1991554f2SKenneth D. Merry /*- 2991554f2SKenneth D. Merry * Copyright (c) 2009 Yahoo! Inc. 3a2c14879SStephen McConnell * Copyright (c) 2011-2015 LSI Corp. 47a2a6a1aSStephen McConnell * Copyright (c) 2013-2016 Avago Technologies 5991554f2SKenneth D. Merry * All rights reserved. 6991554f2SKenneth D. Merry * 7991554f2SKenneth D. Merry * Redistribution and use in source and binary forms, with or without 8991554f2SKenneth D. Merry * modification, are permitted provided that the following conditions 9991554f2SKenneth D. Merry * are met: 10991554f2SKenneth D. Merry * 1. Redistributions of source code must retain the above copyright 11991554f2SKenneth D. Merry * notice, this list of conditions and the following disclaimer. 12991554f2SKenneth D. Merry * 2. Redistributions in binary form must reproduce the above copyright 13991554f2SKenneth D. Merry * notice, this list of conditions and the following disclaimer in the 14991554f2SKenneth D. Merry * documentation and/or other materials provided with the distribution. 15991554f2SKenneth D. Merry * 16991554f2SKenneth D. Merry * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 17991554f2SKenneth D. Merry * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 18991554f2SKenneth D. Merry * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 19991554f2SKenneth D. Merry * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 20991554f2SKenneth D. Merry * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 21991554f2SKenneth D. Merry * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 22991554f2SKenneth D. Merry * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 23991554f2SKenneth D. Merry * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 24991554f2SKenneth D. Merry * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 25991554f2SKenneth D. Merry * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 26991554f2SKenneth D. Merry * SUCH DAMAGE. 27991554f2SKenneth D. Merry * 28a2c14879SStephen McConnell * Avago Technologies (LSI) MPT-Fusion Host Adapter FreeBSD 29a2c14879SStephen McConnell * 30991554f2SKenneth D. Merry */ 31991554f2SKenneth D. Merry 32991554f2SKenneth D. Merry #include <sys/cdefs.h> 33991554f2SKenneth D. Merry __FBSDID("$FreeBSD$"); 34991554f2SKenneth D. Merry 35a2c14879SStephen McConnell /* Communications core for Avago Technologies (LSI) MPT3 */ 36991554f2SKenneth D. Merry 37991554f2SKenneth D. Merry /* TODO Move headers to mprvar */ 38991554f2SKenneth D. Merry #include <sys/types.h> 39991554f2SKenneth D. Merry #include <sys/param.h> 40991554f2SKenneth D. Merry #include <sys/systm.h> 41991554f2SKenneth D. Merry #include <sys/kernel.h> 42991554f2SKenneth D. Merry #include <sys/selinfo.h> 43991554f2SKenneth D. Merry #include <sys/lock.h> 44991554f2SKenneth D. Merry #include <sys/mutex.h> 45991554f2SKenneth D. Merry #include <sys/module.h> 46991554f2SKenneth D. Merry #include <sys/bus.h> 47991554f2SKenneth D. Merry #include <sys/conf.h> 48991554f2SKenneth D. Merry #include <sys/bio.h> 49991554f2SKenneth D. Merry #include <sys/malloc.h> 50991554f2SKenneth D. Merry #include <sys/uio.h> 51991554f2SKenneth D. Merry #include <sys/sysctl.h> 52bec09074SScott Long #include <sys/smp.h> 53991554f2SKenneth D. Merry #include <sys/queue.h> 54991554f2SKenneth D. Merry #include <sys/kthread.h> 55991554f2SKenneth D. Merry #include <sys/taskqueue.h> 56991554f2SKenneth D. Merry #include <sys/endian.h> 57991554f2SKenneth D. Merry #include <sys/eventhandler.h> 58867aa8cdSScott Long #include <sys/sbuf.h> 59991554f2SKenneth D. Merry 60991554f2SKenneth D. Merry #include <machine/bus.h> 61991554f2SKenneth D. Merry #include <machine/resource.h> 62991554f2SKenneth D. Merry #include <sys/rman.h> 63991554f2SKenneth D. Merry #include <sys/proc.h> 64991554f2SKenneth D. Merry 65991554f2SKenneth D. Merry #include <dev/pci/pcivar.h> 66991554f2SKenneth D. Merry 67991554f2SKenneth D. Merry #include <cam/cam.h> 6867feec50SStephen McConnell #include <cam/cam_ccb.h> 69991554f2SKenneth D. Merry #include <cam/scsi/scsi_all.h> 70991554f2SKenneth D. Merry 71991554f2SKenneth D. Merry #include <dev/mpr/mpi/mpi2_type.h> 72991554f2SKenneth D. Merry #include <dev/mpr/mpi/mpi2.h> 73991554f2SKenneth D. Merry #include <dev/mpr/mpi/mpi2_ioc.h> 74991554f2SKenneth D. Merry #include <dev/mpr/mpi/mpi2_sas.h> 7567feec50SStephen McConnell #include <dev/mpr/mpi/mpi2_pci.h> 76991554f2SKenneth D. Merry #include <dev/mpr/mpi/mpi2_cnfg.h> 77991554f2SKenneth D. Merry #include <dev/mpr/mpi/mpi2_init.h> 78991554f2SKenneth D. Merry #include <dev/mpr/mpi/mpi2_tool.h> 79991554f2SKenneth D. Merry #include <dev/mpr/mpr_ioctl.h> 80991554f2SKenneth D. Merry #include <dev/mpr/mprvar.h> 81991554f2SKenneth D. Merry #include <dev/mpr/mpr_table.h> 8267feec50SStephen McConnell #include <dev/mpr/mpr_sas.h> 83991554f2SKenneth D. Merry 84991554f2SKenneth D. Merry static int mpr_diag_reset(struct mpr_softc *sc, int sleep_flag); 85991554f2SKenneth D. Merry static int mpr_init_queues(struct mpr_softc *sc); 863c5ac992SScott Long static void mpr_resize_queues(struct mpr_softc *sc); 87991554f2SKenneth D. Merry static int mpr_message_unit_reset(struct mpr_softc *sc, int sleep_flag); 88991554f2SKenneth D. Merry static int mpr_transition_operational(struct mpr_softc *sc); 89991554f2SKenneth D. Merry static int mpr_iocfacts_allocate(struct mpr_softc *sc, uint8_t attaching); 90991554f2SKenneth D. Merry static void mpr_iocfacts_free(struct mpr_softc *sc); 91991554f2SKenneth D. Merry static void mpr_startup(void *arg); 92991554f2SKenneth D. Merry static int mpr_send_iocinit(struct mpr_softc *sc); 93991554f2SKenneth D. Merry static int mpr_alloc_queues(struct mpr_softc *sc); 941415db6cSScott Long static int mpr_alloc_hw_queues(struct mpr_softc *sc); 95991554f2SKenneth D. Merry static int mpr_alloc_replies(struct mpr_softc *sc); 96991554f2SKenneth D. Merry static int mpr_alloc_requests(struct mpr_softc *sc); 9767feec50SStephen McConnell static int mpr_alloc_nvme_prp_pages(struct mpr_softc *sc); 98991554f2SKenneth D. Merry static int mpr_attach_log(struct mpr_softc *sc); 99991554f2SKenneth D. Merry static __inline void mpr_complete_command(struct mpr_softc *sc, 100991554f2SKenneth D. Merry struct mpr_command *cm); 101991554f2SKenneth D. Merry static void mpr_dispatch_event(struct mpr_softc *sc, uintptr_t data, 102991554f2SKenneth D. Merry MPI2_EVENT_NOTIFICATION_REPLY *reply); 1037a2a6a1aSStephen McConnell static void mpr_config_complete(struct mpr_softc *sc, struct mpr_command *cm); 104991554f2SKenneth D. Merry static void mpr_periodic(void *); 105991554f2SKenneth D. Merry static int mpr_reregister_events(struct mpr_softc *sc); 1067a2a6a1aSStephen McConnell static void mpr_enqueue_request(struct mpr_softc *sc, struct mpr_command *cm); 1077a2a6a1aSStephen McConnell static int mpr_get_iocfacts(struct mpr_softc *sc, MPI2_IOC_FACTS_REPLY *facts); 108991554f2SKenneth D. Merry static int mpr_wait_db_ack(struct mpr_softc *sc, int timeout, int sleep_flag); 109867aa8cdSScott Long static int mpr_debug_sysctl(SYSCTL_HANDLER_ARGS); 110867aa8cdSScott Long static void mpr_parse_debug(struct mpr_softc *sc, char *list); 111867aa8cdSScott Long 112991554f2SKenneth D. Merry SYSCTL_NODE(_hw, OID_AUTO, mpr, CTLFLAG_RD, 0, "MPR Driver Parameters"); 113991554f2SKenneth D. Merry 114991554f2SKenneth D. Merry MALLOC_DEFINE(M_MPR, "mpr", "mpr driver memory"); 115991554f2SKenneth D. Merry 116991554f2SKenneth D. Merry /* 117991554f2SKenneth D. Merry * Do a "Diagnostic Reset" aka a hard reset. This should get the chip out of 118991554f2SKenneth D. Merry * any state and back to its initialization state machine. 119991554f2SKenneth D. Merry */ 120991554f2SKenneth D. Merry static char mpt2_reset_magic[] = { 0x00, 0x0f, 0x04, 0x0b, 0x02, 0x07, 0x0d }; 121991554f2SKenneth D. Merry 122991554f2SKenneth D. Merry /* 123991554f2SKenneth D. Merry * Added this union to smoothly convert le64toh cm->cm_desc.Words. 12467feec50SStephen McConnell * Compiler only supports uint64_t to be passed as an argument. 125757ff642SScott Long * Otherwise it will throw this error: 126991554f2SKenneth D. Merry * "aggregate value used where an integer was expected" 127991554f2SKenneth D. Merry */ 128991554f2SKenneth D. Merry typedef union _reply_descriptor { 129991554f2SKenneth D. Merry u64 word; 130991554f2SKenneth D. Merry struct { 131991554f2SKenneth D. Merry u32 low; 132991554f2SKenneth D. Merry u32 high; 133991554f2SKenneth D. Merry } u; 13467feec50SStephen McConnell } reply_descriptor, request_descriptor; 135991554f2SKenneth D. Merry 136991554f2SKenneth D. Merry /* Rate limit chain-fail messages to 1 per minute */ 137991554f2SKenneth D. Merry static struct timeval mpr_chainfail_interval = { 60, 0 }; 138991554f2SKenneth D. Merry 139991554f2SKenneth D. Merry /* 140991554f2SKenneth D. Merry * sleep_flag can be either CAN_SLEEP or NO_SLEEP. 141991554f2SKenneth D. Merry * If this function is called from process context, it can sleep 142991554f2SKenneth D. Merry * and there is no harm to sleep, in case if this fuction is called 143991554f2SKenneth D. Merry * from Interrupt handler, we can not sleep and need NO_SLEEP flag set. 144991554f2SKenneth D. Merry * based on sleep flags driver will call either msleep, pause or DELAY. 145991554f2SKenneth D. Merry * msleep and pause are of same variant, but pause is used when mpr_mtx 146991554f2SKenneth D. Merry * is not hold by driver. 147991554f2SKenneth D. Merry */ 148991554f2SKenneth D. Merry static int 149991554f2SKenneth D. Merry mpr_diag_reset(struct mpr_softc *sc,int sleep_flag) 150991554f2SKenneth D. Merry { 151991554f2SKenneth D. Merry uint32_t reg; 152991554f2SKenneth D. Merry int i, error, tries = 0; 153991554f2SKenneth D. Merry uint8_t first_wait_done = FALSE; 154991554f2SKenneth D. Merry 155757ff642SScott Long mpr_dprint(sc, MPR_INIT, "%s entered\n", __func__); 156991554f2SKenneth D. Merry 157991554f2SKenneth D. Merry /* Clear any pending interrupts */ 158991554f2SKenneth D. Merry mpr_regwrite(sc, MPI2_HOST_INTERRUPT_STATUS_OFFSET, 0x0); 159991554f2SKenneth D. Merry 160991554f2SKenneth D. Merry /* 161991554f2SKenneth D. Merry * Force NO_SLEEP for threads prohibited to sleep 162991554f2SKenneth D. Merry * e.a Thread from interrupt handler are prohibited to sleep. 163991554f2SKenneth D. Merry */ 164991554f2SKenneth D. Merry #if __FreeBSD_version >= 1000029 165991554f2SKenneth D. Merry if (curthread->td_no_sleeping) 166991554f2SKenneth D. Merry #else //__FreeBSD_version < 1000029 167991554f2SKenneth D. Merry if (curthread->td_pflags & TDP_NOSLEEPING) 168991554f2SKenneth D. Merry #endif //__FreeBSD_version >= 1000029 169991554f2SKenneth D. Merry sleep_flag = NO_SLEEP; 170991554f2SKenneth D. Merry 171757ff642SScott Long mpr_dprint(sc, MPR_INIT, "sequence start, sleep_flag=%d\n", sleep_flag); 172991554f2SKenneth D. Merry /* Push the magic sequence */ 173991554f2SKenneth D. Merry error = ETIMEDOUT; 174991554f2SKenneth D. Merry while (tries++ < 20) { 175991554f2SKenneth D. Merry for (i = 0; i < sizeof(mpt2_reset_magic); i++) 176991554f2SKenneth D. Merry mpr_regwrite(sc, MPI2_WRITE_SEQUENCE_OFFSET, 177991554f2SKenneth D. Merry mpt2_reset_magic[i]); 178991554f2SKenneth D. Merry 179991554f2SKenneth D. Merry /* wait 100 msec */ 180991554f2SKenneth D. Merry if (mtx_owned(&sc->mpr_mtx) && sleep_flag == CAN_SLEEP) 181991554f2SKenneth D. Merry msleep(&sc->msleep_fake_chan, &sc->mpr_mtx, 0, 182991554f2SKenneth D. Merry "mprdiag", hz/10); 183991554f2SKenneth D. Merry else if (sleep_flag == CAN_SLEEP) 184991554f2SKenneth D. Merry pause("mprdiag", hz/10); 185991554f2SKenneth D. Merry else 186991554f2SKenneth D. Merry DELAY(100 * 1000); 187991554f2SKenneth D. Merry 188991554f2SKenneth D. Merry reg = mpr_regread(sc, MPI2_HOST_DIAGNOSTIC_OFFSET); 189991554f2SKenneth D. Merry if (reg & MPI2_DIAG_DIAG_WRITE_ENABLE) { 190991554f2SKenneth D. Merry error = 0; 191991554f2SKenneth D. Merry break; 192991554f2SKenneth D. Merry } 193991554f2SKenneth D. Merry } 194757ff642SScott Long if (error) { 195757ff642SScott Long mpr_dprint(sc, MPR_INIT, "sequence failed, error=%d, exit\n", 196757ff642SScott Long error); 197991554f2SKenneth D. Merry return (error); 198757ff642SScott Long } 199991554f2SKenneth D. Merry 200991554f2SKenneth D. Merry /* Send the actual reset. XXX need to refresh the reg? */ 201757ff642SScott Long reg |= MPI2_DIAG_RESET_ADAPTER; 202757ff642SScott Long mpr_dprint(sc, MPR_INIT, "sequence success, sending reset, reg= 0x%x\n", 203757ff642SScott Long reg); 204757ff642SScott Long mpr_regwrite(sc, MPI2_HOST_DIAGNOSTIC_OFFSET, reg); 205991554f2SKenneth D. Merry 206991554f2SKenneth D. Merry /* Wait up to 300 seconds in 50ms intervals */ 207991554f2SKenneth D. Merry error = ETIMEDOUT; 208991554f2SKenneth D. Merry for (i = 0; i < 6000; i++) { 209991554f2SKenneth D. Merry /* 210991554f2SKenneth D. Merry * Wait 50 msec. If this is the first time through, wait 256 211991554f2SKenneth D. Merry * msec to satisfy Diag Reset timing requirements. 212991554f2SKenneth D. Merry */ 213991554f2SKenneth D. Merry if (first_wait_done) { 214991554f2SKenneth D. Merry if (mtx_owned(&sc->mpr_mtx) && sleep_flag == CAN_SLEEP) 215991554f2SKenneth D. Merry msleep(&sc->msleep_fake_chan, &sc->mpr_mtx, 0, 216991554f2SKenneth D. Merry "mprdiag", hz/20); 217991554f2SKenneth D. Merry else if (sleep_flag == CAN_SLEEP) 218991554f2SKenneth D. Merry pause("mprdiag", hz/20); 219991554f2SKenneth D. Merry else 220991554f2SKenneth D. Merry DELAY(50 * 1000); 221991554f2SKenneth D. Merry } else { 222991554f2SKenneth D. Merry DELAY(256 * 1000); 223991554f2SKenneth D. Merry first_wait_done = TRUE; 224991554f2SKenneth D. Merry } 225991554f2SKenneth D. Merry /* 226991554f2SKenneth D. Merry * Check for the RESET_ADAPTER bit to be cleared first, then 227991554f2SKenneth D. Merry * wait for the RESET state to be cleared, which takes a little 228991554f2SKenneth D. Merry * longer. 229991554f2SKenneth D. Merry */ 230991554f2SKenneth D. Merry reg = mpr_regread(sc, MPI2_HOST_DIAGNOSTIC_OFFSET); 231991554f2SKenneth D. Merry if (reg & MPI2_DIAG_RESET_ADAPTER) { 232991554f2SKenneth D. Merry continue; 233991554f2SKenneth D. Merry } 234991554f2SKenneth D. Merry reg = mpr_regread(sc, MPI2_DOORBELL_OFFSET); 235991554f2SKenneth D. Merry if ((reg & MPI2_IOC_STATE_MASK) != MPI2_IOC_STATE_RESET) { 236991554f2SKenneth D. Merry error = 0; 237991554f2SKenneth D. Merry break; 238991554f2SKenneth D. Merry } 239991554f2SKenneth D. Merry } 240757ff642SScott Long if (error) { 241757ff642SScott Long mpr_dprint(sc, MPR_INIT, "reset failed, error= %d, exit\n", 242757ff642SScott Long error); 243991554f2SKenneth D. Merry return (error); 244757ff642SScott Long } 245991554f2SKenneth D. Merry 246991554f2SKenneth D. Merry mpr_regwrite(sc, MPI2_WRITE_SEQUENCE_OFFSET, 0x0); 247757ff642SScott Long mpr_dprint(sc, MPR_INIT, "diag reset success, exit\n"); 248991554f2SKenneth D. Merry 249991554f2SKenneth D. Merry return (0); 250991554f2SKenneth D. Merry } 251991554f2SKenneth D. Merry 252991554f2SKenneth D. Merry static int 253991554f2SKenneth D. Merry mpr_message_unit_reset(struct mpr_softc *sc, int sleep_flag) 254991554f2SKenneth D. Merry { 255757ff642SScott Long int error; 256991554f2SKenneth D. Merry 257991554f2SKenneth D. Merry MPR_FUNCTRACE(sc); 258991554f2SKenneth D. Merry 259757ff642SScott Long mpr_dprint(sc, MPR_INIT, "%s entered\n", __func__); 260757ff642SScott Long 261757ff642SScott Long error = 0; 262991554f2SKenneth D. Merry mpr_regwrite(sc, MPI2_DOORBELL_OFFSET, 263991554f2SKenneth D. Merry MPI2_FUNCTION_IOC_MESSAGE_UNIT_RESET << 264991554f2SKenneth D. Merry MPI2_DOORBELL_FUNCTION_SHIFT); 265991554f2SKenneth D. Merry 266991554f2SKenneth D. Merry if (mpr_wait_db_ack(sc, 5, sleep_flag) != 0) { 267757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_FAULT, 268757ff642SScott Long "Doorbell handshake failed\n"); 269757ff642SScott Long error = ETIMEDOUT; 270991554f2SKenneth D. Merry } 271991554f2SKenneth D. Merry 272757ff642SScott Long mpr_dprint(sc, MPR_INIT, "%s exit\n", __func__); 273757ff642SScott Long return (error); 274991554f2SKenneth D. Merry } 275991554f2SKenneth D. Merry 276991554f2SKenneth D. Merry static int 277991554f2SKenneth D. Merry mpr_transition_ready(struct mpr_softc *sc) 278991554f2SKenneth D. Merry { 279991554f2SKenneth D. Merry uint32_t reg, state; 280991554f2SKenneth D. Merry int error, tries = 0; 281991554f2SKenneth D. Merry int sleep_flags; 282991554f2SKenneth D. Merry 283991554f2SKenneth D. Merry MPR_FUNCTRACE(sc); 284991554f2SKenneth D. Merry /* If we are in attach call, do not sleep */ 285991554f2SKenneth D. Merry sleep_flags = (sc->mpr_flags & MPR_FLAGS_ATTACH_DONE) 286991554f2SKenneth D. Merry ? CAN_SLEEP : NO_SLEEP; 287991554f2SKenneth D. Merry 288991554f2SKenneth D. Merry error = 0; 289757ff642SScott Long 290757ff642SScott Long mpr_dprint(sc, MPR_INIT, "%s entered, sleep_flags= %d\n", 291757ff642SScott Long __func__, sleep_flags); 292757ff642SScott Long 293991554f2SKenneth D. Merry while (tries++ < 1200) { 294991554f2SKenneth D. Merry reg = mpr_regread(sc, MPI2_DOORBELL_OFFSET); 295991554f2SKenneth D. Merry mpr_dprint(sc, MPR_INIT, " Doorbell= 0x%x\n", reg); 296991554f2SKenneth D. Merry 297991554f2SKenneth D. Merry /* 298991554f2SKenneth D. Merry * Ensure the IOC is ready to talk. If it's not, try 299991554f2SKenneth D. Merry * resetting it. 300991554f2SKenneth D. Merry */ 301991554f2SKenneth D. Merry if (reg & MPI2_DOORBELL_USED) { 302757ff642SScott Long mpr_dprint(sc, MPR_INIT, " Not ready, sending diag " 303757ff642SScott Long "reset\n"); 304991554f2SKenneth D. Merry mpr_diag_reset(sc, sleep_flags); 305991554f2SKenneth D. Merry DELAY(50000); 306991554f2SKenneth D. Merry continue; 307991554f2SKenneth D. Merry } 308991554f2SKenneth D. Merry 309991554f2SKenneth D. Merry /* Is the adapter owned by another peer? */ 310991554f2SKenneth D. Merry if ((reg & MPI2_DOORBELL_WHO_INIT_MASK) == 311991554f2SKenneth D. Merry (MPI2_WHOINIT_PCI_PEER << MPI2_DOORBELL_WHO_INIT_SHIFT)) { 312757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_FAULT, "IOC is under the " 313757ff642SScott Long "control of another peer host, aborting " 314757ff642SScott Long "initialization.