error) { 3682dce93cd0SAchim Leubner device_printf(sc->aac_dev, "Error %d sending VMIoctl command\n", 3683dce93cd0SAchim Leubner error); 3684dce93cd0SAchim Leubner aac_release_sync_fib(sc); 3685dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 3686dce93cd0SAchim Leubner return; 3687dce93cd0SAchim Leubner } 3688dce93cd0SAchim Leubner 3689dce93cd0SAchim Leubner vmi_resp = (struct aac_vmi_businf_resp *)&fib->data[0]; 3690dce93cd0SAchim Leubner if (vmi_resp->Status != ST_OK) { 3691dce93cd0SAchim Leubner device_printf(sc->aac_dev, "VM_Ioctl returned %d\n", 3692dce93cd0SAchim Leubner vmi_resp->Status); 3693dce93cd0SAchim Leubner aac_release_sync_fib(sc); 3694dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 3695dce93cd0SAchim Leubner return; 3696dce93cd0SAchim Leubner } 3697dce93cd0SAchim Leubner 3698dce93cd0SAchim Leubner bcopy(&vmi_resp->BusInf, &businfo, sizeof(struct aac_getbusinf)); 3699dce93cd0SAchim Leubner aac_release_sync_fib(sc); 3700dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 3701dce93cd0SAchim Leubner 3702dce93cd0SAchim Leubner for (i = 0; i < businfo.BusCount; i++) { 3703dce93cd0SAchim Leubner if (businfo.BusValid[i] != AAC_BUS_VALID) 3704dce93cd0SAchim Leubner continue; 3705dce93cd0SAchim Leubner 3706dce93cd0SAchim Leubner caminf = (struct aac_sim *)malloc( sizeof(struct aac_sim), 3707dce93cd0SAchim Leubner M_AACRAIDBUF, M_NOWAIT | M_ZERO); 3708dce93cd0SAchim Leubner if (caminf == NULL) { 3709dce93cd0SAchim Leubner device_printf(sc->aac_dev, 3710dce93cd0SAchim Leubner "No memory to add passthrough bus %d\n", i); 3711dce93cd0SAchim Leubner break; 371274b8d63dSPedro F. Giffuni } 3713dce93cd0SAchim Leubner 3714dce93cd0SAchim Leubner child = device_add_child(sc->aac_dev, "aacraidp", -1); 3715dce93cd0SAchim Leubner if (child == NULL) { 3716dce93cd0SAchim Leubner device_printf(sc->aac_dev, 3717dce93cd0SAchim Leubner "device_add_child failed for passthrough bus %d\n", 3718dce93cd0SAchim Leubner i); 3719dce93cd0SAchim Leubner free(caminf, M_AACRAIDBUF); 3720dce93cd0SAchim Leubner break; 3721dce93cd0SAchim Leubner } 3722dce93cd0SAchim Leubner 3723dce93cd0SAchim Leubner caminf->TargetsPerBus = businfo.TargetsPerBus; 3724dce93cd0SAchim Leubner caminf->BusNumber = i+1; 3725dce93cd0SAchim Leubner caminf->BusType = PASSTHROUGH_BUS; 37264f1dfabaSMaxim Sobolev caminf->InitiatorBusId = -1; 3727dce93cd0SAchim Leubner caminf->aac_sc = sc; 3728dce93cd0SAchim Leubner caminf->sim_dev = child; 3729dce93cd0SAchim Leubner caminf->aac_cam = NULL; 3730dce93cd0SAchim Leubner 3731dce93cd0SAchim Leubner device_set_ivars(child, caminf); 3732dce93cd0SAchim Leubner device_set_desc(child, "SCSI Passthrough Bus"); 3733dce93cd0SAchim Leubner TAILQ_INSERT_TAIL(&sc->aac_sim_tqh, caminf, sim_link); 3734dce93cd0SAchim Leubner } 3735dce93cd0SAchim Leubner } 3736dce93cd0SAchim Leubner 3737dce93cd0SAchim Leubner /* 3738dce93cd0SAchim Leubner * Check to see if the kernel