\n"); 315757ff642SScott Long error = ENXIO; 316757ff642SScott Long break; 317991554f2SKenneth D. Merry } 318991554f2SKenneth D. Merry 319991554f2SKenneth D. Merry state = reg & MPI2_IOC_STATE_MASK; 320991554f2SKenneth D. Merry if (state == MPI2_IOC_STATE_READY) { 321991554f2SKenneth D. Merry /* Ready to go! */ 322991554f2SKenneth D. Merry error = 0; 323991554f2SKenneth D. Merry break; 324991554f2SKenneth D. Merry } else if (state == MPI2_IOC_STATE_FAULT) { 325757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_FAULT, "IOC in fault " 326757ff642SScott Long "state 0x%x, resetting\n", 327991554f2SKenneth D. Merry state & MPI2_DOORBELL_FAULT_CODE_MASK); 328991554f2SKenneth D. Merry mpr_diag_reset(sc, sleep_flags); 329991554f2SKenneth D. Merry } else if (state == MPI2_IOC_STATE_OPERATIONAL) { 330991554f2SKenneth D. Merry /* Need to take ownership */ 331991554f2SKenneth D. Merry mpr_message_unit_reset(sc, sleep_flags); 332991554f2SKenneth D. Merry } else if (state == MPI2_IOC_STATE_RESET) { 333991554f2SKenneth D. Merry /* Wait a bit, IOC might be in transition */ 334757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_FAULT, 335991554f2SKenneth D. Merry "IOC in unexpected reset state\n"); 336991554f2SKenneth D. Merry } else { 337757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_FAULT, 338991554f2SKenneth D. Merry "IOC in unknown state 0x%x\n", state); 339991554f2SKenneth D. Merry error = EINVAL; 340991554f2SKenneth D. Merry break; 341991554f2SKenneth D. Merry } 342991554f2SKenneth D. Merry 343991554f2SKenneth D. Merry /* Wait 50ms for things to settle down. */ 344991554f2SKenneth D. Merry DELAY(50000); 345991554f2SKenneth D. Merry } 346991554f2SKenneth D. Merry 347991554f2SKenneth D. Merry if (error) 348757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_FAULT, 349757ff642SScott Long "Cannot transition IOC to ready\n"); 350757ff642SScott Long mpr_dprint(sc, MPR_INIT, "%s exit\n", __func__); 351991554f2SKenneth D. Merry return (error); 352991554f2SKenneth D. Merry } 353991554f2SKenneth D. Merry 354991554f2SKenneth D. Merry static int 355991554f2SKenneth D. Merry mpr_transition_operational(struct mpr_softc *sc) 356991554f2SKenneth D. Merry { 357991554f2SKenneth D. Merry uint32_t reg, state; 358991554f2SKenneth D. Merry int error; 359991554f2SKenneth D. Merry 360991554f2SKenneth D. Merry MPR_FUNCTRACE(sc); 361991554f2SKenneth D. Merry 362991554f2SKenneth D. Merry error = 0; 363991554f2SKenneth D. Merry reg = mpr_regread(sc, MPI2_DOORBELL_OFFSET); 364757ff642SScott Long mpr_dprint(sc, MPR_INIT, "%s entered, Doorbell= 0x%x\n", __func__, reg); 365991554f2SKenneth D. Merry 366991554f2SKenneth D. Merry state = reg & MPI2_IOC_STATE_MASK; 367991554f2SKenneth D. Merry if (state != MPI2_IOC_STATE_READY) { 368757ff642SScott Long mpr_dprint(sc, MPR_INIT, "IOC not ready\n"); 369991554f2SKenneth D. Merry if ((error = mpr_transition_ready(sc)) != 0) { 370757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_FAULT, 371757ff642SScott Long "failed to transition ready, exit\n"); 372991554f2SKenneth D. Merry return (error); 373991554f2SKenneth D. Merry } 374991554f2SKenneth D. Merry } 375991554f2SKenneth D. Merry 376991554f2SKenneth D. Merry error = mpr_send_iocinit(sc); 377757ff642SScott Long mpr_dprint(sc, MPR_INIT, "%s exit\n", __func__); 378757ff642SScott Long 379991554f2SKenneth D. Merry return (error); 380991554f2SKenneth D. Merry } 381991554f2SKenneth D. Merry 3823c5ac992SScott Long static void 3833c5ac992SScott Long mpr_resize_queues(struct mpr_softc *sc) 3843c5ac992SScott Long { 385*731308d0SAlexander Motin u_int reqcr, prireqcr, maxio, sges_per_frame, chain_seg_size; 3863c5ac992SScott Long 3873c5ac992SScott Long /* 3883c5ac992SScott Long * Size the queues. Since the reply queues always need one free 3893c5ac992SScott Long * entry, we'll deduct one reply message here. The LSI documents 3903c5ac992SScott Long * suggest instead to add a count to the request queue, but I think 3913c5ac992SScott Long * that it's better to deduct from reply queue. 3923c5ac992SScott Long */ 3933c5ac992SScott Long prireqcr = MAX(1, sc->max_prireqframes); 3943c5ac992SScott Long prireqcr = MIN(prireqcr, sc->facts->HighPriorityCredit); 3953c5ac992SScott Long 3963c5ac992SScott Long reqcr = MAX(2, sc->max_reqframes); 3973c5ac992SScott Long reqcr = MIN(reqcr, sc->facts->RequestCredit); 3983c5ac992SScott Long 3993c5ac992SScott Long sc->num_reqs = prireqcr + reqcr; 40062a09ee9SAlexander Motin sc->num_prireqs = prireqcr; 4013c5ac992SScott Long sc->num_replies = MIN(sc->max_replyframes + sc->max_evtframes, 4023c5ac992SScott Long sc->facts->MaxReplyDescriptorPostQueueDepth) - 1; 4033c5ac992SScott Long 4044f5d6573SAlexander Motin /* Store the request frame size in bytes rather than as 32bit words */ 4054f5d6573SAlexander Motin sc->reqframesz = sc->facts->IOCRequestFrameSize * 4; 4064f5d6573SAlexander Motin 4074f5d6573SAlexander Motin /* 4084f5d6573SAlexander Motin * Gen3 and beyond uses the IOCMaxChainSegmentSize from IOC Facts to 4094f5d6573SAlexander Motin * get the size of a Chain Frame. Previous versions use the size as a 4104f5d6573SAlexander Motin * Request Frame for the Chain Frame size. If IOCMaxChainSegmentSize 4114f5d6573SAlexander Motin * is 0, use the default value. The IOCMaxChainSegmentSize is the 4124f5d6573SAlexander Motin * number of 16-byte elelements that can fit in a Chain Frame, which is 4134f5d6573SAlexander Motin * the size of an IEEE Simple SGE. 4144f5d6573SAlexander Motin */ 4154f5d6573SAlexander Motin if (sc->facts->MsgVersion >= MPI2_VERSION_02_05) { 416*731308d0SAlexander Motin chain_seg_size = htole16(sc->facts->IOCMaxChainSegmentSize); 417*731308d0SAlexander Motin if (chain_seg_size == 0) 418*731308d0SAlexander Motin chain_seg_size = MPR_DEFAULT_CHAIN_SEG_SIZE; 419*731308d0SAlexander Motin sc->chain_frame_size = chain_seg_size * 4204f5d6573SAlexander Motin MPR_MAX_CHAIN_ELEMENT_SIZE; 4214f5d6573SAlexander Motin } else { 4224f5d6573SAlexander Motin sc->chain_frame_size = sc->reqframesz; 4234f5d6573SAlexander Motin } 4244f5d6573SAlexander Motin 4254f5d6573SAlexander Motin /* 4264f5d6573SAlexander Motin * Max IO Size is Page Size * the following: 4274f5d6573SAlexander Motin * ((SGEs per frame - 1 for chain element) * Max Chain Depth) 4284f5d6573SAlexander Motin * + 1 for no chain needed in last frame 4294f5d6573SAlexander Motin * 4304f5d6573SAlexander Motin * If user suggests a Max IO size to use, use the smaller of the 4314f5d6573SAlexander Motin * user's value and the calculated value as long as the user's 4324f5d6573SAlexander Motin * value is larger than 0. The user's value is in pages. 4334f5d6573SAlexander Motin */ 4344f5d6573SAlexander Motin sges_per_frame = sc->chain_frame_size/sizeof(MPI2_IEEE_SGE_SIMPLE64)-1; 4354f5d6573SAlexander Motin maxio = (sges_per_frame * sc->facts->MaxChainDepth + 1) * PAGE_SIZE; 4364f5d6573SAlexander Motin 4374f5d6573SAlexander Motin /* 4384f5d6573SAlexander Motin * If I/O size limitation requested then use it and pass up to CAM. 4394f5d6573SAlexander Motin * If not, use MAXPHYS as an optimization hint, but report HW limit. 4404f5d6573SAlexander Motin */ 4414f5d6573SAlexander Motin if (sc->max_io_pages > 0) { 4424f5d6573SAlexander Motin maxio = min(maxio, sc->max_io_pages * PAGE_SIZE); 4434f5d6573SAlexander Motin sc->maxio = maxio; 4444f5d6573SAlexander Motin } else { 4454f5d6573SAlexander Motin sc->maxio = maxio; 4464f5d6573SAlexander Motin maxio = min(maxio, MAXPHYS); 4474f5d6573SAlexander Motin } 4484f5d6573SAlexander Motin 4494f5d6573SAlexander Motin sc->num_chains = (maxio / PAGE_SIZE + sges_per_frame - 2) / 4504f5d6573SAlexander Motin sges_per_frame * reqcr; 4514f5d6573SAlexander Motin if (sc->max_chains > 0 && sc->max_chains < sc->num_chains) 4524f5d6573SAlexander Motin sc->num_chains = sc->max_chains; 4534f5d6573SAlexander Motin 4543c5ac992SScott Long /* 4553c5ac992SScott Long * Figure out the number of MSIx-based queues. If the firmware or 4563c5ac992SScott Long * user has done something crazy and not allowed enough credit for 4573c5ac992SScott Long * the queues to be useful then don't enable multi-queue. 4583c5ac992SScott Long */ 4593c5ac992SScott Long if (sc->facts->MaxMSIxVectors < 2) 4603c5ac992SScott Long sc->msi_msgs = 1; 4613c5ac992SScott Long 4623c5ac992SScott Long if (sc->msi_msgs > 1) { 4633c5ac992SScott Long sc->msi_msgs = MIN(sc->msi_msgs, mp_ncpus); 4643c5ac992SScott Long sc->msi_msgs = MIN(sc->msi_msgs, sc->facts->MaxMSIxVectors); 4653c5ac992SScott Long if (sc->num_reqs / sc->msi_msgs < 2) 4663c5ac992SScott Long sc->msi_msgs = 1; 4673c5ac992SScott Long } 4683c5ac992SScott Long 4693c5ac992SScott Long mpr_dprint(sc, MPR_INIT, "Sized queues to q=%d reqs=%d replies=%d\n", 4703c5ac992SScott Long sc->msi_msgs, sc->num_reqs, sc->num_replies); 4713c5ac992SScott Long } 4723c5ac992SScott Long 473991554f2SKenneth D. Merry /* 474991554f2SKenneth D. Merry * This is called during attach and when re-initializing due to a Diag Reset. 475991554f2SKenneth D. Merry * IOC Facts is used to allocate many of the structures needed by the driver. 476991554f2SKenneth D. Merry * If called from attach, de-allocation is not required because the driver has 477991554f2SKenneth D. Merry * not allocated any structures yet, but if called from a Diag Reset, previously 478991554f2SKenneth D. Merry * allocated structures based on IOC Facts will need to be freed and re- 479991554f2SKenneth D. Merry * allocated bases on the latest IOC Facts. 480991554f2SKenneth D. Merry */ 481991554f2SKenneth D. Merry static int 482991554f2SKenneth D. Merry mpr_iocfacts_allocate(struct mpr_softc *sc, uint8_t attaching) 483991554f2SKenneth D. Merry { 484a2c14879SStephen McConnell int error; 485991554f2SKenneth D. Merry Mpi2IOCFactsReply_t saved_facts; 486991554f2SKenneth D. Merry uint8_t saved_mode, reallocating; 487991554f2SKenneth D. Merry 488757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_TRACE, "%s entered\n", __func__); 489991554f2SKenneth D. Merry 490991554f2SKenneth D. Merry /* Save old IOC Facts and then only reallocate if Facts have changed */ 491991554f2SKenneth D. Merry if (!attaching) { 492991554f2SKenneth D. Merry bcopy(sc->facts, &saved_facts, sizeof(MPI2_IOC_FACTS_REPLY)); 493991554f2SKenneth D. Merry } 494991554f2SKenneth D. Merry 495991554f2SKenneth D. Merry /* 496991554f2SKenneth D. Merry * Get IOC Facts. In all cases throughout this function, panic if doing 497991554f2SKenneth D. Merry * a re-initialization and only return the error if attaching so the OS 498991554f2SKenneth D. Merry * can handle it. 499991554f2SKenneth D. Merry */ 500991554f2SKenneth D. Merry if ((error = mpr_get_iocfacts(sc, sc->facts)) != 0) { 501991554f2SKenneth D. Merry if (attaching) { 502757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_FAULT, "Failed to get " 503757ff642SScott Long "IOC Facts with error %d, exit\n", error); 504991554f2SKenneth D. Merry return (error); 505991554f2SKenneth D. Merry } else { 506991554f2SKenneth D. Merry panic("%s failed to get IOC Facts with error %d\n", 507991554f2SKenneth D. Merry __func__, error); 508991554f2SKenneth D. Merry } 509991554f2SKenneth D. Merry } 510991554f2SKenneth D. Merry 511055e2653SScott Long MPR_DPRINT_PAGE(sc, MPR_XINFO, iocfacts, sc->facts); 512991554f2SKenneth D. Merry 513991554f2SKenneth D. Merry snprintf(sc->fw_version, sizeof(sc->fw_version), 514991554f2SKenneth D. Merry "%02d.%02d.%02d.%02d", 515991554f2SKenneth D. Merry sc->facts->FWVersion.Struct.Major, 516991554f2SKenneth D. Merry sc->facts->FWVersion.Struct.Minor, 517991554f2SKenneth D. Merry sc->facts->FWVersion.Struct.Unit, 518991554f2SKenneth D. Merry sc->facts->FWVersion.Struct.Dev); 519991554f2SKenneth D. Merry 520757ff642SScott Long mpr_dprint(sc, MPR_INFO, "Firmware: %s, Driver: %s\n", sc->fw_version, 521991554f2SKenneth D. Merry MPR_DRIVER_VERSION); 522757ff642SScott Long mpr_dprint(sc, MPR_INFO, 523757ff642SScott Long "IOCCapabilities: %b\n", sc->facts->IOCCapabilities, 524991554f2SKenneth D. Merry "\20" "\3ScsiTaskFull" "\4DiagTrace" "\5SnapBuf" "\6ExtBuf" 525991554f2SKenneth D. Merry "\7EEDP" "\10BiDirTarg" "\11Multicast" "\14TransRetry" "\15IR" 52667feec50SStephen McConnell "\16EventReplay" "\17RaidAccel" "\20MSIXIndex" "\21HostDisc" 52767feec50SStephen McConnell "\22FastPath" "\23RDPQArray" "\24AtomicReqDesc" "\25PCIeSRIOV"); 528991554f2SKenneth D. Merry 529991554f2SKenneth D. Merry /* 530991554f2SKenneth D. Merry * If the chip doesn't support event replay then a hard reset will be 531991554f2SKenneth D. Merry * required to trigger a full discovery. Do the reset here then 532991554f2SKenneth D. Merry * retransition to Ready. A hard reset might have already been done, 533991554f2SKenneth D. Merry * but it doesn't hurt to do it again. Only do this if attaching, not 534991554f2SKenneth D. Merry * for a Diag Reset. 535991554f2SKenneth D. Merry */ 536757ff642SScott Long if (attaching && ((sc->facts->IOCCapabilities & 537757ff642SScott Long MPI2_IOCFACTS_CAPABILITY_EVENT_REPLAY) == 0)) { 538757ff642SScott Long mpr_dprint(sc, MPR_INIT, "No event replay, resetting\n"); 539991554f2SKenneth D. Merry mpr_diag_reset(sc, NO_SLEEP); 540991554f2SKenneth D. Merry if ((error = mpr_transition_ready(sc)) != 0) { 541757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_FAULT, "Failed to " 542757ff642SScott Long "transition to ready with error %d, exit\n", 543757ff642SScott Long error); 544991554f2SKenneth D. Merry return (error); 545991554f2SKenneth D. Merry } 546991554f2SKenneth D. Merry } 547991554f2SKenneth D. Merry 548991554f2SKenneth D. Merry /* 549991554f2SKenneth D. Merry * Set flag if IR Firmware is loaded. If the RAID Capability has 550991554f2SKenneth D. Merry * changed from the previous IOC Facts, log a warning, but only if 551991554f2SKenneth D. Merry * checking this after a Diag Reset and not during attach. 552991554f2SKenneth D. Merry */ 553991554f2SKenneth D. Merry saved_mode = sc->ir_firmware; 554991554f2SKenneth D. Merry if (sc->facts->IOCCapabilities & 555991554f2SKenneth D. Merry MPI2_IOCFACTS_CAPABILITY_INTEGRATED_RAID) 556991554f2SKenneth D. Merry sc->ir_firmware = 1; 557991554f2SKenneth D. Merry if (!attaching) { 558991554f2SKenneth D. Merry if (sc->ir_firmware != saved_mode) { 559757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_FAULT, "new IR/IT mode " 560757ff642SScott Long "in IOC Facts does not match previous mode\n"); 561991554f2SKenneth D. Merry } 562991554f2SKenneth D. Merry } 563991554f2SKenneth D. Merry 564991554f2SKenneth D. Merry /* Only deallocate and reallocate if relevant IOC Facts have changed */ 565991554f2SKenneth D. Merry reallocating = FALSE; 5666d4ffcb4SKenneth D. Merry sc->mpr_flags &= ~MPR_FLAGS_REALLOCATED; 5676d4ffcb4SKenneth D. Merry 568991554f2SKenneth D. Merry if ((!attaching) && 569991554f2SKenneth D. Merry ((saved_facts.MsgVersion != sc->facts->MsgVersion) || 570991554f2SKenneth D. Merry (saved_facts.HeaderVersion != sc->facts->HeaderVersion) || 571991554f2SKenneth D. Merry (saved_facts.MaxChainDepth != sc->facts->MaxChainDepth) || 572991554f2SKenneth D. Merry (saved_facts.RequestCredit != sc->facts->RequestCredit) || 573991554f2SKenneth D. Merry (saved_facts.ProductID != sc->facts->ProductID) || 574991554f2SKenneth D. Merry (saved_facts.IOCCapabilities != sc->facts->IOCCapabilities) || 575991554f2SKenneth D. Merry (saved_facts.IOCRequestFrameSize != 576991554f2SKenneth D. Merry sc->facts->IOCRequestFrameSize) || 5772bbc5fcbSStephen McConnell (saved_facts.IOCMaxChainSegmentSize != 5782bbc5fcbSStephen McConnell sc->facts->IOCMaxChainSegmentSize) || 579991554f2SKenneth D. Merry (saved_facts.MaxTargets != sc->facts->MaxTargets) || 580991554f2SKenneth D. Merry (saved_facts.MaxSasExpanders != sc->facts->MaxSasExpanders) || 581991554f2SKenneth D. Merry (saved_facts.MaxEnclosures != sc->facts->MaxEnclosures) || 582991554f2SKenneth D. Merry (saved_facts.HighPriorityCredit != sc->facts->HighPriorityCredit) || 583991554f2SKenneth D. Merry (saved_facts.MaxReplyDescriptorPostQueueDepth != 584991554f2SKenneth D. Merry sc->facts->MaxReplyDescriptorPostQueueDepth) || 585991554f2SKenneth D. Merry (saved_facts.ReplyFrameSize != sc->facts->ReplyFrameSize) || 586991554f2SKenneth D. Merry (saved_facts.MaxVolumes != sc->facts->MaxVolumes) || 587991554f2SKenneth D. Merry (saved_facts.MaxPersistentEntries != 588991554f2SKenneth D. Merry sc->facts->MaxPersistentEntries))) { 589991554f2SKenneth D. Merry reallocating = TRUE; 5906d4ffcb4SKenneth D. Merry 5916d4ffcb4SKenneth D. Merry /* Record that we reallocated everything */ 5926d4ffcb4SKenneth D. Merry sc->mpr_flags |= MPR_FLAGS_REALLOCATED; 593991554f2SKenneth D. Merry } 594991554f2SKenneth D. Merry 595991554f2SKenneth D. Merry /* 596991554f2SKenneth D. Merry * Some things should be done if attaching or re-allocating after a Diag 597991554f2SKenneth D. Merry * Reset, but are not needed after a Diag Reset if the FW has not 598991554f2SKenneth D. Merry * changed. 599991554f2SKenneth D. Merry */ 600991554f2SKenneth D. Merry if (attaching || reallocating) { 601991554f2SKenneth D. Merry /* 602991554f2SKenneth D. Merry * Check if controller supports FW diag buffers and set flag to 603991554f2SKenneth D. Merry * enable each type. 604991554f2SKenneth D. Merry */ 605991554f2SKenneth D. Merry if (sc->facts->IOCCapabilities & 606991554f2SKenneth D. Merry MPI2_IOCFACTS_CAPABILITY_DIAG_TRACE_BUFFER) 607991554f2SKenneth D. Merry sc->fw_diag_buffer_list[MPI2_DIAG_BUF_TYPE_TRACE]. 608991554f2SKenneth D. Merry enabled = TRUE; 609991554f2SKenneth D. Merry if (sc->facts->IOCCapabilities & 610991554f2SKenneth D. Merry MPI2_IOCFACTS_CAPABILITY_SNAPSHOT_BUFFER) 611991554f2SKenneth D. Merry sc->fw_diag_buffer_list[MPI2_DIAG_BUF_TYPE_SNAPSHOT]. 612991554f2SKenneth D. Merry enabled = TRUE; 613991554f2SKenneth D. Merry if (sc->facts->IOCCapabilities & 614991554f2SKenneth D. Merry MPI2_IOCFACTS_CAPABILITY_EXTENDED_BUFFER) 615991554f2SKenneth D. Merry sc->fw_diag_buffer_list[MPI2_DIAG_BUF_TYPE_EXTENDED]. 616991554f2SKenneth D. Merry enabled = TRUE; 617991554f2SKenneth D. Merry 618991554f2SKenneth D. Merry /* 61967feec50SStephen McConnell * Set flags for some supported items. 620991554f2SKenneth D. Merry */ 621991554f2SKenneth D. Merry if (sc->facts->IOCCapabilities & MPI2_IOCFACTS_CAPABILITY_EEDP) 622991554f2SKenneth D. Merry sc->eedp_enabled = TRUE; 623991554f2SKenneth D. Merry if (sc->facts->IOCCapabilities & MPI2_IOCFACTS_CAPABILITY_TLR) 624991554f2SKenneth D. Merry sc->control_TLR = TRUE; 62567feec50SStephen McConnell if (sc->facts->IOCCapabilities & 62667feec50SStephen McConnell MPI26_IOCFACTS_CAPABILITY_ATOMIC_REQ) 62767feec50SStephen McConnell sc->atomic_desc_capable = TRUE; 628991554f2SKenneth D. Merry 6293c5ac992SScott Long mpr_resize_queues(sc); 630991554f2SKenneth D. Merry 631991554f2SKenneth D. Merry /* 632991554f2SKenneth D. Merry * Initialize all Tail Queues 633991554f2SKenneth D. Merry */ 634991554f2SKenneth D. Merry TAILQ_INIT(&sc->req_list); 635991554f2SKenneth D. Merry TAILQ_INIT(&sc->high_priority_req_list); 636991554f2SKenneth D. Merry TAILQ_INIT(&sc->chain_list); 63767feec50SStephen McConnell TAILQ_INIT(&sc->prp_page_list); 638991554f2SKenneth D. Merry TAILQ_INIT(&sc->tm_list); 639991554f2SKenneth D. Merry } 640991554f2SKenneth D. Merry 641991554f2SKenneth D. Merry /* 642991554f2SKenneth D. Merry * If doing a Diag Reset and the FW is significantly different 643991554f2SKenneth D. Merry * (reallocating will be set above in IOC Facts comparison), then all 644991554f2SKenneth D. Merry * buffers based on the IOC Facts will need to be freed before they are 645991554f2SKenneth D. Merry * reallocated. 646991554f2SKenneth D. Merry */ 647991554f2SKenneth D. Merry if (reallocating) { 648991554f2SKenneth D. Merry mpr_iocfacts_free(sc); 649327f2e6cSStephen McConnell mprsas_realloc_targets(sc, saved_facts.MaxTargets + 650327f2e6cSStephen McConnell saved_facts.MaxVolumes); 651991554f2SKenneth D. Merry } 652991554f2SKenneth D. Merry 653991554f2SKenneth D. Merry /* 654991554f2SKenneth D. Merry * Any deallocation has been completed. Now start reallocating 655991554f2SKenneth D. Merry * if needed. Will only need to reallocate if attaching or if the new 656991554f2SKenneth D. Merry * IOC Facts are different from the previous IOC Facts after a Diag 657991554f2SKenneth D. Merry * Reset. Targets have already been allocated above if needed. 658991554f2SKenneth D. Merry */ 6591415db6cSScott Long error = 0; 6601415db6cSScott Long while (attaching || reallocating) { 6611415db6cSScott Long if ((error = mpr_alloc_hw_queues(sc)) != 0) 6621415db6cSScott Long break; 6631415db6cSScott Long if ((error = mpr_alloc_replies(sc)) != 0) 6641415db6cSScott Long break; 6651415db6cSScott Long if ((error = mpr_alloc_requests(sc)) != 0) 6661415db6cSScott Long break; 6671415db6cSScott Long if ((error = mpr_alloc_queues(sc)) != 0) 6681415db6cSScott Long break; 6691415db6cSScott Long break; 6701415db6cSScott Long } 6711415db6cSScott Long if (error) { 672757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_ERROR, 6731415db6cSScott Long "Failed to alloc queues with error %d\n", error); 674991554f2SKenneth D. Merry mpr_free(sc); 675991554f2SKenneth D. Merry return (error); 676991554f2SKenneth D. Merry } 677991554f2SKenneth D. Merry 678991554f2SKenneth D. Merry /* Always initialize the queues */ 679991554f2SKenneth D. Merry bzero(sc->free_queue, sc->fqdepth * 4); 680991554f2SKenneth D. Merry mpr_init_queues(sc); 681991554f2SKenneth D. Merry 682991554f2SKenneth D. Merry /* 683991554f2SKenneth D. Merry * Always get the chip out of the reset state, but only panic if not 684991554f2SKenneth D. Merry * attaching. If attaching and there is an error, that is handled by 685991554f2SKenneth D. Merry * the OS. 686991554f2SKenneth D. Merry */ 687991554f2SKenneth D. Merry error = mpr_transition_operational(sc); 688991554f2SKenneth D. Merry if (error != 0) { 689757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_FAULT, "Failed to " 690757ff642SScott Long "transition to operational with error %d\n", error); 691991554f2SKenneth D. Merry mpr_free(sc); 692991554f2SKenneth D. Merry return (error); 693991554f2SKenneth D. Merry } 694991554f2SKenneth D. Merry 695991554f2SKenneth D. Merry /* 696991554f2SKenneth D. Merry * Finish the queue initialization. 697991554f2SKenneth D. Merry * These are set here instead of in mpr_init_queues() because the 698991554f2SKenneth D. Merry * IOC resets these values during the state transition in 699991554f2SKenneth D. Merry * mpr_transition_operational(). The free index is set to 1 700991554f2SKenneth D. Merry * because the corresponding index in the IOC is set to 0, and the 701991554f2SKenneth D. Merry * IOC treats the queues as full if both are set to the same value. 702991554f2SKenneth D. Merry * Hence the reason that the queue can't hold all of the possible 703991554f2SKenneth D. Merry * replies. 704991554f2SKenneth D. Merry */ 705991554f2SKenneth D. Merry sc->replypostindex = 0; 706991554f2SKenneth D. Merry mpr_regwrite(sc, MPI2_REPLY_FREE_HOST_INDEX_OFFSET, sc->replyfreeindex); 707991554f2SKenneth D. Merry mpr_regwrite(sc, MPI2_REPLY_POST_HOST_INDEX_OFFSET, 0); 708991554f2SKenneth D. Merry 709991554f2SKenneth D. Merry /* 710991554f2SKenneth D. Merry * Attach the subsystems so they can prepare their event masks. 7111415db6cSScott Long * XXX Should be dynamic so that IM/IR and user modules can attach 712991554f2SKenneth D. Merry */ 7131415db6cSScott Long error = 0; 7141415db6cSScott Long while (attaching) { 715757ff642SScott Long mpr_dprint(sc, MPR_INIT, "Attaching subsystems\n"); 7161415db6cSScott Long if ((error = mpr_attach_log(sc)) != 0) 7171415db6cSScott Long break; 7181415db6cSScott Long if ((error = mpr_attach_sas(sc)) != 0) 7191415db6cSScott Long break; 7201415db6cSScott Long if ((error = mpr_attach_user(sc)) != 0) 7211415db6cSScott Long break; 7221415db6cSScott Long break; 7231415db6cSScott Long } 7241415db6cSScott Long if (error) { 725757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_ERROR, 7261415db6cSScott Long "Failed to attach all subsystems: error %d\n", error); 727991554f2SKenneth D. Merry mpr_free(sc); 728991554f2SKenneth D. Merry return (error); 729991554f2SKenneth D. Merry } 730991554f2SKenneth D. Merry 73110695417SScott Long /* 73210695417SScott Long * XXX If the number of MSI-X vectors changes during re-init, this 73310695417SScott Long * won't see it and adjust. 73410695417SScott Long */ 73510695417SScott Long if (attaching && (error = mpr_pci_setup_interrupts(sc)) != 0) { 736757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_ERROR, 737757ff642SScott Long "Failed to setup interrupts\n"); 738991554f2SKenneth D. Merry mpr_free(sc); 739991554f2SKenneth D. Merry return (error); 740991554f2SKenneth D. Merry } 741991554f2SKenneth D. Merry 742991554f2SKenneth D. Merry return (error); 743991554f2SKenneth D. Merry } 744991554f2SKenneth D. Merry 745991554f2SKenneth D. Merry /* 746991554f2SKenneth D. Merry * This is called if memory is being free (during detach for example) and when 747991554f2SKenneth D. Merry * buffers need to be reallocated due to a Diag Reset. 748991554f2SKenneth D. Merry */ 749991554f2SKenneth D. Merry static void 750991554f2SKenneth D. Merry mpr_iocfacts_free(struct mpr_softc *sc) 751991554f2SKenneth D. Merry { 752991554f2SKenneth D. Merry struct mpr_command *cm; 753991554f2SKenneth D. Merry int i; 754991554f2SKenneth D. Merry 755991554f2SKenneth D. Merry mpr_dprint(sc, MPR_TRACE, "%s\n", __func__); 756991554f2SKenneth D. Merry 757991554f2SKenneth D. Merry if (sc->free_busaddr != 0) 758991554f2SKenneth D. Merry bus_dmamap_unload(sc->queues_dmat, sc->queues_map); 759991554f2SKenneth D. Merry if (sc->free_queue != NULL) 760991554f2SKenneth D. Merry bus_dmamem_free(sc->queues_dmat, sc->free_queue, 761991554f2SKenneth D. Merry sc->queues_map); 762991554f2SKenneth D. Merry if (sc->queues_dmat != NULL) 763991554f2SKenneth D. Merry bus_dma_tag_destroy(sc->queues_dmat); 764991554f2SKenneth D. Merry 765*731308d0SAlexander Motin if (sc->chain_frames != NULL) { 766991554f2SKenneth D. Merry bus_dmamap_unload(sc->chain_dmat, sc->chain_map); 767991554f2SKenneth D. Merry bus_dmamem_free(sc->chain_dmat, sc->chain_frames, 768991554f2SKenneth D. Merry sc->chain_map); 769*731308d0SAlexander Motin } 770991554f2SKenneth D. Merry if (sc->chain_dmat != NULL) 771991554f2SKenneth D. Merry bus_dma_tag_destroy(sc->chain_dmat); 772991554f2SKenneth D. Merry 773991554f2SKenneth D. Merry if (sc->sense_busaddr != 0) 774991554f2SKenneth D. Merry bus_dmamap_unload(sc->sense_dmat, sc->sense_map); 775991554f2SKenneth D. Merry if (sc->sense_frames != NULL) 776991554f2SKenneth D. Merry bus_dmamem_free(sc->sense_dmat, sc->sense_frames, 777991554f2SKenneth D. Merry sc->sense_map); 778991554f2SKenneth D. Merry if (sc->sense_dmat != NULL) 779991554f2SKenneth D. Merry bus_dma_tag_destroy(sc->sense_dmat); 780991554f2SKenneth D. Merry 78167feec50SStephen McConnell if (sc->prp_page_busaddr != 0) 78267feec50SStephen McConnell bus_dmamap_unload(sc->prp_page_dmat, sc->prp_page_map); 78367feec50SStephen McConnell if (sc->prp_pages != NULL) 78467feec50SStephen McConnell bus_dmamem_free(sc->prp_page_dmat, sc->prp_pages, 78567feec50SStephen McConnell sc->prp_page_map); 78667feec50SStephen McConnell if (sc->prp_page_dmat != NULL) 78767feec50SStephen McConnell bus_dma_tag_destroy(sc->prp_page_dmat); 78867feec50SStephen McConnell 789991554f2SKenneth D. Merry if (sc->reply_busaddr != 0) 790991554f2SKenneth D. Merry bus_dmamap_unload(sc->reply_dmat, sc->reply_map); 791991554f2SKenneth D. Merry if (sc->reply_frames != NULL) 792991554f2SKenneth D. Merry bus_dmamem_free(sc->reply_dmat, sc->reply_frames, 793991554f2SKenneth D. Merry sc->reply_map); 794991554f2SKenneth D. Merry if (sc->reply_dmat != NULL) 795991554f2SKenneth D. Merry bus_dma_tag_destroy(sc->reply_dmat); 796991554f2SKenneth D. Merry 797991554f2SKenneth D. Merry if (sc->req_busaddr != 0) 798991554f2SKenneth D. Merry bus_dmamap_unload(sc->req_dmat, sc->req_map); 799991554f2SKenneth D. Merry if (sc->req_frames != NULL) 800991554f2SKenneth D. Merry bus_dmamem_free(sc->req_dmat, sc->req_frames, sc->req_map); 801991554f2SKenneth D. Merry if (sc->req_dmat != NULL) 802991554f2SKenneth D. Merry bus_dma_tag_destroy(sc->req_dmat); 803991554f2SKenneth D. Merry 804991554f2SKenneth D. Merry if (sc->chains != NULL) 805991554f2SKenneth D. Merry free(sc->chains, M_MPR); 80667feec50SStephen McConnell if (sc->prps != NULL) 80767feec50SStephen McConnell free(sc->prps, M_MPR); 808991554f2SKenneth D. Merry if (sc->commands != NULL) { 809991554f2SKenneth D. Merry for (i = 1; i < sc->num_reqs; i++) { 810991554f2SKenneth D. Merry cm = &sc->commands[i]; 811991554f2SKenneth D. Merry bus_dmamap_destroy(sc->buffer_dmat, cm->cm_dmamap); 812991554f2SKenneth D. Merry } 813991554f2SKenneth D. Merry free(sc->commands, M_MPR); 814991554f2SKenneth D. Merry } 815991554f2SKenneth D. Merry if (sc->buffer_dmat != NULL) 816991554f2SKenneth D. Merry bus_dma_tag_destroy(sc->buffer_dmat); 817bec09074SScott Long 818bec09074SScott Long mpr_pci_free_interrupts(sc); 819bec09074SScott Long free(sc->queues, M_MPR); 820bec09074SScott Long sc->queues = NULL; 821991554f2SKenneth D. Merry } 822991554f2SKenneth D. Merry 823991554f2SKenneth D. Merry /* 824991554f2SKenneth D. Merry * The terms diag reset and hard reset are used interchangeably in the MPI 825991554f2SKenneth D. Merry * docs to mean resetting the controller chip. In this code diag reset 826991554f2SKenneth D. Merry * cleans everything up, and the hard reset function just sends the reset 827991554f2SKenneth D. Merry * sequence to the chip. This should probably be refactored so that every 828991554f2SKenneth D. Merry * subsystem gets a reset notification of some sort, and can clean up 829991554f2SKenneth D. Merry * appropriately. 830991554f2SKenneth D. Merry */ 831991554f2SKenneth D. Merry int 832991554f2SKenneth D. Merry mpr_reinit(struct mpr_softc *sc) 833991554f2SKenneth D. Merry { 834991554f2SKenneth D. Merry int error; 835991554f2SKenneth D. Merry struct mprsas_softc *sassc; 836991554f2SKenneth D. Merry 837991554f2SKenneth D. Merry sassc = sc->sassc; 838991554f2SKenneth D. Merry 839991554f2SKenneth D. Merry MPR_FUNCTRACE(sc); 840991554f2SKenneth D. Merry 841991554f2SKenneth D. Merry mtx_assert(&sc->mpr_mtx, MA_OWNED); 842991554f2SKenneth D. Merry 843757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_INFO, "Reinitializing controller\n"); 844991554f2SKenneth D. Merry if (sc->mpr_flags & MPR_FLAGS_DIAGRESET) { 845757ff642SScott Long mpr_dprint(sc, MPR_INIT, "Reset already in progress\n"); 846991554f2SKenneth D. Merry return 0; 847991554f2SKenneth D. Merry } 848991554f2SKenneth D. Merry 849757ff642SScott Long /* 850757ff642SScott Long * Make sure the completion callbacks can recognize they're getting 851991554f2SKenneth D. Merry * a NULL cm_reply due to a reset. 852991554f2SKenneth D. Merry */ 853991554f2SKenneth D. Merry sc->mpr_flags |= MPR_FLAGS_DIAGRESET; 854991554f2SKenneth D. Merry 855991554f2SKenneth D. Merry /* 856991554f2SKenneth D. Merry * Mask interrupts here. 857991554f2SKenneth D. Merry */ 858757ff642SScott Long mpr_dprint(sc, MPR_INIT, "Masking interrupts and resetting\n"); 859991554f2SKenneth D. Merry mpr_mask_intr(sc); 860991554f2SKenneth D. Merry 861991554f2SKenneth D. Merry error = mpr_diag_reset(sc, CAN_SLEEP); 862991554f2SKenneth D. Merry if (error != 0) { 863991554f2SKenneth D. Merry panic("%s hard reset failed with error %d\n", __func__, error); 864991554f2SKenneth D. Merry } 865991554f2SKenneth D. Merry 866991554f2SKenneth D. Merry /* Restore the PCI state, including the MSI-X registers */ 867991554f2SKenneth D. Merry mpr_pci_restore(sc); 868991554f2SKenneth D. Merry 869991554f2SKenneth D. Merry /* Give the I/O subsystem special priority to get itself prepared */ 870991554f2SKenneth D. Merry mprsas_handle_reinit(sc); 871991554f2SKenneth D. Merry 872991554f2SKenneth D. Merry /* 873991554f2SKenneth D. Merry * Get IOC Facts and allocate all structures based on this information. 874991554f2SKenneth D. Merry * The attach function will also call mpr_iocfacts_allocate at startup. 875991554f2SKenneth D. Merry * If relevant values have changed in IOC Facts, this function will free 876991554f2SKenneth D. Merry * all of the memory based on IOC Facts and reallocate that memory. 877991554f2SKenneth D. Merry */ 878991554f2SKenneth D. Merry if ((error = mpr_iocfacts_allocate(sc, FALSE)) != 0) { 879991554f2SKenneth D. Merry panic("%s IOC Facts based allocation failed with error %d\n", 880991554f2SKenneth D. Merry __func__, error); 881991554f2SKenneth D. Merry } 882991554f2SKenneth D. Merry 883991554f2SKenneth D. Merry /* 884991554f2SKenneth D. Merry * Mapping structures will be re-allocated after getting IOC Page8, so 885991554f2SKenneth D. Merry * free these structures here. 886991554f2SKenneth D. Merry */ 887991554f2SKenneth D. Merry mpr_mapping_exit(sc); 888991554f2SKenneth D. Merry 889991554f2SKenneth D. Merry /* 890991554f2SKenneth D. Merry * The static page function currently read is IOC Page8. Others can be 891991554f2SKenneth D. Merry * added in future. It's possible that the values in IOC Page8 have 892991554f2SKenneth D. Merry * changed after a Diag Reset due to user modification, so always read 893991554f2SKenneth D. Merry * these. Interrupts are masked, so unmask them before getting config 894991554f2SKenneth D. Merry * pages. 895991554f2SKenneth D. Merry */ 896991554f2SKenneth D. Merry mpr_unmask_intr(sc); 897991554f2SKenneth D. Merry sc->mpr_flags &= ~MPR_FLAGS_DIAGRESET; 898991554f2SKenneth D. Merry mpr_base_static_config_pages(sc); 899991554f2SKenneth D. Merry 900991554f2SKenneth D. Merry /* 901991554f2SKenneth D. Merry * Some mapping info is based in IOC Page8 data, so re-initialize the 902991554f2SKenneth D. Merry * mapping tables. 903991554f2SKenneth D. Merry */ 904991554f2SKenneth D. Merry mpr_mapping_initialize(sc); 905991554f2SKenneth D. Merry 906991554f2SKenneth D. Merry /* 907991554f2SKenneth D. Merry * Restart will reload the event masks clobbered by the reset, and 908991554f2SKenneth D. Merry * then enable the port. 909991554f2SKenneth D. Merry */ 910991554f2SKenneth D. Merry mpr_reregister_events(sc); 911991554f2SKenneth D. Merry 912991554f2SKenneth D. Merry /* the end of discovery will release the simq, so we're done. */ 913757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_XINFO, "Finished sc %p post %u free %u\n", 914757ff642SScott Long sc, sc->replypostindex, sc->replyfreeindex); 915991554f2SKenneth D. Merry mprsas_release_simq_reinit(sassc); 916757ff642SScott Long mpr_dprint(sc, MPR_INIT, "%s exit error= %d\n", __func__, error); 917991554f2SKenneth D. Merry 918991554f2SKenneth D. Merry return 0; 919991554f2SKenneth D. Merry } 920991554f2SKenneth D. Merry 921991554f2SKenneth D. Merry /* Wait for the chip to ACK a word that we've put into its FIFO 922991554f2SKenneth D. Merry * Wait for <timeout> seconds. In single loop wait for busy loop 923991554f2SKenneth D. Merry * for 500 microseconds. 924991554f2SKenneth D. Merry * Total is [ 0.5 * (2000 * <timeout>) ] in miliseconds. 925991554f2SKenneth D. Merry * */ 926991554f2SKenneth D. Merry static int 927991554f2SKenneth D. Merry mpr_wait_db_ack(struct mpr_softc *sc, int timeout, int sleep_flag) 928991554f2SKenneth D. Merry { 929991554f2SKenneth D. Merry u32 cntdn, count; 930991554f2SKenneth D. Merry u32 int_status; 931991554f2SKenneth D. Merry u32 doorbell; 932991554f2SKenneth D. Merry 933991554f2SKenneth D. Merry count = 0; 934991554f2SKenneth D. Merry cntdn = (sleep_flag == CAN_SLEEP) ? 1000*timeout : 2000*timeout; 935991554f2SKenneth D. Merry do { 936991554f2SKenneth D. Merry int_status = mpr_regread(sc, MPI2_HOST_INTERRUPT_STATUS_OFFSET); 937991554f2SKenneth D. Merry if (!(int_status & MPI2_HIS_SYS2IOC_DB_STATUS)) { 938757ff642SScott Long mpr_dprint(sc, MPR_TRACE, "%s: successful count(%d), " 939991554f2SKenneth D. Merry "timeout(%d)\n", __func__, count, timeout); 940991554f2SKenneth D. Merry return 0; 941991554f2SKenneth D. Merry } else if (int_status & MPI2_HIS_IOC2SYS_DB_STATUS) { 942991554f2SKenneth D. Merry doorbell = mpr_regread(sc, MPI2_DOORBELL_OFFSET); 943991554f2SKenneth D. Merry if ((doorbell & MPI2_IOC_STATE_MASK) == 944991554f2SKenneth D. Merry MPI2_IOC_STATE_FAULT) { 945991554f2SKenneth D. Merry mpr_dprint(sc, MPR_FAULT, 946991554f2SKenneth D. Merry "fault_state(0x%04x)!