is up and running. If we are in a 3739dce93cd0SAchim Leubner * BlinkLED state, return the BlinkLED code. 3740dce93cd0SAchim Leubner */ 3741dce93cd0SAchim Leubner static u_int32_t 3742dce93cd0SAchim Leubner aac_check_adapter_health(struct aac_softc *sc, u_int8_t *bled) 3743dce93cd0SAchim Leubner { 3744dce93cd0SAchim Leubner u_int32_t ret; 3745dce93cd0SAchim Leubner 3746dce93cd0SAchim Leubner ret = AAC_GET_FWSTATUS(sc); 3747dce93cd0SAchim Leubner 3748dce93cd0SAchim Leubner if (ret & AAC_UP_AND_RUNNING) 3749dce93cd0SAchim Leubner ret = 0; 3750dce93cd0SAchim Leubner else if (ret & AAC_KERNEL_PANIC && bled) 3751dce93cd0SAchim Leubner *bled = (ret >> 16) & 0xff; 3752dce93cd0SAchim Leubner 3753dce93cd0SAchim Leubner return (ret); 3754dce93cd0SAchim Leubner } 3755dce93cd0SAchim Leubner 3756dce93cd0SAchim Leubner /* 3757dce93cd0SAchim Leubner * Once do an IOP reset, basically have to re-initialize the card as 3758dce93cd0SAchim Leubner * if coming up from a cold boot, and the driver is responsible for 3759dce93cd0SAchim Leubner * any IO that was outstanding to the adapter at the time of the IOP 3760dce93cd0SAchim Leubner * RESET. And prepare the driver for IOP RESET by making the init code 3761dce93cd0SAchim Leubner * modular with the ability to call it from multiple places. 3762dce93cd0SAchim Leubner */ 3763dce93cd0SAchim Leubner static int 3764dce93cd0SAchim Leubner aac_reset_adapter(struct aac_softc *sc) 3765dce93cd0SAchim Leubner { 3766dce93cd0SAchim Leubner struct aac_command *cm; 3767dce93cd0SAchim Leubner struct aac_fib *fib; 3768dce93cd0SAchim Leubner struct aac_pause_command *pc; 37693fea9c0dSAchim Leubner u_int32_t status, reset_mask, waitCount, max_msix_orig; 37704f1dfabaSMaxim Sobolev int ret, msi_enabled_orig; 3771dce93cd0SAchim Leubner 3772dce93cd0SAchim Leubner fwprintf(sc, HBA_FLAGS_DBG_FUNCTION_ENTRY_B, ""); 37733fea9c0dSAchim Leubner mtx_assert(&sc->aac_io_lock, MA_OWNED); 3774dce93cd0SAchim Leubner 3775dce93cd0SAchim Leubner if (sc->aac_state & AAC_STATE_RESET) { 3776dce93cd0SAchim Leubner device_printf(sc->aac_dev, "aac_reset_adapter() already in progress\n"); 3777dce93cd0SAchim Leubner return (EINVAL); 3778dce93cd0SAchim Leubner } 3779dce93cd0SAchim Leubner sc->aac_state |= AAC_STATE_RESET; 3780dce93cd0SAchim Leubner 3781dce93cd0SAchim Leubner /* disable interrupt */ 37823fea9c0dSAchim Leubner AAC_ACCESS_DEVREG(sc, AAC_DISABLE_INTERRUPT); 3783dce93cd0SAchim Leubner 3784dce93cd0SAchim Leubner /* 3785dce93cd0SAchim Leubner * Abort all pending commands: 3786dce93cd0SAchim Leubner * a) on the controller 3787dce93cd0SAchim Leubner */ 3788dce93cd0SAchim Leubner while ((cm = aac_dequeue_busy(sc)) != NULL) { 3789dce93cd0SAchim Leubner cm->cm_flags |= AAC_CMD_RESET; 3790dce93cd0SAchim Leubner 3791dce93cd0SAchim Leubner /* is there a completion handler? */ 3792dce93cd0SAchim Leubner if (cm->cm_complete != NULL) { 3793dce93cd0SAchim Leubner