\n", doorbell); 947991554f2SKenneth D. Merry return (EFAULT); 948991554f2SKenneth D. Merry } 949991554f2SKenneth D. Merry } else if (int_status == 0xFFFFFFFF) 950991554f2SKenneth D. Merry goto out; 951991554f2SKenneth D. Merry 952991554f2SKenneth D. Merry /* 953991554f2SKenneth D. Merry * If it can sleep, sleep for 1 milisecond, else busy loop for 954991554f2SKenneth D. Merry * 0.5 milisecond 955991554f2SKenneth D. Merry */ 956991554f2SKenneth D. Merry if (mtx_owned(&sc->mpr_mtx) && sleep_flag == CAN_SLEEP) 957a2c14879SStephen McConnell msleep(&sc->msleep_fake_chan, &sc->mpr_mtx, 0, "mprdba", 958a2c14879SStephen McConnell hz/1000); 959991554f2SKenneth D. Merry else if (sleep_flag == CAN_SLEEP) 960991554f2SKenneth D. Merry pause("mprdba", hz/1000); 961991554f2SKenneth D. Merry else 962991554f2SKenneth D. Merry DELAY(500); 963991554f2SKenneth D. Merry count++; 964991554f2SKenneth D. Merry } while (--cntdn); 965991554f2SKenneth D. Merry 966991554f2SKenneth D. Merry out: 967991554f2SKenneth D. Merry mpr_dprint(sc, MPR_FAULT, "%s: failed due to timeout count(%d), " 968991554f2SKenneth D. Merry "int_status(%x)!\n", __func__, count, int_status); 969991554f2SKenneth D. Merry return (ETIMEDOUT); 970991554f2SKenneth D. Merry } 971991554f2SKenneth D. Merry 972991554f2SKenneth D. Merry /* Wait for the chip to signal that the next word in its FIFO can be fetched */ 973991554f2SKenneth D. Merry static int 974991554f2SKenneth D. Merry mpr_wait_db_int(struct mpr_softc *sc) 975991554f2SKenneth D. Merry { 976991554f2SKenneth D. Merry int retry; 977991554f2SKenneth D. Merry 978991554f2SKenneth D. Merry for (retry = 0; retry < MPR_DB_MAX_WAIT; retry++) { 979991554f2SKenneth D. Merry if ((mpr_regread(sc, MPI2_HOST_INTERRUPT_STATUS_OFFSET) & 980991554f2SKenneth D. Merry MPI2_HIS_IOC2SYS_DB_STATUS) != 0) 981991554f2SKenneth D. Merry return (0); 982991554f2SKenneth D. Merry DELAY(2000); 983991554f2SKenneth D. Merry } 984991554f2SKenneth D. Merry return (ETIMEDOUT); 985991554f2SKenneth D. Merry } 986991554f2SKenneth D. Merry 987991554f2SKenneth D. Merry /* Step through the synchronous command state machine, i.e. "Doorbell mode" */ 988991554f2SKenneth D. Merry static int 989991554f2SKenneth D. Merry mpr_request_sync(struct mpr_softc *sc, void *req, MPI2_DEFAULT_REPLY *reply, 990991554f2SKenneth D. Merry int req_sz, int reply_sz, int timeout) 991991554f2SKenneth D. Merry { 992991554f2SKenneth D. Merry uint32_t *data32; 993991554f2SKenneth D. Merry uint16_t *data16; 994991554f2SKenneth D. Merry int i, count, ioc_sz, residual; 995991554f2SKenneth D. Merry int sleep_flags = CAN_SLEEP; 996991554f2SKenneth D. Merry 997991554f2SKenneth D. Merry #if __FreeBSD_version >= 1000029 998991554f2SKenneth D. Merry if (curthread->td_no_sleeping) 999991554f2SKenneth D. Merry #else //__FreeBSD_version < 1000029 1000991554f2SKenneth D. Merry if (curthread->td_pflags & TDP_NOSLEEPING) 1001991554f2SKenneth D. Merry #endif //__FreeBSD_version >= 1000029 1002991554f2SKenneth D. Merry sleep_flags = NO_SLEEP; 1003991554f2SKenneth D. Merry 1004991554f2SKenneth D. Merry /* Step 1 */ 1005991554f2SKenneth D. Merry mpr_regwrite(sc, MPI2_HOST_INTERRUPT_STATUS_OFFSET, 0x0); 1006991554f2SKenneth D. Merry 1007991554f2SKenneth D. Merry /* Step 2 */ 1008991554f2SKenneth D. Merry if (mpr_regread(sc, MPI2_DOORBELL_OFFSET) & MPI2_DOORBELL_USED) 1009991554f2SKenneth D. Merry return (EBUSY); 1010991554f2SKenneth D. Merry 1011991554f2SKenneth D. Merry /* Step 3 1012991554f2SKenneth D. Merry * Announce that a message is coming through the doorbell. Messages 1013991554f2SKenneth D. Merry * are pushed at 32bit words, so round up if needed. 1014991554f2SKenneth D. Merry */ 1015991554f2SKenneth D. Merry count = (req_sz + 3) / 4; 1016991554f2SKenneth D. Merry mpr_regwrite(sc, MPI2_DOORBELL_OFFSET, 1017991554f2SKenneth D. Merry (MPI2_FUNCTION_HANDSHAKE << MPI2_DOORBELL_FUNCTION_SHIFT) | 1018991554f2SKenneth D. Merry (count << MPI2_DOORBELL_ADD_DWORDS_SHIFT)); 1019991554f2SKenneth D. Merry 1020991554f2SKenneth D. Merry /* Step 4 */ 1021991554f2SKenneth D. Merry if (mpr_wait_db_int(sc) || 1022991554f2SKenneth D. Merry (mpr_regread(sc, MPI2_DOORBELL_OFFSET) & MPI2_DOORBELL_USED) == 0) { 1023991554f2SKenneth D. Merry mpr_dprint(sc, MPR_FAULT, "Doorbell failed to activate\n"); 1024991554f2SKenneth D. Merry return (ENXIO); 1025991554f2SKenneth D. Merry } 1026991554f2SKenneth D. Merry mpr_regwrite(sc, MPI2_HOST_INTERRUPT_STATUS_OFFSET, 0x0); 1027991554f2SKenneth D. Merry if (mpr_wait_db_ack(sc, 5, sleep_flags) != 0) { 1028991554f2SKenneth D. Merry mpr_dprint(sc, MPR_FAULT, "Doorbell handshake failed\n"); 1029991554f2SKenneth D. Merry return (ENXIO); 1030991554f2SKenneth D. Merry } 1031991554f2SKenneth D. Merry 1032991554f2SKenneth D. Merry /* Step 5 */ 1033991554f2SKenneth D. Merry /* Clock out the message data synchronously in 32-bit dwords*/ 1034991554f2SKenneth D. Merry data32 = (uint32_t *)req; 1035991554f2SKenneth D. Merry for (i = 0; i < count; i++) { 1036991554f2SKenneth D. Merry mpr_regwrite(sc, MPI2_DOORBELL_OFFSET, htole32(data32[i])); 1037991554f2SKenneth D. Merry if (mpr_wait_db_ack(sc, 5, sleep_flags) != 0) { 1038991554f2SKenneth D. Merry mpr_dprint(sc, MPR_FAULT, 1039991554f2SKenneth D. Merry "Timeout while writing doorbell\n"); 1040991554f2SKenneth D. Merry return (ENXIO); 1041991554f2SKenneth D. Merry } 1042991554f2SKenneth D. Merry } 1043991554f2SKenneth D. Merry 1044991554f2SKenneth D. Merry /* Step 6 */ 1045991554f2SKenneth D. Merry /* Clock in the reply in 16-bit words. The total length of the 1046991554f2SKenneth D. Merry * message is always in the 4th byte, so clock out the first 2 words 1047991554f2SKenneth D. Merry * manually, then loop the rest. 1048991554f2SKenneth D. Merry */ 1049991554f2SKenneth D. Merry data16 = (uint16_t *)reply; 1050991554f2SKenneth D. Merry if (mpr_wait_db_int(sc) != 0) { 1051991554f2SKenneth D. Merry mpr_dprint(sc, MPR_FAULT, "Timeout reading doorbell 0\n"); 1052991554f2SKenneth D. Merry return (ENXIO); 1053991554f2SKenneth D. Merry } 1054991554f2SKenneth D. Merry data16[0] = 1055991554f2SKenneth D. Merry mpr_regread(sc, MPI2_DOORBELL_OFFSET) & MPI2_DOORBELL_DATA_MASK; 1056991554f2SKenneth D. Merry mpr_regwrite(sc, MPI2_HOST_INTERRUPT_STATUS_OFFSET, 0x0); 1057991554f2SKenneth D. Merry if (mpr_wait_db_int(sc) != 0) { 1058991554f2SKenneth D. Merry mpr_dprint(sc, MPR_FAULT, "Timeout reading doorbell 1\n"); 1059991554f2SKenneth D. Merry return (ENXIO); 1060991554f2SKenneth D. Merry } 1061991554f2SKenneth D. Merry data16[1] = 1062991554f2SKenneth D. Merry mpr_regread(sc, MPI2_DOORBELL_OFFSET) & MPI2_DOORBELL_DATA_MASK; 1063991554f2SKenneth D. Merry mpr_regwrite(sc, MPI2_HOST_INTERRUPT_STATUS_OFFSET, 0x0); 1064991554f2SKenneth D. Merry 1065991554f2SKenneth D. Merry /* Number of 32bit words in the message */ 1066991554f2SKenneth D. Merry ioc_sz = reply->MsgLength; 1067991554f2SKenneth D. Merry 1068991554f2SKenneth D. Merry /* 1069991554f2SKenneth D. Merry * Figure out how many 16bit words to clock in without overrunning. 1070991554f2SKenneth D. Merry * The precision loss with dividing reply_sz can safely be 1071991554f2SKenneth D. Merry * ignored because the messages can only be multiples of 32bits. 1072991554f2SKenneth D. Merry */ 1073991554f2SKenneth D. Merry residual = 0; 1074991554f2SKenneth D. Merry count = MIN((reply_sz / 4), ioc_sz) * 2; 1075991554f2SKenneth D. Merry if (count < ioc_sz * 2) { 1076991554f2SKenneth D. Merry residual = ioc_sz * 2 - count; 1077991554f2SKenneth D. Merry mpr_dprint(sc, MPR_ERROR, "Driver error, throwing away %d " 1078991554f2SKenneth D. Merry "residual message words\n", residual); 1079991554f2SKenneth D. Merry } 1080991554f2SKenneth D. Merry 1081991554f2SKenneth D. Merry for (i = 2; i < count; i++) { 1082991554f2SKenneth D. Merry if (mpr_wait_db_int(sc) != 0) { 1083991554f2SKenneth D. Merry mpr_dprint(sc, MPR_FAULT, 1084991554f2SKenneth D. Merry "Timeout reading doorbell %d\n", i); 1085991554f2SKenneth D. Merry return (ENXIO); 1086991554f2SKenneth D. Merry } 1087991554f2SKenneth D. Merry data16[i] = mpr_regread(sc, MPI2_DOORBELL_OFFSET) & 1088991554f2SKenneth D. Merry MPI2_DOORBELL_DATA_MASK; 1089991554f2SKenneth D. Merry mpr_regwrite(sc, MPI2_HOST_INTERRUPT_STATUS_OFFSET, 0x0); 1090991554f2SKenneth D. Merry } 1091991554f2SKenneth D. Merry 1092991554f2SKenneth D. Merry /* 1093991554f2SKenneth D. Merry * Pull out residual words that won't fit into the provided buffer. 1094991554f2SKenneth D. Merry * This keeps the chip from hanging due to a driver programming 1095991554f2SKenneth D. Merry * error. 1096991554f2SKenneth D. Merry */ 1097991554f2SKenneth D. Merry while (residual--) { 1098991554f2SKenneth D. Merry if (mpr_wait_db_int(sc) != 0) { 1099991554f2SKenneth D. Merry mpr_dprint(sc, MPR_FAULT, "Timeout reading doorbell\n"); 1100991554f2SKenneth D. Merry return (ENXIO); 1101991554f2SKenneth D. Merry } 1102991554f2SKenneth D. Merry (void)mpr_regread(sc, MPI2_DOORBELL_OFFSET); 1103991554f2SKenneth D. Merry mpr_regwrite(sc, MPI2_HOST_INTERRUPT_STATUS_OFFSET, 0x0); 1104991554f2SKenneth D. Merry } 1105991554f2SKenneth D. Merry 1106991554f2SKenneth D. Merry /* Step 7 */ 1107991554f2SKenneth D. Merry if (mpr_wait_db_int(sc) != 0) { 1108991554f2SKenneth D. Merry mpr_dprint(sc, MPR_FAULT, "Timeout waiting to exit doorbell\n"); 1109991554f2SKenneth D. Merry return (ENXIO); 1110991554f2SKenneth D. Merry } 1111991554f2SKenneth D. Merry if (mpr_regread(sc, MPI2_DOORBELL_OFFSET) & MPI2_DOORBELL_USED) 1112991554f2SKenneth D. Merry mpr_dprint(sc, MPR_FAULT, "Warning, doorbell still active\n"); 1113991554f2SKenneth D. Merry mpr_regwrite(sc, MPI2_HOST_INTERRUPT_STATUS_OFFSET, 0x0); 1114991554f2SKenneth D. Merry 1115991554f2SKenneth D. Merry return (0); 1116991554f2SKenneth D. Merry } 1117991554f2SKenneth D. Merry 1118991554f2SKenneth D. Merry static void 1119991554f2SKenneth D. Merry mpr_enqueue_request(struct mpr_softc *sc, struct mpr_command *cm) 1120991554f2SKenneth D. Merry { 112167feec50SStephen McConnell request_descriptor rd; 1122991554f2SKenneth D. Merry 1123991554f2SKenneth D. Merry MPR_FUNCTRACE(sc); 1124a2c14879SStephen McConnell mpr_dprint(sc, MPR_TRACE, "SMID %u cm %p ccb %p\n", 1125991554f2SKenneth D. Merry cm->cm_desc.Default.SMID, cm, cm->cm_ccb); 1126991554f2SKenneth D. Merry 1127991554f2SKenneth D. Merry if (sc->mpr_flags & MPR_FLAGS_ATTACH_DONE && !(sc->mpr_flags & 1128991554f2SKenneth D. Merry MPR_FLAGS_SHUTDOWN)) 1129991554f2SKenneth D. Merry mtx_assert(&sc->mpr_mtx, MA_OWNED); 1130991554f2SKenneth D. Merry 1131991554f2SKenneth D. Merry if (++sc->io_cmds_active > sc->io_cmds_highwater) 1132991554f2SKenneth D. Merry sc->io_cmds_highwater++; 1133991554f2SKenneth D. Merry 1134f0779b04SScott Long KASSERT(cm->cm_state == MPR_CM_STATE_BUSY, ("command not busy\n")); 1135f0779b04SScott Long cm->cm_state = MPR_CM_STATE_INQUEUE; 1136f0779b04SScott Long 113767feec50SStephen McConnell if (sc->atomic_desc_capable) { 113867feec50SStephen McConnell rd.u.low = cm->cm_desc.Words.Low; 113967feec50SStephen McConnell mpr_regwrite(sc, MPI26_ATOMIC_REQUEST_DESCRIPTOR_POST_OFFSET, 114067feec50SStephen McConnell rd.u.low); 114167feec50SStephen McConnell } else { 1142991554f2SKenneth D. Merry rd.u.low = cm->cm_desc.Words.Low; 1143991554f2SKenneth D. Merry rd.u.high = cm->cm_desc.Words.High; 1144991554f2SKenneth D. Merry rd.word = htole64(rd.word); 1145991554f2SKenneth D. Merry mpr_regwrite(sc, MPI2_REQUEST_DESCRIPTOR_POST_LOW_OFFSET, 1146991554f2SKenneth D. Merry rd.u.low); 1147991554f2SKenneth D. Merry mpr_regwrite(sc, MPI2_REQUEST_DESCRIPTOR_POST_HIGH_OFFSET, 1148991554f2SKenneth D. Merry rd.u.high); 1149991554f2SKenneth D. Merry } 115067feec50SStephen McConnell } 1151991554f2SKenneth D. Merry 1152991554f2SKenneth D. Merry /* 1153991554f2SKenneth D. Merry * Just the FACTS, ma'am. 1154991554f2SKenneth D. Merry */ 1155991554f2SKenneth D. Merry static int 1156991554f2SKenneth D. Merry mpr_get_iocfacts(struct mpr_softc *sc, MPI2_IOC_FACTS_REPLY *facts) 1157991554f2SKenneth D. Merry { 1158991554f2SKenneth D. Merry MPI2_DEFAULT_REPLY *reply; 1159991554f2SKenneth D. Merry MPI2_IOC_FACTS_REQUEST request; 1160991554f2SKenneth D. Merry int error, req_sz, reply_sz; 1161991554f2SKenneth D. Merry 1162991554f2SKenneth D. Merry MPR_FUNCTRACE(sc); 1163757ff642SScott Long mpr_dprint(sc, MPR_INIT, "%s entered\n", __func__); 1164991554f2SKenneth D. Merry 1165991554f2SKenneth D. Merry req_sz = sizeof(MPI2_IOC_FACTS_REQUEST); 1166991554f2SKenneth D. Merry reply_sz = sizeof(MPI2_IOC_FACTS_REPLY); 1167991554f2SKenneth D. Merry reply = (MPI2_DEFAULT_REPLY *)facts; 1168991554f2SKenneth D. Merry 1169991554f2SKenneth D. Merry bzero(&request, req_sz); 1170991554f2SKenneth D. Merry request.Function = MPI2_FUNCTION_IOC_FACTS; 1171991554f2SKenneth D. Merry error = mpr_request_sync(sc, &request, reply, req_sz, reply_sz, 5); 1172991554f2SKenneth D. Merry 1173757ff642SScott Long mpr_dprint(sc, MPR_INIT, "%s exit, error= %d\n", __func__, error); 1174991554f2SKenneth D. Merry return (error); 1175991554f2SKenneth D. Merry } 1176991554f2SKenneth D. Merry 1177991554f2SKenneth D. Merry static int 1178991554f2SKenneth D. Merry mpr_send_iocinit(struct mpr_softc *sc) 1179991554f2SKenneth D. Merry { 1180991554f2SKenneth D. Merry MPI2_IOC_INIT_REQUEST init; 1181991554f2SKenneth D. Merry MPI2_DEFAULT_REPLY reply; 1182991554f2SKenneth D. Merry int req_sz, reply_sz, error; 1183991554f2SKenneth D. Merry struct timeval now; 1184991554f2SKenneth D. Merry uint64_t time_in_msec; 1185991554f2SKenneth D. Merry 1186991554f2SKenneth D. Merry MPR_FUNCTRACE(sc); 1187757ff642SScott Long mpr_dprint(sc, MPR_INIT, "%s entered\n", __func__); 1188991554f2SKenneth D. Merry 118996410703SScott Long /* Do a quick sanity check on proper initialization */ 119096410703SScott Long if ((sc->pqdepth == 0) || (sc->fqdepth == 0) || (sc->reqframesz == 0) 119196410703SScott Long || (sc->replyframesz == 0)) { 119296410703SScott Long mpr_dprint(sc, MPR_INIT|MPR_ERROR, 119396410703SScott Long "Driver not fully initialized for IOCInit\n"); 119496410703SScott Long return (EINVAL); 119596410703SScott Long } 119696410703SScott Long 1197991554f2SKenneth D. Merry req_sz = sizeof(MPI2_IOC_INIT_REQUEST); 1198991554f2SKenneth D. Merry reply_sz = sizeof(MPI2_IOC_INIT_REPLY); 1199991554f2SKenneth D. Merry bzero(&init, req_sz); 1200991554f2SKenneth D. Merry bzero(&reply, reply_sz); 1201991554f2SKenneth D. Merry 1202991554f2SKenneth D. Merry /* 1203991554f2SKenneth D. Merry * Fill in the init block. Note that most addresses are 1204991554f2SKenneth D. Merry * deliberately in the lower 32bits of memory. This is a micro- 1205991554f2SKenneth D. Merry * optimzation for PCI/PCIX, though it's not clear if it helps PCIe. 1206991554f2SKenneth D. Merry */ 1207991554f2SKenneth D. Merry init.Function = MPI2_FUNCTION_IOC_INIT; 1208991554f2SKenneth D. Merry init.WhoInit = MPI2_WHOINIT_HOST_DRIVER; 1209991554f2SKenneth D. Merry init.MsgVersion = htole16(MPI2_VERSION); 1210991554f2SKenneth D. Merry init.HeaderVersion = htole16(MPI2_HEADER_VERSION); 121196410703SScott Long init.SystemRequestFrameSize = htole16((uint16_t)(sc->reqframesz / 4)); 1212991554f2SKenneth D. Merry init.ReplyDescriptorPostQueueDepth = htole16(sc->pqdepth); 1213991554f2SKenneth D. Merry init.ReplyFreeQueueDepth = htole16(sc->fqdepth); 1214991554f2SKenneth D. Merry init.SenseBufferAddressHigh = 0; 1215991554f2SKenneth D. Merry init.SystemReplyAddressHigh = 0; 1216991554f2SKenneth D. Merry init.SystemRequestFrameBaseAddress.High = 0; 1217991554f2SKenneth D. Merry init.SystemRequestFrameBaseAddress.Low = 1218991554f2SKenneth D. Merry htole32((uint32_t)sc->req_busaddr); 1219991554f2SKenneth D. Merry init.ReplyDescriptorPostQueueAddress.High = 0; 1220991554f2SKenneth D. Merry init.ReplyDescriptorPostQueueAddress.Low = 1221991554f2SKenneth D. Merry htole32((uint32_t)sc->post_busaddr); 1222991554f2SKenneth D. Merry init.ReplyFreeQueueAddress.High = 0; 1223991554f2SKenneth D. Merry init.ReplyFreeQueueAddress.Low = htole32((uint32_t)sc->free_busaddr); 1224991554f2SKenneth D. Merry getmicrotime(&now); 1225991554f2SKenneth D. Merry time_in_msec = (now.tv_sec * 1000 + now.tv_usec/1000); 1226991554f2SKenneth D. Merry init.TimeStamp.High = htole32((time_in_msec >> 32) & 0xFFFFFFFF); 1227991554f2SKenneth D. Merry init.TimeStamp.Low = htole32(time_in_msec & 0xFFFFFFFF); 122867feec50SStephen McConnell init.HostPageSize = HOST_PAGE_SIZE_4K; 1229991554f2SKenneth D. Merry 1230991554f2SKenneth D. Merry error = mpr_request_sync(sc, &init, &reply, req_sz, reply_sz, 5); 1231991554f2SKenneth D. Merry if ((reply.IOCStatus & MPI2_IOCSTATUS_MASK) != MPI2_IOCSTATUS_SUCCESS) 1232991554f2SKenneth D. Merry error = ENXIO; 1233991554f2SKenneth D. Merry 1234991554f2SKenneth D. Merry mpr_dprint(sc, MPR_INIT, "IOCInit status= 0x%x\n", reply.IOCStatus); 1235757ff642SScott Long mpr_dprint(sc, MPR_INIT, "%s exit\n", __func__); 1236991554f2SKenneth D. Merry return (error); 1237991554f2SKenneth D. Merry } 1238991554f2SKenneth D. Merry 1239991554f2SKenneth D. Merry void 1240991554f2SKenneth D. Merry mpr_memaddr_cb(void *arg, bus_dma_segment_t *segs, int nsegs, int error) 1241991554f2SKenneth D. Merry { 1242991554f2SKenneth D. Merry bus_addr_t *addr; 1243991554f2SKenneth D. Merry 1244991554f2SKenneth D. Merry addr = arg; 1245991554f2SKenneth D. Merry *addr = segs[0].ds_addr; 1246991554f2SKenneth D. Merry } 1247991554f2SKenneth D. Merry 1248e2997a03SKenneth D. Merry void 1249e2997a03SKenneth D. Merry mpr_memaddr_wait_cb(void *arg, bus_dma_segment_t *segs, int nsegs, int error) 1250e2997a03SKenneth D. Merry { 1251e2997a03SKenneth D. Merry struct mpr_busdma_context *ctx; 1252e2997a03SKenneth D. Merry int need_unload, need_free; 1253e2997a03SKenneth D. Merry 1254e2997a03SKenneth D. Merry ctx = (struct mpr_busdma_context *)arg; 1255e2997a03SKenneth D. Merry need_unload = 0; 1256e2997a03SKenneth D. Merry need_free = 0; 1257e2997a03SKenneth D. Merry 1258e2997a03SKenneth D. Merry mpr_lock(ctx->softc); 1259e2997a03SKenneth D. Merry ctx->error = error; 1260e2997a03SKenneth D. Merry ctx->completed = 1; 1261e2997a03SKenneth D. Merry if ((error == 0) && (ctx->abandoned == 0)) { 1262e2997a03SKenneth D. Merry *ctx->addr = segs[0].ds_addr; 1263e2997a03SKenneth D. Merry } else { 1264e2997a03SKenneth D. Merry if (nsegs != 0) 1265e2997a03SKenneth D. Merry need_unload = 1; 1266e2997a03SKenneth D. Merry if (ctx->abandoned != 0) 1267e2997a03SKenneth D. Merry need_free = 1; 1268e2997a03SKenneth D. Merry } 1269e2997a03SKenneth D. Merry if (need_free == 0) 1270e2997a03SKenneth D. Merry wakeup(ctx); 1271e2997a03SKenneth D. Merry 1272e2997a03SKenneth D. Merry mpr_unlock(ctx->softc); 1273e2997a03SKenneth D. Merry 1274e2997a03SKenneth D. Merry if (need_unload != 0) { 1275e2997a03SKenneth D. Merry bus_dmamap_unload(ctx->buffer_dmat, 1276e2997a03SKenneth D. Merry ctx->buffer_dmamap); 1277e2997a03SKenneth D. Merry *ctx->addr = 0; 1278e2997a03SKenneth D. Merry } 1279e2997a03SKenneth D. Merry 1280e2997a03SKenneth D. Merry if (need_free != 0) 1281e2997a03SKenneth D. Merry free(ctx, M_MPR); 1282e2997a03SKenneth D. Merry } 1283e2997a03SKenneth D. Merry 1284991554f2SKenneth D. Merry static int 1285991554f2SKenneth D. Merry mpr_alloc_queues(struct mpr_softc *sc) 1286991554f2SKenneth D. Merry { 1287bec09074SScott Long struct mpr_queue *q; 12881415db6cSScott Long int nq, i; 1289bec09074SScott Long 12903c5ac992SScott Long nq = sc->msi_msgs; 1291bec09074SScott Long mpr_dprint(sc, MPR_INIT|MPR_XINFO, "Allocating %d I/O queues\n", nq); 1292bec09074SScott Long 1293ac2fffa4SPedro F. Giffuni sc->queues = malloc(sizeof(struct mpr_queue) * nq, M_MPR, 12943c5ac992SScott Long M_NOWAIT|M_ZERO); 1295bec09074SScott Long if (sc->queues == NULL) 1296bec09074SScott Long return (ENOMEM); 1297bec09074SScott Long 1298bec09074SScott Long for (i = 0; i < nq; i++) { 1299bec09074SScott Long q = &sc->queues[i]; 1300bec09074SScott Long mpr_dprint(sc, MPR_INIT, "Configuring queue %d %p\n", i, q); 1301bec09074SScott Long q->sc = sc; 1302bec09074SScott Long q->qnum = i; 1303bec09074SScott Long } 13041415db6cSScott Long return (0); 13051415db6cSScott Long } 13061415db6cSScott Long 13071415db6cSScott Long static int 13081415db6cSScott Long mpr_alloc_hw_queues(struct mpr_softc *sc) 13091415db6cSScott Long { 13101415db6cSScott Long bus_addr_t queues_busaddr; 13111415db6cSScott Long uint8_t *queues; 13121415db6cSScott Long int qsize, fqsize, pqsize; 1313991554f2SKenneth D. Merry 1314991554f2SKenneth D. Merry /* 1315991554f2SKenneth D. Merry * The reply free queue contains 4 byte entries in multiples of 16 and 1316991554f2SKenneth D. Merry * aligned on a 16 byte boundary. There must always be an unused entry. 1317991554f2SKenneth D. Merry * This queue supplies fresh reply frames for the firmware to use. 1318991554f2SKenneth D. Merry * 1319991554f2SKenneth D. Merry * The reply descriptor post queue contains 8 byte entries in 1320991554f2SKenneth D. Merry * multiples of 16 and aligned on a 16 byte boundary. This queue 1321991554f2SKenneth D. Merry * contains filled-in reply frames sent from the firmware to the host. 1322991554f2SKenneth D. Merry * 1323991554f2SKenneth D. Merry * These two queues are allocated together for simplicity. 1324991554f2SKenneth D. Merry */ 1325d9c9c81cSPedro F. Giffuni sc->fqdepth = roundup2(sc->num_replies + 1, 16); 1326d9c9c81cSPedro F. Giffuni sc->pqdepth = roundup2(sc->num_replies + 1, 16); 1327991554f2SKenneth D. Merry fqsize= sc->fqdepth * 4; 1328991554f2SKenneth D. Merry pqsize = sc->pqdepth * 8; 1329991554f2SKenneth D. Merry qsize = fqsize + pqsize; 1330991554f2SKenneth D. Merry 1331991554f2SKenneth D. Merry if (bus_dma_tag_create( sc->mpr_parent_dmat, /* parent */ 1332991554f2SKenneth D. Merry 16, 0, /* algnmnt, boundary */ 1333991554f2SKenneth D. Merry BUS_SPACE_MAXADDR_32BIT,/* lowaddr */ 1334991554f2SKenneth D. Merry BUS_SPACE_MAXADDR, /* highaddr */ 1335991554f2SKenneth D. Merry NULL, NULL, /* filter, filterarg */ 1336991554f2SKenneth D. Merry qsize, /* maxsize */ 1337991554f2SKenneth D. Merry 1, /* nsegments */ 1338991554f2SKenneth D. Merry qsize, /* maxsegsize */ 1339991554f2SKenneth D. Merry 0, /* flags */ 1340991554f2SKenneth D. Merry NULL, NULL, /* lockfunc, lockarg */ 1341991554f2SKenneth D. Merry &sc->queues_dmat)) { 1342757ff642SScott Long mpr_dprint(sc, MPR_ERROR, "Cannot allocate queues DMA tag\n"); 1343991554f2SKenneth D. Merry return (ENOMEM); 1344991554f2SKenneth D. Merry } 1345991554f2SKenneth D. Merry if (bus_dmamem_alloc(sc->queues_dmat, (void **)&queues, BUS_DMA_NOWAIT, 1346991554f2SKenneth D. Merry &sc->queues_map)) { 1347757ff642SScott Long mpr_dprint(sc, MPR_ERROR, "Cannot allocate queues memory\n"); 1348991554f2SKenneth D. Merry return (ENOMEM); 1349991554f2SKenneth D. Merry } 1350991554f2SKenneth D. Merry bzero(queues, qsize); 1351991554f2SKenneth D. Merry bus_dmamap_load(sc->queues_dmat, sc->queues_map, queues, qsize, 1352991554f2SKenneth D. Merry mpr_memaddr_cb, &queues_busaddr, 0); 1353991554f2SKenneth D. Merry 1354991554f2SKenneth D. Merry sc->free_queue = (uint32_t *)queues; 1355991554f2SKenneth D. Merry sc->free_busaddr = queues_busaddr; 1356991554f2SKenneth D. Merry sc->post_queue = (MPI2_REPLY_DESCRIPTORS_UNION *)(queues + fqsize); 1357991554f2SKenneth D. Merry sc->post_busaddr = queues_busaddr + fqsize; 135892ddc7b8SLi-Wen Hsu mpr_dprint(sc, MPR_INIT, "free queue busaddr= %#016jx size= %d\n", 135992ddc7b8SLi-Wen Hsu (uintmax_t)sc->free_busaddr, fqsize); 136092ddc7b8SLi-Wen Hsu mpr_dprint(sc, MPR_INIT, "reply queue busaddr= %#016jx size= %d\n", 136192ddc7b8SLi-Wen Hsu (uintmax_t)sc->post_busaddr, pqsize); 1362991554f2SKenneth D. Merry 1363991554f2SKenneth D. Merry return (0); 1364991554f2SKenneth D. Merry } 1365991554f2SKenneth D. Merry 1366991554f2SKenneth D. Merry static int 1367991554f2SKenneth D. Merry mpr_alloc_replies(struct mpr_softc *sc) 1368991554f2SKenneth D. Merry { 1369991554f2SKenneth D. Merry int rsize, num_replies; 1370991554f2SKenneth D. Merry 137196410703SScott Long /* Store the reply frame size in bytes rather than as 32bit words */ 137296410703SScott Long sc->replyframesz = sc->facts->ReplyFrameSize * 4; 137396410703SScott Long 1374991554f2SKenneth D. Merry /* 1375991554f2SKenneth D. Merry * sc->num_replies should be one less than sc->fqdepth. We need to 1376991554f2SKenneth D. Merry * allocate space for sc->fqdepth replies, but only sc->num_replies 1377991554f2SKenneth D. Merry * replies can be used at once. 1378991554f2SKenneth D. Merry */ 1379991554f2SKenneth D. Merry num_replies = max(sc->fqdepth, sc->num_replies); 1380991554f2SKenneth D. Merry 138196410703SScott Long rsize = sc->replyframesz * num_replies; 1382991554f2SKenneth D. Merry if (bus_dma_tag_create( sc->mpr_parent_dmat, /* parent */ 1383991554f2SKenneth D. Merry 4, 0, /* algnmnt, boundary */ 1384991554f2SKenneth D. Merry BUS_SPACE_MAXADDR_32BIT,/* lowaddr */ 1385991554f2SKenneth D. Merry BUS_SPACE_MAXADDR, /* highaddr */ 1386991554f2SKenneth D. Merry NULL, NULL, /* filter, filterarg */ 1387991554f2SKenneth D. Merry rsize, /* maxsize */ 1388991554f2SKenneth D. Merry 1, /* nsegments */ 1389991554f2SKenneth D. Merry rsize, /* maxsegsize */ 1390991554f2SKenneth D. Merry 0, /* flags */ 1391991554f2SKenneth D. Merry NULL, NULL, /* lockfunc, lockarg */ 1392991554f2SKenneth D. Merry &sc->reply_dmat)) { 1393757ff642SScott Long mpr_dprint(sc, MPR_ERROR, "Cannot allocate replies DMA tag\n"); 1394991554f2SKenneth D. Merry return (ENOMEM); 1395991554f2SKenneth D. Merry } 1396991554f2SKenneth D. Merry if (bus_dmamem_alloc(sc->reply_dmat, (void **)&sc->reply_frames, 1397991554f2SKenneth D. Merry BUS_DMA_NOWAIT, &sc->reply_map)) { 1398757ff642SScott Long mpr_dprint(sc, MPR_ERROR, "Cannot allocate replies memory\n"); 1399991554f2SKenneth D. Merry return (ENOMEM); 1400991554f2SKenneth D. Merry } 1401991554f2SKenneth D. Merry bzero(sc->reply_frames, rsize); 1402991554f2SKenneth D. Merry bus_dmamap_load(sc->reply_dmat, sc->reply_map, sc->reply_frames, rsize, 1403991554f2SKenneth D. Merry mpr_memaddr_cb, &sc->reply_busaddr, 0); 140492ddc7b8SLi-Wen Hsu mpr_dprint(sc, MPR_INIT, "reply frames busaddr= %#016jx size= %d\n", 140592ddc7b8SLi-Wen Hsu (uintmax_t)sc->reply_busaddr, rsize); 1406991554f2SKenneth D. Merry 1407991554f2SKenneth D. Merry return (0); 1408991554f2SKenneth D. Merry } 1409991554f2SKenneth D. Merry 1410*731308d0SAlexander Motin static void 1411*731308d0SAlexander Motin mpr_load_chains_cb(void *arg, bus_dma_segment_t *segs, int nsegs, int error) 1412*731308d0SAlexander Motin { 1413*731308d0SAlexander Motin struct mpr_softc *sc = arg; 1414*731308d0SAlexander Motin struct mpr_chain *chain; 1415*731308d0SAlexander Motin bus_size_t bo; 1416*731308d0SAlexander Motin int i, o, s; 1417*731308d0SAlexander Motin 1418*731308d0SAlexander Motin if (error != 0) 1419*731308d0SAlexander Motin return; 1420*731308d0SAlexander Motin 1421*731308d0SAlexander Motin for (i = 0, o = 0, s = 0; s < nsegs; s++) { 1422*731308d0SAlexander Motin for (bo = 0; bo + sc->chain_frame_size <= segs[s].ds_len; 1423*731308d0SAlexander Motin bo += sc->chain_frame_size) { 1424*731308d0SAlexander Motin chain = &sc->chains[i++]; 1425*731308d0SAlexander Motin chain->chain =(MPI2_SGE_IO_UNION *)(sc->chain_frames+o); 1426*731308d0SAlexander Motin chain->chain_busaddr = segs[s].ds_addr + bo; 1427*731308d0SAlexander Motin o += sc->chain_frame_size; 1428*731308d0SAlexander Motin mpr_free_chain(sc, chain); 1429*731308d0SAlexander Motin } 1430*731308d0SAlexander Motin if (bo != segs[s].ds_len) 1431*731308d0SAlexander Motin o += segs[s].ds_len - bo; 1432*731308d0SAlexander Motin } 1433*731308d0SAlexander Motin sc->chain_free_lowwater = i; 1434*731308d0SAlexander Motin } 1435*731308d0SAlexander Motin 1436991554f2SKenneth D. Merry static int 1437991554f2SKenneth D. Merry mpr_alloc_requests(struct mpr_softc *sc) 1438991554f2SKenneth D. Merry { 1439991554f2SKenneth D. Merry struct mpr_command *cm; 1440991554f2SKenneth D. Merry int i, rsize, nsegs; 1441991554f2SKenneth D. Merry 144296410703SScott Long rsize = sc->reqframesz * sc->num_reqs; 1443991554f2SKenneth D. Merry if (bus_dma_tag_create( sc->mpr_parent_dmat, /* parent */ 1444991554f2SKenneth D. Merry 16, 0, /* algnmnt, boundary */ 1445991554f2SKenneth D. Merry BUS_SPACE_MAXADDR_32BIT,/* lowaddr */ 1446991554f2SKenneth D. Merry BUS_SPACE_MAXADDR, /* highaddr */ 1447991554f2SKenneth D. Merry NULL, NULL, /* filter, filterarg */ 1448991554f2SKenneth D. Merry rsize, /* maxsize */ 1449991554f2SKenneth D. Merry 1, /* nsegments */ 1450991554f2SKenneth D. Merry rsize, /* maxsegsize */ 1451991554f2SKenneth D. Merry 0, /* flags */ 1452991554f2SKenneth D. Merry NULL, NULL, /* lockfunc, lockarg */ 1453991554f2SKenneth D. Merry &sc->req_dmat)) { 1454757ff642SScott Long mpr_dprint(sc, MPR_ERROR, "Cannot allocate request DMA tag\n"); 1455991554f2SKenneth D. Merry return (ENOMEM); 1456991554f2SKenneth D. Merry } 1457991554f2SKenneth D. Merry if (bus_dmamem_alloc(sc->req_dmat, (void **)&sc->req_frames, 1458991554f2SKenneth D. Merry BUS_DMA_NOWAIT, &sc->req_map)) { 1459757ff642SScott Long mpr_dprint(sc, MPR_ERROR, "Cannot allocate request memory\n"); 1460991554f2SKenneth D. Merry return (ENOMEM); 1461991554f2SKenneth D. Merry } 1462991554f2SKenneth D. Merry bzero(sc->req_frames, rsize); 1463991554f2SKenneth D. Merry bus_dmamap_load(sc->req_dmat, sc->req_map, sc->req_frames, rsize, 1464991554f2SKenneth D. Merry mpr_memaddr_cb, &sc->req_busaddr, 0); 146592ddc7b8SLi-Wen Hsu mpr_dprint(sc, MPR_INIT, "request frames busaddr= %#016jx size= %d\n", 146692ddc7b8SLi-Wen Hsu (uintmax_t)sc->req_busaddr, rsize); 1467991554f2SKenneth D. Merry 1468*731308d0SAlexander Motin sc->chains = malloc(sizeof(struct mpr_chain) * sc->num_chains, M_MPR, 1469*731308d0SAlexander Motin M_NOWAIT | M_ZERO); 1470*731308d0SAlexander Motin if (!sc->chains) { 1471*731308d0SAlexander Motin mpr_dprint(sc, MPR_ERROR, "Cannot allocate chain memory\n"); 1472*731308d0SAlexander Motin return (ENOMEM); 1473*731308d0SAlexander Motin } 14744f5d6573SAlexander Motin rsize = sc->chain_frame_size * sc->num_chains; 1475991554f2SKenneth D. Merry if (bus_dma_tag_create( sc->mpr_parent_dmat, /* parent */ 1476991554f2SKenneth D. Merry 16, 0, /* algnmnt, boundary */ 1477991554f2SKenneth D. Merry BUS_SPACE_MAXADDR, /* lowaddr */ 1478991554f2SKenneth D. Merry BUS_SPACE_MAXADDR, /* highaddr */ 1479991554f2SKenneth D. Merry NULL, NULL, /* filter, filterarg */ 1480991554f2SKenneth D. Merry rsize, /* maxsize */ 1481*731308d0SAlexander Motin howmany(rsize, PAGE_SIZE), /* nsegments */ 1482991554f2SKenneth D. Merry rsize, /* maxsegsize */ 1483991554f2SKenneth D. Merry 0, /* flags */ 1484991554f2SKenneth D. Merry NULL, NULL, /* lockfunc, lockarg */ 1485991554f2SKenneth D. Merry &sc->chain_dmat)) { 1486757ff642SScott Long mpr_dprint(sc, MPR_ERROR, "Cannot allocate chain DMA tag\n"); 1487991554f2SKenneth D. Merry return (ENOMEM); 1488991554f2SKenneth D. Merry } 1489991554f2SKenneth D. Merry if (bus_dmamem_alloc(sc->chain_dmat, (void **)&sc->chain_frames, 1490*731308d0SAlexander Motin BUS_DMA_NOWAIT | BUS_DMA_ZERO, &sc->chain_map)) { 1491757ff642SScott Long mpr_dprint(sc, MPR_ERROR, "Cannot allocate chain memory\n"); 1492991554f2SKenneth D. Merry return (ENOMEM); 1493991554f2SKenneth D. Merry } 1494*731308d0SAlexander Motin if (bus_dmamap_load(sc->chain_dmat, sc->chain_map, sc->chain_frames, 1495*731308d0SAlexander Motin rsize, mpr_load_chains_cb, sc, BUS_DMA_NOWAIT)) { 1496*731308d0SAlexander Motin mpr_dprint(sc, MPR_ERROR, "Cannot load chain memory\n"); 1497*731308d0SAlexander Motin bus_dmamem_free(sc->chain_dmat, sc->chain_frames, 1498*731308d0SAlexander Motin sc->chain_map); 1499*731308d0SAlexander Motin return (ENOMEM); 1500*731308d0SAlexander Motin } 1501991554f2SKenneth D. Merry 1502991554f2SKenneth D. Merry rsize = MPR_SENSE_LEN * sc->num_reqs; 1503991554f2SKenneth D. Merry if (bus_dma_tag_create( sc->mpr_parent_dmat, /* parent */ 1504991554f2SKenneth D. Merry 1, 0, /* algnmnt, boundary */ 1505991554f2SKenneth D. Merry BUS_SPACE_MAXADDR_32BIT,/* lowaddr */ 1506991554f2SKenneth D. Merry BUS_SPACE_MAXADDR, /* highaddr */ 1507991554f2SKenneth D. Merry NULL, NULL, /* filter, filterarg */ 1508991554f2SKenneth D. Merry rsize, /* maxsize */ 1509991554f2SKenneth D. Merry 1, /* nsegments */ 1510991554f2SKenneth D. Merry rsize, /* maxsegsize */ 1511991554f2SKenneth D. Merry 0, /* flags */ 1512991554f2SKenneth D. Merry NULL, NULL, /* lockfunc, lockarg */ 1513991554f2SKenneth D. Merry &sc->sense_dmat)) { 1514757ff642SScott Long mpr_dprint(sc, MPR_ERROR, "Cannot allocate sense DMA tag\n"); 1515991554f2SKenneth D. Merry return (ENOMEM); 1516991554f2SKenneth D. Merry } 1517991554f2SKenneth D. Merry if (bus_dmamem_alloc(sc->sense_dmat, (void **)&sc->sense_frames, 1518991554f2SKenneth D. Merry BUS_DMA_NOWAIT, &sc->sense_map)) { 1519757ff642SScott Long mpr_dprint(sc, MPR_ERROR, "Cannot allocate sense memory\n"); 1520991554f2SKenneth D. Merry return (ENOMEM); 1521991554f2SKenneth D. Merry } 1522991554f2SKenneth D. Merry bzero(sc->sense_frames, rsize); 1523991554f2SKenneth D. Merry bus_dmamap_load(sc->sense_dmat, sc->sense_map, sc->sense_frames, rsize, 1524991554f2SKenneth D. Merry mpr_memaddr_cb, &sc->sense_busaddr, 0); 152592ddc7b8SLi-Wen Hsu mpr_dprint(sc, MPR_INIT, "sense frames busaddr= %#016jx size= %d\n", 152692ddc7b8SLi-Wen Hsu (uintmax_t)sc->sense_busaddr, rsize); 1527991554f2SKenneth D. Merry 152867feec50SStephen McConnell /* 152967feec50SStephen McConnell * Allocate NVMe PRP Pages for NVMe SGL support only if the FW supports 153067feec50SStephen McConnell * these devices. 153167feec50SStephen McConnell */ 153267feec50SStephen McConnell if ((sc->facts->MsgVersion >= MPI2_VERSION_02_06) && 153367feec50SStephen McConnell (sc->facts->ProtocolFlags & MPI2_IOCFACTS_PROTOCOL_NVME_DEVICES)) { 153467feec50SStephen McConnell if (mpr_alloc_nvme_prp_pages(sc) == ENOMEM) 153567feec50SStephen McConnell return (ENOMEM); 153667feec50SStephen McConnell } 153767feec50SStephen McConnell 15384f5d6573SAlexander Motin nsegs = (sc->maxio / PAGE_SIZE) + 1; 1539991554f2SKenneth D. Merry if (bus_dma_tag_create( sc->mpr_parent_dmat, /* parent */ 1540991554f2SKenneth D. Merry 1, 0, /* algnmnt, boundary */ 1541991554f2SKenneth D. Merry BUS_SPACE_MAXADDR, /* lowaddr */ 1542991554f2SKenneth D. Merry BUS_SPACE_MAXADDR, /* highaddr */ 1543991554f2SKenneth D. Merry NULL, NULL, /* filter, filterarg */ 1544991554f2SKenneth D. Merry BUS_SPACE_MAXSIZE_32BIT,/* maxsize */ 1545991554f2SKenneth D. Merry nsegs, /* nsegments */ 1546991554f2SKenneth D. Merry BUS_SPACE_MAXSIZE_32BIT,/* maxsegsize */ 1547991554f2SKenneth D. Merry BUS_DMA_ALLOCNOW, /* flags */ 1548991554f2SKenneth D. Merry busdma_lock_mutex, /* lockfunc */ 1549991554f2SKenneth D. Merry &sc->mpr_mtx, /* lockarg */ 1550991554f2SKenneth D. Merry &sc->buffer_dmat)) { 1551757ff642SScott Long mpr_dprint(sc, MPR_ERROR, "Cannot allocate buffer DMA tag\n"); 1552991554f2SKenneth D. Merry return (ENOMEM); 1553991554f2SKenneth D. Merry } 1554991554f2SKenneth D. Merry 1555991554f2SKenneth D. Merry /* 1556991554f2SKenneth D. Merry * SMID 0 cannot be used as a free command per the firmware spec. 1557991554f2SKenneth D. Merry * Just drop that command instead of risking accounting bugs. 1558991554f2SKenneth D. Merry */ 1559991554f2SKenneth D. Merry sc->commands = malloc(sizeof(struct mpr_command) * sc->num_reqs, 1560991554f2SKenneth D. Merry M_MPR, M_WAITOK | M_ZERO); 1561991554f2SKenneth D. Merry if (!sc->commands) { 1562757ff642SScott Long mpr_dprint(sc, MPR_ERROR, "Cannot allocate command memory\n"); 1563991554f2SKenneth D. Merry return (ENOMEM); 1564991554f2SKenneth D. Merry } 1565991554f2SKenneth D. Merry for (i = 1; i < sc->num_reqs; i++) { 1566991554f2SKenneth D. Merry cm = &sc->commands[i]; 156796410703SScott Long cm->cm_req = sc->req_frames + i * sc->reqframesz; 156896410703SScott Long cm->cm_req_busaddr = sc->req_busaddr + i * sc->reqframesz; 1569991554f2SKenneth D. Merry cm->cm_sense = &sc->sense_frames[i]; 1570991554f2SKenneth D. Merry cm->cm_sense_busaddr = sc->sense_busaddr + i * MPR_SENSE_LEN; 1571991554f2SKenneth D. Merry cm->cm_desc.Default.SMID = i; 1572991554f2SKenneth D. Merry cm->cm_sc = sc; 1573f0779b04SScott Long cm->cm_state = MPR_CM_STATE_BUSY; 1574991554f2SKenneth D. Merry TAILQ_INIT(&cm->cm_chain_list); 157567feec50SStephen McConnell TAILQ_INIT(&cm->cm_prp_page_list); 1576991554f2SKenneth D. Merry callout_init_mtx(&cm->cm_callout, &sc->mpr_mtx, 0); 1577991554f2SKenneth D. Merry 1578991554f2SKenneth D. Merry /* XXX Is a failure here a critical problem? */ 157967feec50SStephen McConnell if (bus_dmamap_create(sc->buffer_dmat, 0, &cm->cm_dmamap) 158067feec50SStephen McConnell == 0) { 158162a09ee9SAlexander Motin if (i <= sc->num_prireqs) 1582991554f2SKenneth D. Merry mpr_free_high_priority_command(sc, cm); 1583991554f2SKenneth D. Merry else 1584991554f2SKenneth D. Merry mpr_free_command(sc, cm); 158567feec50SStephen McConnell } else { 1586991554f2SKenneth D. Merry panic("failed to allocate command %d\n", i); 1587991554f2SKenneth D. Merry sc->num_reqs = i; 1588991554f2SKenneth D. Merry break; 1589991554f2SKenneth D. Merry } 1590991554f2SKenneth D. Merry } 1591991554f2SKenneth D. Merry 1592991554f2SKenneth D. Merry return (0); 1593991554f2SKenneth D. Merry } 1594991554f2SKenneth D. Merry 159567feec50SStephen McConnell /* 159667feec50SStephen McConnell * Allocate contiguous buffers for PCIe NVMe devices for building native PRPs, 159767feec50SStephen McConnell * which are scatter/gather lists for NVMe devices. 