cm->cm_complete(cm); 3794dce93cd0SAchim Leubner } else { 3795dce93cd0SAchim Leubner /* assume that someone is sleeping on this 3796dce93cd0SAchim Leubner * command 3797dce93cd0SAchim Leubner */ 3798dce93cd0SAchim Leubner wakeup(cm); 3799dce93cd0SAchim Leubner } 3800dce93cd0SAchim Leubner } 3801dce93cd0SAchim Leubner 3802dce93cd0SAchim Leubner /* b) in the waiting queues */ 3803dce93cd0SAchim Leubner while ((cm = aac_dequeue_ready(sc)) != NULL) { 3804dce93cd0SAchim Leubner cm->cm_flags |= AAC_CMD_RESET; 3805dce93cd0SAchim Leubner 3806dce93cd0SAchim Leubner /* is there a completion handler? */ 3807dce93cd0SAchim Leubner if (cm->cm_complete != NULL) { 3808dce93cd0SAchim Leubner cm->cm_complete(cm); 3809dce93cd0SAchim Leubner } else { 3810dce93cd0SAchim Leubner /* assume that someone is sleeping on this 3811dce93cd0SAchim Leubner * command 3812dce93cd0SAchim Leubner */ 3813dce93cd0SAchim Leubner wakeup(cm); 3814dce93cd0SAchim Leubner } 3815dce93cd0SAchim Leubner } 3816dce93cd0SAchim Leubner 3817dce93cd0SAchim Leubner /* flush drives */ 3818dce93cd0SAchim Leubner if (aac_check_adapter_health(sc, NULL) == 0) { 3819dce93cd0SAchim Leubner mtx_unlock(&sc->aac_io_lock); 3820dce93cd0SAchim Leubner (void) aacraid_shutdown(sc->aac_dev); 3821dce93cd0SAchim Leubner mtx_lock(&sc->aac_io_lock); 3822dce93cd0SAchim Leubner } 3823dce93cd0SAchim Leubner 3824dce93cd0SAchim Leubner /* execute IOP reset */ 3825dce93cd0SAchim Leubner if (sc->aac_support_opt2 & AAC_SUPPORTED_MU_RESET) { 3826dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_IRCSR, AAC_IRCSR_CORES_RST); 3827dce93cd0SAchim Leubner 3828dce93cd0SAchim Leubner /* We need to wait for 5 seconds before accessing the MU again 3829dce93cd0SAchim Leubner * 10000 * 100us = 1000,000us = 1000ms = 1s 3830dce93cd0SAchim Leubner */ 3831dce93cd0SAchim Leubner waitCount = 5 * 10000; 3832dce93cd0SAchim Leubner while (waitCount) { 3833dce93cd0SAchim Leubner DELAY(100); /* delay 100 microseconds */ 3834dce93cd0SAchim Leubner waitCount--; 3835dce93cd0SAchim Leubner } 38364f1dfabaSMaxim Sobolev } else { 38374f1dfabaSMaxim Sobolev ret = aacraid_sync_command(sc, AAC_IOP_RESET_ALWAYS, 38384f1dfabaSMaxim Sobolev 0, 0, 0, 0, &status, &reset_mask); 38394f1dfabaSMaxim Sobolev if (ret && !sc->doorbell_mask) { 3840dce93cd0SAchim Leubner /* call IOP_RESET for older firmware */ 38414f1dfabaSMaxim Sobolev if ((aacraid_sync_command(sc, AAC_IOP_RESET, 0,0,0,0, 38424f1dfabaSMaxim Sobolev &status, NULL)) != 0) { 38434f1dfabaSMaxim Sobolev if (status == AAC_SRB_STS_INVALID_REQUEST) { 38444f1dfabaSMaxim Sobolev device_printf(sc->aac_dev, 38454f1dfabaSMaxim Sobolev "IOP_RESET not supported\n"); 38464f1dfabaSMaxim Sobolev } else { 3847dce93cd0SAchim Leubner /* probably timeout */ 38484f1dfabaSMaxim Sobolev device_printf(sc->aac_dev, 38494f1dfabaSMaxim Sobolev "IOP_RESET failed\n"); 38504f1dfabaSMaxim Sobolev } 3851dce93cd0SAchim Leubner 3852dce93cd0SAchim