159867feec50SStephen McConnell * 159967feec50SStephen McConnell * This buffer must be contiguous due to the nature of how NVMe PRPs are built 160067feec50SStephen McConnell * and translated by FW. 160167feec50SStephen McConnell * 160267feec50SStephen McConnell * returns ENOMEM if memory could not be allocated, otherwise returns 0. 160367feec50SStephen McConnell */ 160467feec50SStephen McConnell static int 160567feec50SStephen McConnell mpr_alloc_nvme_prp_pages(struct mpr_softc *sc) 160667feec50SStephen McConnell { 160767feec50SStephen McConnell int PRPs_per_page, PRPs_required, pages_required; 160867feec50SStephen McConnell int rsize, i; 160967feec50SStephen McConnell struct mpr_prp_page *prp_page; 161067feec50SStephen McConnell 161167feec50SStephen McConnell /* 161267feec50SStephen McConnell * Assuming a MAX_IO_SIZE of 1MB and a PAGE_SIZE of 4k, the max number 161367feec50SStephen McConnell * of PRPs (NVMe's Scatter/Gather Element) needed per I/O is: 161467feec50SStephen McConnell * MAX_IO_SIZE / PAGE_SIZE = 256 161567feec50SStephen McConnell * 161667feec50SStephen McConnell * 1 PRP entry in main frame for PRP list pointer still leaves 255 PRPs 161767feec50SStephen McConnell * required for the remainder of the 1MB I/O. 512 PRPs can fit into one 161867feec50SStephen McConnell * page (4096 / 8 = 512), so only one page is required for each I/O. 161967feec50SStephen McConnell * 162067feec50SStephen McConnell * Each of these buffers will need to be contiguous. For simplicity, 162167feec50SStephen McConnell * only one buffer is allocated here, which has all of the space 162267feec50SStephen McConnell * required for the NVMe Queue Depth. If there are problems allocating 162367feec50SStephen McConnell * this one buffer, this function will need to change to allocate 162467feec50SStephen McConnell * individual, contiguous NVME_QDEPTH buffers. 162567feec50SStephen McConnell * 162667feec50SStephen McConnell * The real calculation will use the real max io size. Above is just an 162767feec50SStephen McConnell * example. 162867feec50SStephen McConnell * 162967feec50SStephen McConnell */ 163067feec50SStephen McConnell PRPs_required = sc->maxio / PAGE_SIZE; 163167feec50SStephen McConnell PRPs_per_page = (PAGE_SIZE / PRP_ENTRY_SIZE) - 1; 163267feec50SStephen McConnell pages_required = (PRPs_required / PRPs_per_page) + 1; 163367feec50SStephen McConnell 163467feec50SStephen McConnell sc->prp_buffer_size = PAGE_SIZE * pages_required; 163567feec50SStephen McConnell rsize = sc->prp_buffer_size * NVME_QDEPTH; 163667feec50SStephen McConnell if (bus_dma_tag_create( sc->mpr_parent_dmat, /* parent */ 163767feec50SStephen McConnell 4, 0, /* algnmnt, boundary */ 163867feec50SStephen McConnell BUS_SPACE_MAXADDR_32BIT,/* lowaddr */ 163967feec50SStephen McConnell BUS_SPACE_MAXADDR, /* highaddr */ 164067feec50SStephen McConnell NULL, NULL, /* filter, filterarg */ 164167feec50SStephen McConnell rsize, /* maxsize */ 164267feec50SStephen McConnell 1, /* nsegments */ 164367feec50SStephen McConnell rsize, /* maxsegsize */ 164467feec50SStephen McConnell 0, /* flags */ 164567feec50SStephen McConnell NULL, NULL, /* lockfunc, lockarg */ 164667feec50SStephen McConnell &sc->prp_page_dmat)) { 1647757ff642SScott Long mpr_dprint(sc, MPR_ERROR, "Cannot allocate NVMe PRP DMA " 164867feec50SStephen McConnell "tag\n"); 164967feec50SStephen McConnell return (ENOMEM); 165067feec50SStephen McConnell } 165167feec50SStephen McConnell if (bus_dmamem_alloc(sc->prp_page_dmat, (void **)&sc->prp_pages, 165267feec50SStephen McConnell BUS_DMA_NOWAIT, &sc->prp_page_map)) { 1653757ff642SScott Long mpr_dprint(sc, MPR_ERROR, "Cannot allocate NVMe PRP memory\n"); 165467feec50SStephen McConnell return (ENOMEM); 165567feec50SStephen McConnell } 165667feec50SStephen McConnell bzero(sc->prp_pages, rsize); 165767feec50SStephen McConnell bus_dmamap_load(sc->prp_page_dmat, sc->prp_page_map, sc->prp_pages, 165867feec50SStephen McConnell rsize, mpr_memaddr_cb, &sc->prp_page_busaddr, 0); 165967feec50SStephen McConnell 166067feec50SStephen McConnell sc->prps = malloc(sizeof(struct mpr_prp_page) * NVME_QDEPTH, M_MPR, 166167feec50SStephen McConnell M_WAITOK | M_ZERO); 166267feec50SStephen McConnell for (i = 0; i < NVME_QDEPTH; i++) { 166367feec50SStephen McConnell prp_page = &sc->prps[i]; 166467feec50SStephen McConnell prp_page->prp_page = (uint64_t *)(sc->prp_pages + 166567feec50SStephen McConnell i * sc->prp_buffer_size); 166667feec50SStephen McConnell prp_page->prp_page_busaddr = (uint64_t)(sc->prp_page_busaddr + 166767feec50SStephen McConnell i * sc->prp_buffer_size); 166867feec50SStephen McConnell mpr_free_prp_page(sc, prp_page); 166967feec50SStephen McConnell sc->prp_pages_free_lowwater++; 167067feec50SStephen McConnell } 167167feec50SStephen McConnell 167267feec50SStephen McConnell return (0); 167367feec50SStephen McConnell } 167467feec50SStephen McConnell 1675991554f2SKenneth D. Merry static int 1676991554f2SKenneth D. Merry mpr_init_queues(struct mpr_softc *sc) 1677991554f2SKenneth D. Merry { 1678991554f2SKenneth D. Merry int i; 1679991554f2SKenneth D. Merry 1680991554f2SKenneth D. Merry memset((uint8_t *)sc->post_queue, 0xff, sc->pqdepth * 8); 1681991554f2SKenneth D. Merry 1682991554f2SKenneth D. Merry /* 1683991554f2SKenneth D. Merry * According to the spec, we need to use one less reply than we 1684991554f2SKenneth D. Merry * have space for on the queue. So sc->num_replies (the number we 1685991554f2SKenneth D. Merry * use) should be less than sc->fqdepth (allocated size). 1686991554f2SKenneth D. Merry */ 1687991554f2SKenneth D. Merry if (sc->num_replies >= sc->fqdepth) 1688991554f2SKenneth D. Merry return (EINVAL); 1689991554f2SKenneth D. Merry 1690991554f2SKenneth D. Merry /* 1691991554f2SKenneth D. Merry * Initialize all of the free queue entries. 1692991554f2SKenneth D. Merry */ 169367feec50SStephen McConnell for (i = 0; i < sc->fqdepth; i++) { 169496410703SScott Long sc->free_queue[i] = sc->reply_busaddr + (i * sc->replyframesz); 169567feec50SStephen McConnell } 1696991554f2SKenneth D. Merry sc->replyfreeindex = sc->num_replies; 1697991554f2SKenneth D. Merry 1698991554f2SKenneth D. Merry return (0); 1699991554f2SKenneth D. Merry } 1700991554f2SKenneth D. Merry 1701991554f2SKenneth D. Merry /* Get the driver parameter tunables. Lowest priority are the driver defaults. 1702991554f2SKenneth D. Merry * Next are the global settings, if they exist. Highest are the per-unit 1703991554f2SKenneth D. Merry * settings, if they exist. 1704991554f2SKenneth D. Merry */ 1705252b2b4fSScott Long void 1706991554f2SKenneth D. Merry mpr_get_tunables(struct mpr_softc *sc) 1707991554f2SKenneth D. Merry { 1708867aa8cdSScott Long char tmpstr[80], mpr_debug[80]; 1709991554f2SKenneth D. Merry 1710991554f2SKenneth D. Merry /* XXX default to some debugging for now */ 1711991554f2SKenneth D. Merry sc->mpr_debug = MPR_INFO | MPR_FAULT; 1712991554f2SKenneth D. Merry sc->disable_msix = 0; 1713991554f2SKenneth D. Merry sc->disable_msi = 0; 17143c5ac992SScott Long sc->max_msix = MPR_MSIX_MAX; 1715991554f2SKenneth D. Merry sc->max_chains = MPR_CHAIN_FRAMES; 171632b0a21eSStephen McConnell sc->max_io_pages = MPR_MAXIO_PAGES; 1717a2c14879SStephen McConnell sc->enable_ssu = MPR_SSU_ENABLE_SSD_DISABLE_HDD; 1718a2c14879SStephen McConnell sc->spinup_wait_time = DEFAULT_SPINUP_WAIT; 17194ab1cdc5SScott Long sc->use_phynum = 1; 17203c5ac992SScott Long sc->max_reqframes = MPR_REQ_FRAMES; 17213c5ac992SScott Long sc->max_prireqframes = MPR_PRI_REQ_FRAMES; 17223c5ac992SScott Long sc->max_replyframes = MPR_REPLY_FRAMES; 17233c5ac992SScott Long sc->max_evtframes = MPR_EVT_REPLY_FRAMES; 1724991554f2SKenneth D. Merry 1725991554f2SKenneth D. Merry /* 1726991554f2SKenneth D. Merry * Grab the global variables. 1727991554f2SKenneth D. Merry */ 1728867aa8cdSScott Long bzero(mpr_debug, 80); 1729867aa8cdSScott Long if (TUNABLE_STR_FETCH("hw.mpr.debug_level", mpr_debug, 80) != 0) 1730867aa8cdSScott Long mpr_parse_debug(sc, mpr_debug); 1731991554f2SKenneth D. Merry TUNABLE_INT_FETCH("hw.mpr.disable_msix", &sc->disable_msix); 1732991554f2SKenneth D. Merry TUNABLE_INT_FETCH("hw.mpr.disable_msi", &sc->disable_msi); 17333c5ac992SScott Long TUNABLE_INT_FETCH("hw.mpr.max_msix", &sc->max_msix); 1734991554f2SKenneth D. Merry TUNABLE_INT_FETCH("hw.mpr.max_chains", &sc->max_chains); 173532b0a21eSStephen McConnell TUNABLE_INT_FETCH("hw.mpr.max_io_pages", &sc->max_io_pages); 1736a2c14879SStephen McConnell TUNABLE_INT_FETCH("hw.mpr.enable_ssu", &sc->enable_ssu); 1737a2c14879SStephen McConnell TUNABLE_INT_FETCH("hw.mpr.spinup_wait_time", &sc->spinup_wait_time); 17384ab1cdc5SScott Long TUNABLE_INT_FETCH("hw.mpr.use_phy_num", &sc->use_phynum); 17393c5ac992SScott Long TUNABLE_INT_FETCH("hw.mpr.max_reqframes", &sc->max_reqframes); 17403c5ac992SScott Long TUNABLE_INT_FETCH("hw.mpr.max_prireqframes", &sc->max_prireqframes); 17413c5ac992SScott Long TUNABLE_INT_FETCH("hw.mpr.max_replyframes", &sc->max_replyframes); 17423c5ac992SScott Long TUNABLE_INT_FETCH("hw.mpr.max_evtframes", &sc->max_evtframes); 1743991554f2SKenneth D. Merry 1744991554f2SKenneth D. Merry /* Grab the unit-instance variables */ 1745991554f2SKenneth D. Merry snprintf(tmpstr, sizeof(tmpstr), "dev.mpr.%d.debug_level", 1746991554f2SKenneth D. Merry device_get_unit(sc->mpr_dev)); 1747867aa8cdSScott Long bzero(mpr_debug, 80); 1748867aa8cdSScott Long if (TUNABLE_STR_FETCH(tmpstr, mpr_debug, 80) != 0) 1749867aa8cdSScott Long mpr_parse_debug(sc, mpr_debug); 1750991554f2SKenneth D. Merry 1751991554f2SKenneth D. Merry snprintf(tmpstr, sizeof(tmpstr), "dev.mpr.%d.disable_msix", 1752991554f2SKenneth D. Merry device_get_unit(sc->mpr_dev)); 1753991554f2SKenneth D. Merry TUNABLE_INT_FETCH(tmpstr, &sc->disable_msix); 1754991554f2SKenneth D. Merry 1755991554f2SKenneth D. Merry snprintf(tmpstr, sizeof(tmpstr), "dev.mpr.%d.disable_msi", 1756991554f2SKenneth D. Merry device_get_unit(sc->mpr_dev)); 1757991554f2SKenneth D. Merry TUNABLE_INT_FETCH(tmpstr, &sc->disable_msi); 1758991554f2SKenneth D. Merry 17593c5ac992SScott Long snprintf(tmpstr, sizeof(tmpstr), "dev.mpr.%d.max_msix", 17603c5ac992SScott Long device_get_unit(sc->mpr_dev)); 17613c5ac992SScott Long TUNABLE_INT_FETCH(tmpstr, &sc->max_msix); 17623c5ac992SScott Long 1763991554f2SKenneth D. Merry snprintf(tmpstr, sizeof(tmpstr), "dev.mpr.%d.max_chains", 1764991554f2SKenneth D. Merry device_get_unit(sc->mpr_dev)); 1765991554f2SKenneth D. Merry TUNABLE_INT_FETCH(tmpstr, &sc->max_chains); 1766991554f2SKenneth D. Merry 176732b0a21eSStephen McConnell snprintf(tmpstr, sizeof(tmpstr), "dev.mpr.%d.max_io_pages", 176832b0a21eSStephen McConnell device_get_unit(sc->mpr_dev)); 176932b0a21eSStephen McConnell TUNABLE_INT_FETCH(tmpstr, &sc->max_io_pages); 177032b0a21eSStephen McConnell 1771991554f2SKenneth D. Merry bzero(sc->exclude_ids, sizeof(sc->exclude_ids)); 1772991554f2SKenneth D. Merry snprintf(tmpstr, sizeof(tmpstr), "dev.mpr.%d.exclude_ids", 1773991554f2SKenneth D. Merry device_get_unit(sc->mpr_dev)); 1774991554f2SKenneth D. Merry TUNABLE_STR_FETCH(tmpstr, sc->exclude_ids, sizeof(sc->exclude_ids)); 1775a2c14879SStephen McConnell 1776a2c14879SStephen McConnell snprintf(tmpstr, sizeof(tmpstr), "dev.mpr.%d.enable_ssu", 1777a2c14879SStephen McConnell device_get_unit(sc->mpr_dev)); 1778a2c14879SStephen McConnell TUNABLE_INT_FETCH(tmpstr, &sc->enable_ssu); 1779a2c14879SStephen McConnell 1780a2c14879SStephen McConnell snprintf(tmpstr, sizeof(tmpstr), "dev.mpr.%d.spinup_wait_time", 1781a2c14879SStephen McConnell device_get_unit(sc->mpr_dev)); 1782a2c14879SStephen McConnell TUNABLE_INT_FETCH(tmpstr, &sc->spinup_wait_time); 17834ab1cdc5SScott Long 17844ab1cdc5SScott Long snprintf(tmpstr, sizeof(tmpstr), "dev.mpr.%d.use_phy_num", 17854ab1cdc5SScott Long device_get_unit(sc->mpr_dev)); 17864ab1cdc5SScott Long TUNABLE_INT_FETCH(tmpstr, &sc->use_phynum); 17873c5ac992SScott Long 17883c5ac992SScott Long snprintf(tmpstr, sizeof(tmpstr), "dev.mpr.%d.max_reqframes", 17893c5ac992SScott Long device_get_unit(sc->mpr_dev)); 17903c5ac992SScott Long TUNABLE_INT_FETCH(tmpstr, &sc->max_reqframes); 17913c5ac992SScott Long 17923c5ac992SScott Long snprintf(tmpstr, sizeof(tmpstr), "dev.mpr.%d.max_prireqframes", 17933c5ac992SScott Long device_get_unit(sc->mpr_dev)); 17943c5ac992SScott Long TUNABLE_INT_FETCH(tmpstr, &sc->max_prireqframes); 17953c5ac992SScott Long 17963c5ac992SScott Long snprintf(tmpstr, sizeof(tmpstr), "dev.mpr.%d.max_replyframes", 17973c5ac992SScott Long device_get_unit(sc->mpr_dev)); 17983c5ac992SScott Long TUNABLE_INT_FETCH(tmpstr, &sc->max_replyframes); 17993c5ac992SScott Long 18003c5ac992SScott Long snprintf(tmpstr, sizeof(tmpstr), "dev.mpr.%d.max_evtframes", 18013c5ac992SScott Long device_get_unit(sc->mpr_dev)); 18023c5ac992SScott Long TUNABLE_INT_FETCH(tmpstr, &sc->max_evtframes); 1803991554f2SKenneth D. Merry } 1804991554f2SKenneth D. Merry 1805991554f2SKenneth D. Merry static void 1806991554f2SKenneth D. Merry mpr_setup_sysctl(struct mpr_softc *sc) 1807991554f2SKenneth D. Merry { 1808991554f2SKenneth D. Merry struct sysctl_ctx_list *sysctl_ctx = NULL; 1809991554f2SKenneth D. Merry struct sysctl_oid *sysctl_tree = NULL; 1810991554f2SKenneth D. Merry char tmpstr[80], tmpstr2[80]; 1811991554f2SKenneth D. Merry 1812991554f2SKenneth D. Merry /* 1813991554f2SKenneth D. Merry * Setup the sysctl variable so the user can change the debug level 1814991554f2SKenneth D. Merry * on the fly. 1815991554f2SKenneth D. Merry */ 1816991554f2SKenneth D. Merry snprintf(tmpstr, sizeof(tmpstr), "MPR controller %d", 1817991554f2SKenneth D. Merry device_get_unit(sc->mpr_dev)); 1818991554f2SKenneth D. Merry snprintf(tmpstr2, sizeof(tmpstr2), "%d", device_get_unit(sc->mpr_dev)); 1819991554f2SKenneth D. Merry 1820991554f2SKenneth D. Merry sysctl_ctx = device_get_sysctl_ctx(sc->mpr_dev); 1821991554f2SKenneth D. Merry if (sysctl_ctx != NULL) 1822991554f2SKenneth D. Merry sysctl_tree = device_get_sysctl_tree(sc->mpr_dev); 1823991554f2SKenneth D. Merry 1824991554f2SKenneth D. Merry if (sysctl_tree == NULL) { 1825991554f2SKenneth D. Merry sysctl_ctx_init(&sc->sysctl_ctx); 1826991554f2SKenneth D. Merry sc->sysctl_tree = SYSCTL_ADD_NODE(&sc->sysctl_ctx, 1827991554f2SKenneth D. Merry SYSCTL_STATIC_CHILDREN(_hw_mpr), OID_AUTO, tmpstr2, 1828991554f2SKenneth D. Merry CTLFLAG_RD, 0, tmpstr); 1829991554f2SKenneth D. Merry if (sc->sysctl_tree == NULL) 1830991554f2SKenneth D. Merry return; 1831991554f2SKenneth D. Merry sysctl_ctx = &sc->sysctl_ctx; 1832991554f2SKenneth D. Merry sysctl_tree = sc->sysctl_tree; 1833991554f2SKenneth D. Merry } 1834991554f2SKenneth D. Merry 1835867aa8cdSScott Long SYSCTL_ADD_PROC(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 1836cb242d7cSScott Long OID_AUTO, "debug_level", CTLTYPE_STRING | CTLFLAG_RW | CTLFLAG_MPSAFE, 1837cb242d7cSScott Long sc, 0, mpr_debug_sysctl, "A", "mpr debug level"); 1838991554f2SKenneth D. Merry 1839991554f2SKenneth D. Merry SYSCTL_ADD_INT(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 1840991554f2SKenneth D. Merry OID_AUTO, "disable_msix", CTLFLAG_RD, &sc->disable_msix, 0, 1841991554f2SKenneth D. Merry "Disable the use of MSI-X interrupts"); 1842991554f2SKenneth D. Merry 1843991554f2SKenneth D. Merry SYSCTL_ADD_INT(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 18443c5ac992SScott Long OID_AUTO, "max_msix", CTLFLAG_RD, &sc->max_msix, 0, 18453c5ac992SScott Long "User-defined maximum number of MSIX queues"); 18463c5ac992SScott Long 18473c5ac992SScott Long SYSCTL_ADD_INT(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 18483c5ac992SScott Long OID_AUTO, "msix_msgs", CTLFLAG_RD, &sc->msi_msgs, 0, 18493c5ac992SScott Long "Negotiated number of MSIX queues"); 18503c5ac992SScott Long 18513c5ac992SScott Long SYSCTL_ADD_INT(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 18523c5ac992SScott Long OID_AUTO, "max_reqframes", CTLFLAG_RD, &sc->max_reqframes, 0, 18533c5ac992SScott Long "Total number of allocated request frames"); 18543c5ac992SScott Long 18553c5ac992SScott Long SYSCTL_ADD_INT(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 18563c5ac992SScott Long OID_AUTO, "max_prireqframes", CTLFLAG_RD, &sc->max_prireqframes, 0, 18573c5ac992SScott Long "Total number of allocated high priority request frames"); 18583c5ac992SScott Long 18593c5ac992SScott Long SYSCTL_ADD_INT(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 18603c5ac992SScott Long OID_AUTO, "max_replyframes", CTLFLAG_RD, &sc->max_replyframes, 0, 