Leubner /* unwind aac_shutdown() */ 3853dce93cd0SAchim Leubner aac_alloc_sync_fib(sc, &fib); 3854dce93cd0SAchim Leubner pc = (struct aac_pause_command *)&fib->data[0]; 3855dce93cd0SAchim Leubner pc->Command = VM_ContainerConfig; 3856dce93cd0SAchim Leubner pc->Type = CT_PAUSE_IO; 3857dce93cd0SAchim Leubner pc->Timeout = 1; 3858dce93cd0SAchim Leubner pc->Min = 1; 3859dce93cd0SAchim Leubner pc->NoRescan = 1; 3860dce93cd0SAchim Leubner 38614f1dfabaSMaxim Sobolev (void) aac_sync_fib(sc, ContainerCommand, 0, 38624f1dfabaSMaxim Sobolev fib, sizeof (struct aac_pause_command)); 3863dce93cd0SAchim Leubner aac_release_sync_fib(sc); 3864dce93cd0SAchim Leubner 3865dce93cd0SAchim Leubner goto finish; 3866dce93cd0SAchim Leubner } 38674f1dfabaSMaxim Sobolev } else if (sc->doorbell_mask) { 38684f1dfabaSMaxim Sobolev ret = 0; 38694f1dfabaSMaxim Sobolev reset_mask = sc->doorbell_mask; 38704f1dfabaSMaxim Sobolev } 38714f1dfabaSMaxim Sobolev if (!ret && 38724f1dfabaSMaxim Sobolev (sc->aac_support_opt2 & AAC_SUPPORTED_DOORBELL_RESET)) { 3873dce93cd0SAchim Leubner AAC_MEM0_SETREG4(sc, AAC_SRC_IDBR, reset_mask); 38743fea9c0dSAchim Leubner /* 38754f1dfabaSMaxim Sobolev * We need to wait for 5 seconds before accessing the 38764f1dfabaSMaxim Sobolev * doorbell again; 38774f1dfabaSMaxim Sobolev * 10000 * 100us = 1000,000us = 1000ms = 1s 3878dce93cd0SAchim Leubner */ 3879dce93cd0SAchim Leubner waitCount = 5 * 10000; 3880dce93cd0SAchim Leubner while (waitCount) { 3881dce93cd0SAchim Leubner DELAY(100); /* delay 100 microseconds */ 3882dce93cd0SAchim Leubner waitCount--; 3883dce93cd0SAchim Leubner } 3884dce93cd0SAchim Leubner } 38854f1dfabaSMaxim Sobolev } 3886dce93cd0SAchim Leubner 3887dce93cd0SAchim Leubner /* 3888dce93cd0SAchim Leubner * Initialize the adapter. 3889dce93cd0SAchim Leubner */ 38903fea9c0dSAchim Leubner max_msix_orig = sc->aac_max_msix; 38913fea9c0dSAchim Leubner msi_enabled_orig = sc->msi_enabled; 38923fea9c0dSAchim Leubner sc->msi_enabled = FALSE; 3893dce93cd0SAchim Leubner if (aac_check_firmware(sc) != 0) 3894dce93cd0SAchim Leubner goto finish; 3895dce93cd0SAchim Leubner if (!(sc->flags & AAC_FLAGS_SYNC_MODE)) { 38963fea9c0dSAchim Leubner sc->aac_max_msix = max_msix_orig; 38973fea9c0dSAchim Leubner if (msi_enabled_orig) { 38983fea9c0dSAchim Leubner sc->msi_enabled = msi_enabled_orig; 38993fea9c0dSAchim Leubner AAC_ACCESS_DEVREG(sc, AAC_ENABLE_MSIX); 39003fea9c0dSAchim Leubner } 39013fea9c0dSAchim Leubner mtx_unlock(&sc->aac_io_lock); 39023fea9c0dSAchim Leubner aac_init(sc); 39033fea9c0dSAchim Leubner mtx_lock(&sc->aac_io_lock); 3904dce93cd0SAchim Leubner } 3905dce93cd0SAchim Leubner 3906dce93cd0SAchim Leubner finish: 3907dce93cd0SAchim Leubner sc->aac_state &= ~AAC_STATE_RESET; 39083fea9c0dSAchim Leubner AAC_ACCESS_DEVREG(sc, AAC_ENABLE_INTERRUPT); 3909dce93cd0SAchim Leubner aacraid_startio(sc); 3910dce93cd0SAchim Leubner return (0); 3911dce93cd0SAchim Leubner } 3912