18613c5ac992SScott Long "Total number of allocated reply frames"); 18623c5ac992SScott Long 18633c5ac992SScott Long SYSCTL_ADD_INT(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 18643c5ac992SScott Long OID_AUTO, "max_evtframes", CTLFLAG_RD, &sc->max_evtframes, 0, 18653c5ac992SScott Long "Total number of event frames allocated"); 1866991554f2SKenneth D. Merry 1867991554f2SKenneth D. Merry SYSCTL_ADD_STRING(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 1868f0188618SHans Petter Selasky OID_AUTO, "firmware_version", CTLFLAG_RW, sc->fw_version, 1869991554f2SKenneth D. Merry strlen(sc->fw_version), "firmware version"); 1870991554f2SKenneth D. Merry 1871991554f2SKenneth D. Merry SYSCTL_ADD_STRING(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 1872991554f2SKenneth D. Merry OID_AUTO, "driver_version", CTLFLAG_RW, MPR_DRIVER_VERSION, 1873991554f2SKenneth D. Merry strlen(MPR_DRIVER_VERSION), "driver version"); 1874991554f2SKenneth D. Merry 1875991554f2SKenneth D. Merry SYSCTL_ADD_INT(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 1876991554f2SKenneth D. Merry OID_AUTO, "io_cmds_active", CTLFLAG_RD, 1877991554f2SKenneth D. Merry &sc->io_cmds_active, 0, "number of currently active commands"); 1878991554f2SKenneth D. Merry 1879991554f2SKenneth D. Merry SYSCTL_ADD_INT(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 1880991554f2SKenneth D. Merry OID_AUTO, "io_cmds_highwater", CTLFLAG_RD, 1881991554f2SKenneth D. Merry &sc->io_cmds_highwater, 0, "maximum active commands seen"); 1882991554f2SKenneth D. Merry 1883991554f2SKenneth D. Merry SYSCTL_ADD_INT(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 1884991554f2SKenneth D. Merry OID_AUTO, "chain_free", CTLFLAG_RD, 1885991554f2SKenneth D. Merry &sc->chain_free, 0, "number of free chain elements"); 1886991554f2SKenneth D. Merry 1887991554f2SKenneth D. Merry SYSCTL_ADD_INT(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 1888991554f2SKenneth D. Merry OID_AUTO, "chain_free_lowwater", CTLFLAG_RD, 1889991554f2SKenneth D. Merry &sc->chain_free_lowwater, 0,"lowest number of free chain elements"); 1890991554f2SKenneth D. Merry 1891991554f2SKenneth D. Merry SYSCTL_ADD_INT(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 1892991554f2SKenneth D. Merry OID_AUTO, "max_chains", CTLFLAG_RD, 1893991554f2SKenneth D. Merry &sc->max_chains, 0,"maximum chain frames that will be allocated"); 1894991554f2SKenneth D. Merry 1895a2c14879SStephen McConnell SYSCTL_ADD_INT(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 189632b0a21eSStephen McConnell OID_AUTO, "max_io_pages", CTLFLAG_RD, 189732b0a21eSStephen McConnell &sc->max_io_pages, 0,"maximum pages to allow per I/O (if <1 use " 189832b0a21eSStephen McConnell "IOCFacts)"); 189932b0a21eSStephen McConnell 190032b0a21eSStephen McConnell SYSCTL_ADD_INT(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 1901a2c14879SStephen McConnell OID_AUTO, "enable_ssu", CTLFLAG_RW, &sc->enable_ssu, 0, 1902a2c14879SStephen McConnell "enable SSU to SATA SSD/HDD at shutdown"); 1903a2c14879SStephen McConnell 1904991554f2SKenneth D. Merry SYSCTL_ADD_UQUAD(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 1905991554f2SKenneth D. Merry OID_AUTO, "chain_alloc_fail", CTLFLAG_RD, 1906991554f2SKenneth D. Merry &sc->chain_alloc_fail, "chain allocation failures"); 1907a2c14879SStephen McConnell 1908a2c14879SStephen McConnell SYSCTL_ADD_INT(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 1909a2c14879SStephen McConnell OID_AUTO, "spinup_wait_time", CTLFLAG_RD, 1910a2c14879SStephen McConnell &sc->spinup_wait_time, DEFAULT_SPINUP_WAIT, "seconds to wait for " 1911a2c14879SStephen McConnell "spinup after SATA ID error"); 19124ab1cdc5SScott Long 19134ab1cdc5SScott Long SYSCTL_ADD_INT(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 19144ab1cdc5SScott Long OID_AUTO, "use_phy_num", CTLFLAG_RD, &sc->use_phynum, 0, 19154ab1cdc5SScott Long "Use the phy number for enumeration"); 191667feec50SStephen McConnell 191767feec50SStephen McConnell SYSCTL_ADD_INT(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 191867feec50SStephen McConnell OID_AUTO, "prp_pages_free", CTLFLAG_RD, 191967feec50SStephen McConnell &sc->prp_pages_free, 0, "number of free PRP pages"); 192067feec50SStephen McConnell 192167feec50SStephen McConnell SYSCTL_ADD_INT(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 192267feec50SStephen McConnell OID_AUTO, "prp_pages_free_lowwater", CTLFLAG_RD, 192367feec50SStephen McConnell &sc->prp_pages_free_lowwater, 0,"lowest number of free PRP pages"); 192467feec50SStephen McConnell 192567feec50SStephen McConnell SYSCTL_ADD_UQUAD(sysctl_ctx, SYSCTL_CHILDREN(sysctl_tree), 192667feec50SStephen McConnell OID_AUTO, "prp_page_alloc_fail", CTLFLAG_RD, 192767feec50SStephen McConnell &sc->prp_page_alloc_fail, "PRP page allocation failures"); 1928991554f2SKenneth D. Merry } 1929991554f2SKenneth D. Merry 1930867aa8cdSScott Long static struct mpr_debug_string { 1931867aa8cdSScott Long char *name; 1932867aa8cdSScott Long int flag; 1933867aa8cdSScott Long } mpr_debug_strings[] = { 1934867aa8cdSScott Long {"info", MPR_INFO}, 1935867aa8cdSScott Long {"fault", MPR_FAULT}, 1936867aa8cdSScott Long {"event", MPR_EVENT}, 1937867aa8cdSScott Long {"log", MPR_LOG}, 1938867aa8cdSScott Long {"recovery", MPR_RECOVERY}, 1939867aa8cdSScott Long {"error", MPR_ERROR}, 1940867aa8cdSScott Long {"init", MPR_INIT}, 1941867aa8cdSScott Long {"xinfo", MPR_XINFO}, 1942867aa8cdSScott Long {"user", MPR_USER}, 1943867aa8cdSScott Long {"mapping", MPR_MAPPING}, 1944867aa8cdSScott Long {"trace", MPR_TRACE} 1945867aa8cdSScott Long }; 1946867aa8cdSScott Long 1947cfd6fd5aSScott Long enum mpr_debug_level_combiner { 1948cfd6fd5aSScott Long COMB_NONE, 1949cfd6fd5aSScott Long COMB_ADD, 1950cfd6fd5aSScott Long COMB_SUB 1951cfd6fd5aSScott Long }; 1952cfd6fd5aSScott Long 1953867aa8cdSScott Long static int 1954867aa8cdSScott Long mpr_debug_sysctl(SYSCTL_HANDLER_ARGS) 1955867aa8cdSScott Long { 1956867aa8cdSScott Long struct mpr_softc *sc; 1957867aa8cdSScott Long struct mpr_debug_string *string; 1958cb242d7cSScott Long struct sbuf *sbuf; 1959867aa8cdSScott Long char *buffer; 1960867aa8cdSScott Long size_t sz; 1961867aa8cdSScott Long int i, len, debug, error; 1962867aa8cdSScott Long 1963867aa8cdSScott Long sc = (struct mpr_softc *)arg1; 1964867aa8cdSScott Long 1965867aa8cdSScott Long error = sysctl_wire_old_buffer(req, 0); 1966867aa8cdSScott Long if (error != 0) 1967867aa8cdSScott Long return (error); 1968867aa8cdSScott Long 1969cb242d7cSScott Long sbuf = sbuf_new_for_sysctl(NULL, NULL, 128, req); 1970867aa8cdSScott Long debug = sc->mpr_debug; 1971867aa8cdSScott Long 1972cb242d7cSScott Long sbuf_printf(sbuf, "%#x", debug); 1973867aa8cdSScott Long 1974867aa8cdSScott Long sz = sizeof(mpr_debug_strings) / sizeof(mpr_debug_strings[0]); 1975867aa8cdSScott Long for (i = 0; i < sz; i++) { 1976867aa8cdSScott Long string = &mpr_debug_strings[i]; 1977867aa8cdSScott Long if (debug & string->flag) 1978cb242d7cSScott Long sbuf_printf(sbuf, ",%s", string->name); 1979867aa8cdSScott Long } 1980867aa8cdSScott Long 1981cb242d7cSScott Long error = sbuf_finish(sbuf); 1982cb242d7cSScott Long sbuf_delete(sbuf); 1983867aa8cdSScott Long 1984867aa8cdSScott Long if (error || req->newptr == NULL) 1985867aa8cdSScott Long return (error); 1986867aa8cdSScott Long 1987867aa8cdSScott Long len = req->newlen - req->newidx; 1988867aa8cdSScott Long if (len == 0) 1989867aa8cdSScott Long return (0); 1990867aa8cdSScott Long 1991867aa8cdSScott Long buffer = malloc(len, M_MPR, M_ZERO|M_WAITOK); 1992867aa8cdSScott Long error = SYSCTL_IN(req, buffer, len); 1993867aa8cdSScott Long 1994867aa8cdSScott Long mpr_parse_debug(sc, buffer); 1995867aa8cdSScott Long 1996867aa8cdSScott Long free(buffer, M_MPR); 1997867aa8cdSScott Long return (error); 1998867aa8cdSScott Long } 1999867aa8cdSScott Long 2000867aa8cdSScott Long static void 2001867aa8cdSScott Long mpr_parse_debug(struct mpr_softc *sc, char *list) 2002867aa8cdSScott Long { 2003867aa8cdSScott Long struct mpr_debug_string *string; 2004cfd6fd5aSScott Long enum mpr_debug_level_combiner op; 2005867aa8cdSScott Long char *token, *endtoken; 2006867aa8cdSScott Long size_t sz; 2007867aa8cdSScott Long int flags, i; 2008867aa8cdSScott Long 2009867aa8cdSScott Long if (list == NULL || *list == '\0') 2010867aa8cdSScott Long return; 2011867aa8cdSScott Long 2012cfd6fd5aSScott Long if (*list == '+') { 2013cfd6fd5aSScott Long op = COMB_ADD; 2014cfd6fd5aSScott Long list++; 2015cfd6fd5aSScott Long } else if (*list == '-') { 2016cfd6fd5aSScott Long op = COMB_SUB; 2017cfd6fd5aSScott Long list++; 2018cfd6fd5aSScott Long } else 2019cfd6fd5aSScott Long op = COMB_NONE; 2020cfd6fd5aSScott Long if (*list == '\0') 2021cfd6fd5aSScott Long return; 2022cfd6fd5aSScott Long 2023867aa8cdSScott Long flags = 0; 2024867aa8cdSScott Long sz = sizeof(mpr_debug_strings) / sizeof(mpr_debug_strings[0]); 2025867aa8cdSScott Long while ((token = strsep(&list, ":,")) != NULL) { 2026867aa8cdSScott Long 2027867aa8cdSScott Long /* Handle integer flags */ 2028867aa8cdSScott Long flags |= strtol(token, &endtoken, 0); 2029867aa8cdSScott Long if (token != endtoken) 2030867aa8cdSScott Long continue; 2031867aa8cdSScott Long 2032867aa8cdSScott Long /* Handle text flags */ 2033867aa8cdSScott Long for (i = 0; i < sz; i++) { 2034867aa8cdSScott Long string = &mpr_debug_strings[i]; 2035867aa8cdSScott Long if (strcasecmp(token, string->name) == 0) { 2036867aa8cdSScott Long flags |= string->flag; 2037867aa8cdSScott Long break; 2038867aa8cdSScott Long } 2039867aa8cdSScott Long } 2040867aa8cdSScott Long } 2041867aa8cdSScott Long 2042cfd6fd5aSScott Long switch (op) { 2043cfd6fd5aSScott Long case COMB_NONE: 2044867aa8cdSScott Long sc->mpr_debug = flags; 2045cfd6fd5aSScott Long break; 2046cfd6fd5aSScott Long case COMB_ADD: 2047cfd6fd5aSScott Long sc->mpr_debug |= flags; 2048cfd6fd5aSScott Long break; 2049cfd6fd5aSScott Long case COMB_SUB: 2050cfd6fd5aSScott Long sc->mpr_debug &= (~flags); 2051cfd6fd5aSScott Long break; 2052cfd6fd5aSScott Long } 2053867aa8cdSScott Long return; 2054867aa8cdSScott Long } 2055867aa8cdSScott Long 2056991554f2SKenneth D. Merry int 2057991554f2SKenneth D. Merry mpr_attach(struct mpr_softc *sc) 2058991554f2SKenneth D. Merry { 2059991554f2SKenneth D. Merry int error; 2060991554f2SKenneth D. Merry 2061991554f2SKenneth D. Merry MPR_FUNCTRACE(sc); 2062757ff642SScott Long mpr_dprint(sc, MPR_INIT, "%s entered\n", __func__); 2063991554f2SKenneth D. Merry 2064991554f2SKenneth D. Merry mtx_init(&sc->mpr_mtx, "MPR lock", NULL, MTX_DEF); 2065991554f2SKenneth D. Merry callout_init_mtx(&sc->periodic, &sc->mpr_mtx, 0); 2066327f2e6cSStephen McConnell callout_init_mtx(&sc->device_check_callout, &sc->mpr_mtx, 0); 2067991554f2SKenneth D. Merry TAILQ_INIT(&sc->event_list); 2068991554f2SKenneth D. Merry timevalclear(&sc->lastfail); 2069991554f2SKenneth D. Merry 2070991554f2SKenneth D. Merry if ((error = mpr_transition_ready(sc)) != 0) { 2071757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_FAULT, 2072757ff642SScott Long "Failed to transition ready\n"); 2073991554f2SKenneth D. Merry return (error); 2074991554f2SKenneth D. Merry } 2075991554f2SKenneth D. Merry 2076991554f2SKenneth D. Merry sc->facts = malloc(sizeof(MPI2_IOC_FACTS_REPLY), M_MPR, 2077991554f2SKenneth D. Merry M_ZERO|M_NOWAIT); 2078991554f2SKenneth D. Merry if (!sc->facts) { 2079757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_FAULT, 2080757ff642SScott Long "Cannot allocate memory, exit\n"); 2081991554f2SKenneth D. Merry return (ENOMEM); 2082991554f2SKenneth D. Merry } 2083991554f2SKenneth D. Merry 2084991554f2SKenneth D. Merry /* 2085991554f2SKenneth D. Merry * Get IOC Facts and allocate all structures based on this information. 2086991554f2SKenneth D. Merry * A Diag Reset will also call mpr_iocfacts_allocate and re-read the IOC 2087991554f2SKenneth D. Merry * Facts. If relevant values have changed in IOC Facts, this function 2088991554f2SKenneth D. Merry * will free all of the memory based on IOC Facts and reallocate that 2089991554f2SKenneth D. Merry * memory. If this fails, any allocated memory should already be freed. 2090991554f2SKenneth D. Merry */ 2091991554f2SKenneth D. Merry if ((error = mpr_iocfacts_allocate(sc, TRUE)) != 0) { 2092757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_FAULT, "IOC Facts allocation " 2093757ff642SScott Long "failed with error %d\n", error); 2094991554f2SKenneth D. Merry return (error); 2095991554f2SKenneth D. Merry } 2096991554f2SKenneth D. Merry 2097991554f2SKenneth D. Merry /* Start the periodic watchdog check on the IOC Doorbell */ 2098991554f2SKenneth D. Merry mpr_periodic(sc); 2099991554f2SKenneth D. Merry 2100991554f2SKenneth D. Merry /* 2101991554f2SKenneth D. Merry * The portenable will kick off discovery events that will drive the 2102991554f2SKenneth D. Merry * rest of the initialization process. The CAM/SAS module will 2103991554f2SKenneth D. Merry * hold up the boot sequence until discovery is complete. 2104991554f2SKenneth D. Merry */ 2105991554f2SKenneth D. Merry sc->mpr_ich.ich_func = mpr_startup; 2106991554f2SKenneth D. Merry sc->mpr_ich.ich_arg = sc; 2107991554f2SKenneth D. Merry if (config_intrhook_establish(&sc->mpr_ich) != 0) { 2108757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_ERROR, 2109757ff642SScott Long "Cannot establish MPR config hook\n"); 2110991554f2SKenneth D. Merry error = EINVAL; 2111991554f2SKenneth D. Merry } 2112991554f2SKenneth D. Merry 2113991554f2SKenneth D. Merry /* 2114991554f2SKenneth D. Merry * Allow IR to shutdown gracefully when shutdown occurs. 2115991554f2SKenneth D. Merry */ 2116991554f2SKenneth D. Merry sc->shutdown_eh = EVENTHANDLER_REGISTER(shutdown_final, 2117991554f2SKenneth D. Merry mprsas_ir_shutdown, sc, SHUTDOWN_PRI_DEFAULT); 2118991554f2SKenneth D. Merry 2119991554f2SKenneth D. Merry if (sc->shutdown_eh == NULL) 2120757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_ERROR, 2121757ff642SScott Long "shutdown event registration failed\n"); 2122991554f2SKenneth D. Merry 2123991554f2SKenneth D. Merry mpr_setup_sysctl(sc); 2124991554f2SKenneth D. Merry 2125991554f2SKenneth D. Merry sc->mpr_flags |= MPR_FLAGS_ATTACH_DONE; 2126757ff642SScott Long mpr_dprint(sc, MPR_INIT, "%s exit error= %d\n", __func__, error); 2127991554f2SKenneth D. Merry 2128991554f2SKenneth D. Merry return (error); 2129991554f2SKenneth D. Merry } 2130991554f2SKenneth D. Merry 2131991554f2SKenneth D. Merry /* Run through any late-start handlers. */ 2132991554f2SKenneth D. Merry static void 2133991554f2SKenneth D. Merry mpr_startup(void *arg) 2134991554f2SKenneth D. Merry { 2135991554f2SKenneth D. Merry struct mpr_softc *sc; 2136991554f2SKenneth D. Merry 2137991554f2SKenneth D. Merry sc = (struct mpr_softc *)arg; 2138757ff642SScott Long mpr_dprint(sc, MPR_INIT, "%s entered\n", __func__); 2139991554f2SKenneth D. Merry 2140991554f2SKenneth D. Merry mpr_lock(sc); 2141991554f2SKenneth D. Merry mpr_unmask_intr(sc); 2142991554f2SKenneth D. Merry 2143991554f2SKenneth D. Merry /* initialize device mapping tables */ 2144991554f2SKenneth D. Merry mpr_base_static_config_pages(sc); 2145991554f2SKenneth D. Merry mpr_mapping_initialize(sc); 2146991554f2SKenneth D. Merry mprsas_startup(sc); 2147991554f2SKenneth D. Merry mpr_unlock(sc); 2148a4bb51a4SScott Long 2149a4bb51a4SScott Long mpr_dprint(sc, MPR_INIT, "disestablish config intrhook\n"); 2150a4bb51a4SScott Long config_intrhook_disestablish(&sc->mpr_ich); 2151a4bb51a4SScott Long sc->mpr_ich.ich_arg = NULL; 2152a4bb51a4SScott Long 2153757ff642SScott Long mpr_dprint(sc, MPR_INIT, "%s exit\n", __func__); 2154991554f2SKenneth D. Merry } 2155991554f2SKenneth D. Merry 2156991554f2SKenneth D. Merry /* Periodic watchdog. Is called with the driver lock already held. */ 2157991554f2SKenneth D. Merry static void 2158991554f2SKenneth D. Merry mpr_periodic(void *arg) 2159991554f2SKenneth D. Merry { 2160991554f2SKenneth D. Merry struct mpr_softc *sc; 2161991554f2SKenneth D. Merry uint32_t db; 2162991554f2SKenneth D. Merry 2163991554f2SKenneth D. Merry sc = (struct mpr_softc *)arg; 2164991554f2SKenneth D. Merry if (sc->mpr_flags & MPR_FLAGS_SHUTDOWN) 2165991554f2SKenneth D. Merry return; 2166991554f2SKenneth D. Merry 2167991554f2SKenneth D. Merry db = mpr_regread(sc, MPI2_DOORBELL_OFFSET); 2168991554f2SKenneth D. Merry if ((db & MPI2_IOC_STATE_MASK) == MPI2_IOC_STATE_FAULT) { 2169991554f2SKenneth D. Merry if ((db & MPI2_DOORBELL_FAULT_CODE_MASK) == 2170991554f2SKenneth D. Merry IFAULT_IOP_OVER_TEMP_THRESHOLD_EXCEEDED) { 2171991554f2SKenneth D. Merry panic("TEMPERATURE FAULT: STOPPING."); 2172991554f2SKenneth D. Merry } 2173991554f2SKenneth D. Merry mpr_dprint(sc, MPR_FAULT, "IOC Fault 0x%08x, Resetting\n", db); 2174991554f2SKenneth D. Merry mpr_reinit(sc); 2175991554f2SKenneth D. Merry } 2176991554f2SKenneth D. Merry 2177991554f2SKenneth D. Merry callout_reset(&sc->periodic, MPR_PERIODIC_DELAY * hz, mpr_periodic, sc); 2178991554f2SKenneth D. Merry } 2179991554f2SKenneth D. Merry 2180991554f2SKenneth D. Merry static void 2181991554f2SKenneth D. Merry mpr_log_evt_handler(struct mpr_softc *sc, uintptr_t data, 2182991554f2SKenneth D. Merry MPI2_EVENT_NOTIFICATION_REPLY *event) 2183991554f2SKenneth D. Merry { 2184991554f2SKenneth D. Merry MPI2_EVENT_DATA_LOG_ENTRY_ADDED *entry; 2185991554f2SKenneth D. Merry 2186055e2653SScott Long MPR_DPRINT_EVENT(sc, generic, event); 2187991554f2SKenneth D. Merry 2188991554f2SKenneth D. Merry switch (event->Event) { 2189991554f2SKenneth D. Merry case MPI2_EVENT_LOG_DATA: 2190991554f2SKenneth D. Merry mpr_dprint(sc, MPR_EVENT, "MPI2_EVENT_LOG_DATA:\n"); 2191991554f2SKenneth D. Merry if (sc->mpr_debug & MPR_EVENT) 2192991554f2SKenneth D. Merry hexdump(event->EventData, event->EventDataLength, NULL, 2193991554f2SKenneth D. Merry 0); 2194991554f2SKenneth D. Merry break; 2195991554f2SKenneth D. Merry case MPI2_EVENT_LOG_ENTRY_ADDED: 2196991554f2SKenneth D. Merry entry = (MPI2_EVENT_DATA_LOG_ENTRY_ADDED *)event->EventData; 2197991554f2SKenneth D. Merry mpr_dprint(sc, MPR_EVENT, "MPI2_EVENT_LOG_ENTRY_ADDED event " 2198991554f2SKenneth D. Merry "0x%x Sequence %d:\n", entry->LogEntryQualifier, 2199991554f2SKenneth D. Merry entry->LogSequence); 2200991554f2SKenneth D. Merry break; 2201991554f2SKenneth D. Merry default: 2202991554f2SKenneth D. Merry break; 2203991554f2SKenneth D. Merry } 2204991554f2SKenneth D. Merry return; 2205991554f2SKenneth D. Merry } 2206991554f2SKenneth D. Merry 2207991554f2SKenneth D. Merry static int 2208991554f2SKenneth D. Merry mpr_attach_log(struct mpr_softc *sc) 2209991554f2SKenneth D. Merry { 2210991554f2SKenneth D. Merry uint8_t events[16]; 2211991554f2SKenneth D. Merry 2212991554f2SKenneth D. Merry bzero(events, 16); 2213991554f2SKenneth D. Merry setbit(events, MPI2_EVENT_LOG_DATA); 2214991554f2SKenneth D. Merry setbit(events, MPI2_EVENT_LOG_ENTRY_ADDED); 2215991554f2SKenneth D. Merry 2216991554f2SKenneth D. Merry mpr_register_events(sc, events, mpr_log_evt_handler, NULL, 2217991554f2SKenneth D. Merry &sc->mpr_log_eh); 2218991554f2SKenneth D. Merry 2219991554f2SKenneth D. Merry return (0); 2220991554f2SKenneth D. Merry } 2221991554f2SKenneth D. Merry 2222991554f2SKenneth D. Merry static int 2223991554f2SKenneth D. Merry mpr_detach_log(struct mpr_softc *sc) 2224991554f2SKenneth D. Merry { 2225991554f2SKenneth D. Merry 2226991554f2SKenneth D. Merry if (sc->mpr_log_eh != NULL) 2227991554f2SKenneth D. Merry mpr_deregister_events(sc, sc->mpr_log_eh); 2228991554f2SKenneth D. Merry return (0); 2229991554f2SKenneth D. Merry } 2230991554f2SKenneth D. Merry 2231991554f2SKenneth D. Merry /* 2232991554f2SKenneth D. Merry * Free all of the driver resources and detach submodules. Should be called 2233991554f2SKenneth D. Merry * without the lock held. 2234991554f2SKenneth D. Merry */ 2235991554f2SKenneth D. Merry int 2236991554f2SKenneth D. Merry mpr_free(struct mpr_softc *sc) 2237991554f2SKenneth D. Merry { 2238991554f2SKenneth D. Merry int error; 2239991554f2SKenneth D. Merry 2240757ff642SScott Long mpr_dprint(sc, MPR_INIT, "%s entered\n", __func__); 2241991554f2SKenneth D. Merry /* Turn off the watchdog */ 2242991554f2SKenneth D. Merry mpr_lock(sc); 2243991554f2SKenneth D. Merry sc->mpr_flags |= MPR_FLAGS_SHUTDOWN; 2244991554f2SKenneth D. Merry mpr_unlock(sc); 2245991554f2SKenneth D. Merry /* Lock must not be held for this */ 2246991554f2SKenneth D. Merry callout_drain(&sc->periodic); 2247327f2e6cSStephen McConnell callout_drain(&sc->device_check_callout); 2248991554f2SKenneth D. Merry 2249991554f2SKenneth D. Merry if (((error = mpr_detach_log(sc)) != 0) || 2250757ff642SScott Long ((error = mpr_detach_sas(sc)) != 0)) { 2251757ff642SScott Long mpr_dprint(sc, MPR_INIT|MPR_FAULT, "failed to detach " 2252757ff642SScott Long "subsystems, error= %d, exit\n", error); 2253991554f2SKenneth D. Merry return (error); 2254757ff642SScott Long } 2255991554f2SKenneth D. Merry 2256991554f2SKenneth D. Merry mpr_detach_user(sc); 2257991554f2SKenneth D. Merry 2258991554f2SKenneth D. Merry /* Put the IOC back in the READY state. */ 2259991554f2SKenneth D. Merry mpr_lock(sc); 2260991554f2SKenneth D. Merry if ((error = mpr_transition_ready(sc)) != 0) { 2261991554f2SKenneth D. Merry mpr_unlock(sc); 2262991554f2SKenneth D. Merry return (error); 2263991554f2SKenneth D. Merry } 2264991554f2SKenneth D. Merry mpr_unlock(sc); 2265991554f2SKenneth D. Merry 2266991554f2SKenneth D. Merry if (sc->facts != NULL) 2267991554f2SKenneth D. Merry free(sc->facts, M_MPR); 2268991554f2SKenneth D. Merry 2269991554f2SKenneth D. Merry /* 2270991554f2SKenneth D. Merry * Free all buffers that are based on IOC Facts. A Diag Reset may need 2271991554f2SKenneth D. Merry * to free these buffers too. 2272991554f2SKenneth D. Merry */ 2273991554f2SKenneth D. Merry mpr_iocfacts_free(sc); 2274991554f2SKenneth D. Merry 2275991554f2SKenneth D. Merry if (sc->sysctl_tree != NULL) 2276991554f2SKenneth D. Merry sysctl_ctx_free(&sc->sysctl_ctx); 2277991554f2SKenneth D. Merry 2278991554f2SKenneth D. Merry /* Deregister the shutdown function */ 2279991554f2SKenneth D. Merry if (sc->shutdown_eh != NULL) 2280991554f2SKenneth D. Merry EVENTHANDLER_DEREGISTER(shutdown_final, sc->shutdown_eh); 2281991554f2SKenneth D. Merry 2282991554f2SKenneth D. Merry mtx_destroy(&sc->mpr_mtx); 2283757ff642SScott Long mpr_dprint(sc, MPR_INIT, "%s exit\n", __func__); 2284991554f2SKenneth D. Merry 2285991554f2SKenneth D. Merry return (0); 2286991554f2SKenneth D. Merry } 2287991554f2SKenneth D. Merry 2288991554f2SKenneth D. Merry static __inline void 2289991554f2SKenneth D. Merry mpr_complete_command(struct mpr_softc *sc, struct mpr_command *cm) 2290991554f2SKenneth D. Merry { 2291991554f2SKenneth D. Merry MPR_FUNCTRACE(sc); 2292991554f2SKenneth D. Merry 2293991554f2SKenneth D. Merry if (cm == NULL) { 2294991554f2SKenneth D. Merry mpr_dprint(sc, MPR_ERROR, "Completing NULL command\n"); 2295991554f2SKenneth D. Merry return; 2296991554f2SKenneth D. Merry } 2297991554f2SKenneth D. Merry 2298991554f2SKenneth D. Merry if (cm->cm_flags & MPR_CM_FLAGS_POLLED) 2299991554f2SKenneth D. Merry cm->cm_flags |= MPR_CM_FLAGS_COMPLETE; 2300991554f2SKenneth D. Merry 2301991554f2SKenneth D. Merry if (cm->cm_complete != NULL) { 2302991554f2SKenneth D. Merry mpr_dprint(sc, MPR_TRACE, 2303991554f2SKenneth D. Merry "%s cm %p calling cm_complete %p data %p reply %p\n", 2304991554f2SKenneth D. Merry __func__, cm, cm->cm_complete, cm->cm_complete_data, 2305991554f2SKenneth D. Merry cm->cm_reply); 2306991554f2SKenneth D. Merry cm->cm_complete(sc, cm); 2307991554f2SKenneth D. Merry } 2308991554f2SKenneth D. Merry 2309991554f2SKenneth D. Merry if (cm->cm_flags & MPR_CM_FLAGS_WAKEUP) { 2310991554f2SKenneth D. Merry mpr_dprint(sc, MPR_TRACE, "waking up %p\n", cm); 2311991554f2SKenneth D. Merry wakeup(cm); 2312991554f2SKenneth D. Merry } 2313991554f2SKenneth D. Merry 2314991554f2SKenneth D. Merry if (sc->io_cmds_active != 0) { 2315991554f2SKenneth D. Merry sc->io_cmds_active--; 2316991554f2SKenneth D. Merry } else { 2317991554f2SKenneth D. Merry mpr_dprint(sc, MPR_ERROR, "Warning: io_cmds_active is " 2318991554f2SKenneth D. Merry "out of sync - resynching to 0\n"); 2319991554f2SKenneth D. Merry } 2320991554f2SKenneth D. Merry } 2321991554f2SKenneth D. Merry 2322991554f2SKenneth D. Merry static void 2323991554f2SKenneth D. Merry mpr_sas_log_info(struct mpr_softc *sc , u32 log_info) 2324991554f2SKenneth D. Merry { 2325991554f2SKenneth D. Merry union loginfo_type { 2326991554f2SKenneth D. Merry u32 loginfo; 2327991554f2SKenneth D. Merry struct { 2328991554f2SKenneth D. Merry u32 subcode:16; 2329991554f2SKenneth D. Merry u32 code:8; 2330991554f2SKenneth D. Merry u32 originator:4; 2331991554f2SKenneth D. Merry u32 bus_type:4; 2332991554f2SKenneth D. Merry } dw; 2333991554f2SKenneth D. Merry }; 2334991554f2SKenneth D. Merry union loginfo_type sas_loginfo; 2335991554f2SKenneth D. Merry char *originator_str = NULL; 2336991554f2SKenneth D. Merry 2337991554f2SKenneth D. Merry sas_loginfo.loginfo = log_info; 2338991554f2SKenneth D. Merry if (sas_loginfo.dw.bus_type != 3 /*SAS*/) 2339991554f2SKenneth D. Merry return; 2340991554f2SKenneth D. Merry 2341991554f2SKenneth D. Merry /* each nexus loss loginfo */ 2342991554f2SKenneth D. Merry if (log_info == 0x31170000) 2343991554f2SKenneth D. Merry return; 2344991554f2SKenneth D. Merry 2345991554f2SKenneth D. Merry /* eat the loginfos associated with task aborts */ 2346991554f2SKenneth D. Merry if ((log_info == 30050000) || (log_info == 0x31140000) || 2347991554f2SKenneth D. Merry (log_info == 0x31130000)) 2348991554f2SKenneth D. Merry return; 2349991554f2SKenneth D. Merry 2350991554f2SKenneth D. Merry switch (sas_loginfo.dw.originator) { 2351991554f2SKenneth D. Merry case 0: 2352991554f2SKenneth D. Merry originator_str = "IOP"; 2353991554f2SKenneth D. Merry break; 2354991554f2SKenneth D. Merry case 1: 2355991554f2SKenneth D. Merry originator_str = "PL"; 2356991554f2SKenneth D. Merry break; 2357991554f2SKenneth D. Merry case 2: 2358991554f2SKenneth D. Merry originator_str = "IR"; 2359991554f2SKenneth D. Merry break; 2360991554f2SKenneth D. Merry } 2361991554f2SKenneth D. Merry 2362b41c6ff9SStephen McConnell mpr_dprint(sc, MPR_LOG, "log_info(0x%08x): originator(%s), " 23637a2a6a1aSStephen McConnell "code(0x%02x), sub_code(0x%04x)\n", log_info, originator_str, 23647a2a6a1aSStephen McConnell sas_loginfo.dw.code, sas_loginfo.dw.subcode); 2365991554f2SKenneth D. Merry } 2366991554f2SKenneth D. Merry 2367991554f2SKenneth D. Merry static void 2368991554f2SKenneth D. Merry mpr_display_reply_info(struct mpr_softc *sc, uint8_t *reply) 2369991554f2SKenneth D. Merry { 2370991554f2SKenneth D. Merry MPI2DefaultReply_t *mpi_reply; 2371991554f2SKenneth D. Merry u16 sc_status; 2372991554f2SKenneth D. Merry 2373991554f2SKenneth D. Merry mpi_reply = (MPI2DefaultReply_t*)reply; 2374991554f2SKenneth D. Merry sc_status = le16toh(mpi_reply->IOCStatus); 2375991554f2SKenneth D. Merry if (sc_status & MPI2_IOCSTATUS_FLAG_LOG_INFO_AVAILABLE) 2376991554f2SKenneth D. Merry mpr_sas_log_info(sc, le32toh(mpi_reply->IOCLogInfo)); 2377991554f2SKenneth D. Merry } 2378991554f2SKenneth D. Merry 2379991554f2SKenneth D. Merry void 2380991554f2SKenneth D. Merry mpr_intr(void *data) 2381991554f2SKenneth D. Merry { 2382991554f2SKenneth D. Merry struct mpr_softc *sc; 2383991554f2SKenneth D. Merry uint32_t status; 2384991554f2SKenneth D. Merry 2385991554f2SKenneth D. Merry sc = (struct mpr_softc *)data; 2386991554f2SKenneth D. Merry mpr_dprint(sc, MPR_TRACE, "%s\n", __func__); 2387991554f2SKenneth D. Merry 2388991554f2SKenneth D. Merry /* 2389991554f2SKenneth D. Merry * Check interrupt status register to flush the bus. This is 2390991554f2SKenneth D. Merry * needed for both INTx interrupts and driver-driven polling 2391991554f2SKenneth D. Merry */ 2392991554f2SKenneth D. Merry status = mpr_regread(sc, MPI2_HOST_INTERRUPT_STATUS_OFFSET); 2393991554f2SKenneth D. Merry if ((status & MPI2_HIS_REPLY_DESCRIPTOR_INTERRUPT) == 0) 2394991554f2SKenneth D. Merry return; 2395991554f2SKenneth D. Merry 2396991554f2SKenneth D. Merry mpr_lock(sc); 2397991554f2SKenneth D. Merry mpr_intr_locked(data); 2398991554f2SKenneth D. Merry mpr_unlock(sc); 2399991554f2SKenneth D. Merry return; 2400991554f2SKenneth D. Merry } 2401991554f2SKenneth D. Merry 2402991554f2SKenneth D. Merry /* 2403991554f2SKenneth D. Merry * In theory, MSI/MSIX interrupts shouldn't need to read any registers on the 2404991554f2SKenneth D. Merry * chip. Hopefully this theory is correct. 2405991554f2SKenneth D. Merry */ 2406991554f2SKenneth D. Merry void 2407991554f2SKenneth D. Merry mpr_intr_msi(void *data) 2408991554f2SKenneth D. Merry { 2409991554f2SKenneth D. Merry struct mpr_softc *sc; 2410991554f2SKenneth D. Merry 2411991554f2SKenneth D. Merry sc = (struct mpr_softc *)data; 2412991554f2SKenneth D. Merry mpr_dprint(sc, MPR_TRACE, "%s\n", __func__); 2413991554f2SKenneth D. Merry mpr_lock(sc); 2414991554f2SKenneth D. Merry mpr_intr_locked(data); 2415991554f2SKenneth D. Merry mpr_unlock(sc); 2416991554f2SKenneth D. Merry return; 2417991554f2SKenneth D. Merry } 2418991554f2SKenneth D. Merry 2419991554f2SKenneth D. Merry /* 2420991554f2SKenneth D. Merry * The locking is overly broad and simplistic, but easy to deal with for now. 2421991554f2SKenneth D. Merry */ 2422991554f2SKenneth D. Merry void 2423991554f2SKenneth D. Merry mpr_intr_locked(void *data) 2424991554f2SKenneth D. Merry { 2425991554f2SKenneth D. Merry MPI2_REPLY_DESCRIPTORS_UNION *desc; 2426991554f2SKenneth D. Merry struct mpr_softc *sc; 2427991554f2SKenneth D. Merry struct mpr_command *cm = NULL; 2428991554f2SKenneth D. Merry uint8_t flags; 2429991554f2SKenneth D. Merry u_int pq; 2430991554f2SKenneth D. Merry MPI2_DIAG_RELEASE_REPLY *rel_rep; 2431991554f2SKenneth D. Merry mpr_fw_diagnostic_buffer_t *pBuffer; 2432991554f2SKenneth D. Merry 2433991554f2SKenneth D. Merry sc = (struct mpr_softc *)data; 2434991554f2SKenneth D. Merry 2435991554f2SKenneth D. Merry pq = sc->replypostindex; 2436991554f2SKenneth D. Merry mpr_dprint(sc, MPR_TRACE, 2437991554f2SKenneth D. Merry "%s sc %p starting with replypostindex %u\n", 2438991554f2SKenneth D. Merry __func__, sc, sc->replypostindex); 2439991554f2SKenneth D. Merry 2440991554f2SKenneth D. Merry for ( ;; ) { 2441991554f2SKenneth D. Merry cm = NULL; 2442991554f2SKenneth D. Merry desc = &sc->post_queue[sc->replypostindex]; 2443991554f2SKenneth D. Merry flags = desc->Default.ReplyFlags & 2444991554f2SKenneth D. Merry MPI2_RPY_DESCRIPT_FLAGS_TYPE_MASK; 2445991554f2SKenneth D. Merry if ((flags == MPI2_RPY_DESCRIPT_FLAGS_UNUSED) || 2446991554f2SKenneth D. Merry (le32toh(desc->Words.High) == 0xffffffff)) 2447991554f2SKenneth D. Merry break; 2448991554f2SKenneth D. Merry 2449991554f2SKenneth D. Merry /* increment the replypostindex now, so that event handlers 2450991554f2SKenneth D. Merry * and cm completion handlers which decide to do a diag 2451991554f2SKenneth D. Merry * reset can zero it without it getting incremented again 2452991554f2SKenneth D. Merry * afterwards, and we break out of this loop on the next 2453991554f2SKenneth D. Merry * iteration since the reply post queue has been cleared to 2454991554f2SKenneth D. Merry * 0xFF and all descriptors look unused (which they are). 2455991554f2SKenneth D. Merry */ 2456991554f2SKenneth D. Merry if (++sc->replypostindex >= sc->pqdepth) 2457991554f2SKenneth D. Merry sc->replypostindex = 0; 2458991554f2SKenneth D. Merry 2459991554f2SKenneth D. Merry switch (flags) { 2460991554f2SKenneth D. Merry case MPI2_RPY_DESCRIPT_FLAGS_SCSI_IO_SUCCESS: 2461991554f2SKenneth D. Merry case MPI25_RPY_DESCRIPT_FLAGS_FAST_PATH_SCSI_IO_SUCCESS: 246267feec50SStephen McConnell case MPI26_RPY_DESCRIPT_FLAGS_PCIE_ENCAPSULATED_SUCCESS: 2463991554f2SKenneth D. Merry cm = &sc->commands[le16toh(desc->SCSIIOSuccess.SMID)]; 2464f0779b04SScott Long KASSERT(cm->cm_state == MPR_CM_STATE_INQUEUE, 2465f0779b04SScott Long ("command not inqueue\n")); 2466f0779b04SScott Long cm->cm_state = MPR_CM_STATE_BUSY; 2467991554f2SKenneth D. Merry cm->cm_reply = NULL; 2468991554f2SKenneth D. Merry break; 2469991554f2SKenneth D. Merry case MPI2_RPY_DESCRIPT_FLAGS_ADDRESS_REPLY: 2470991554f2SKenneth D. Merry { 2471991554f2SKenneth D. Merry uint32_t baddr; 2472991554f2SKenneth D. Merry uint8_t *reply; 2473991554f2SKenneth D. Merry 2474991554f2SKenneth D. Merry /* 2475991554f2SKenneth D. Merry * Re-compose the reply address from the address 2476991554f2SKenneth D. Merry * sent back from the chip. The ReplyFrameAddress 2477991554f2SKenneth D. Merry * is the lower 32 bits of the physical address of 2478991554f2SKenneth D. Merry * particular reply frame. Convert that address to 2479991554f2SKenneth D. Merry * host format, and then use that to provide the 2480991554f2SKenneth D. Merry * offset against the virtual address base 2481991554f2SKenneth D. Merry * (sc->reply_frames). 2482991554f2SKenneth D. Merry */ 2483991554f2SKenneth D. Merry baddr = le32toh(desc->AddressReply.ReplyFrameAddress); 2484991554f2SKenneth D. Merry reply = sc->reply_frames + 2485991554f2SKenneth D. Merry (baddr - ((uint32_t)sc->reply_busaddr)); 2486991554f2SKenneth D. Merry /* 2487991554f2SKenneth D. Merry * Make sure the reply we got back is in a valid 2488991554f2SKenneth D. Merry * range. If not, go ahead and panic here, since 2489991554f2SKenneth D. Merry * we'll probably panic as soon as we deference the 2490991554f2SKenneth D. Merry * reply pointer anyway. 2491991554f2SKenneth D. Merry */ 2492991554f2SKenneth D. Merry if ((reply < sc->reply_frames) 2493991554f2SKenneth D. Merry || (reply > (sc->reply_frames + 249496410703SScott Long (sc->fqdepth * sc->replyframesz)))) { 2495991554f2SKenneth D. Merry printf("%s: WARNING: reply %p out of range!\n", 2496991554f2SKenneth D. Merry __func__, reply); 2497991554f2SKenneth D. Merry printf("%s: reply_frames %p, fqdepth %d, " 2498991554f2SKenneth D. Merry "frame size %d\n", __func__, 2499991554f2SKenneth D. Merry sc->reply_frames, sc->fqdepth, 250096410703SScott Long sc->replyframesz); 2501991554f2SKenneth D. Merry printf("%s: baddr %#x,\n", __func__, baddr); 2502991554f2SKenneth D. Merry /* LSI-TODO. See Linux Code for Graceful exit */ 2503991554f2SKenneth D. Merry panic("Reply address out of range"); 2504991554f2SKenneth D. Merry } 2505991554f2SKenneth D. Merry if (le16toh(desc->AddressReply.SMID) == 0) { 2506991554f2SKenneth D. Merry if (((MPI2_DEFAULT_REPLY *)reply)->Function == 2507991554f2SKenneth D. Merry MPI2_FUNCTION_DIAG_BUFFER_POST) { 2508991554f2SKenneth D. Merry /* 2509991554f2SKenneth D. Merry * If SMID is 0 for Diag Buffer Post, 2510991554f2SKenneth D. Merry * this implies that the reply is due to 2511991554f2SKenneth D. Merry * a release function with a status that 2512991554f2SKenneth D. Merry * the buffer has been released. Set 2513991554f2SKenneth D. Merry * the buffer flags accordingly. 2514991554f2SKenneth D. Merry */ 2515991554f2SKenneth D. Merry rel_rep = 2516991554f2SKenneth D. Merry (MPI2_DIAG_RELEASE_REPLY *)reply; 2517d3f6eabfSStephen McConnell if ((le16toh(rel_rep->IOCStatus) & 2518d3f6eabfSStephen McConnell MPI2_IOCSTATUS_MASK) == 2519991554f2SKenneth D. Merry MPI2_IOCSTATUS_DIAGNOSTIC_RELEASED) 2520991554f2SKenneth D. Merry { 2521991554f2SKenneth D. Merry pBuffer = 2522991554f2SKenneth D. Merry &sc->fw_diag_buffer_list[ 2523991554f2SKenneth D. Merry rel_rep->BufferType]; 2524991554f2SKenneth D. Merry pBuffer->valid_data = TRUE; 2525991554f2SKenneth D. Merry pBuffer->owned_by_firmware = 2526991554f2SKenneth D. Merry FALSE; 2527991554f2SKenneth D. Merry pBuffer->immediate = FALSE; 2528991554f2SKenneth D. Merry } 2529991554f2SKenneth D. Merry } else 2530991554f2SKenneth D. Merry mpr_dispatch_event(sc, baddr, 2531991554f2SKenneth D. Merry (MPI2_EVENT_NOTIFICATION_REPLY *) 2532991554f2SKenneth D. Merry reply); 2533991554f2SKenneth D. Merry } else { 2534991554f2SKenneth D. Merry cm = &sc->commands[ 2535991554f2SKenneth D. Merry le16toh(desc->AddressReply.SMID)]; 2536f0779b04SScott Long KASSERT(cm->cm_state == MPR_CM_STATE_INQUEUE, 2537f0779b04SScott Long ("command not inqueue\n")); 2538f0779b04SScott Long cm->cm_state = MPR_CM_STATE_BUSY; 2539991554f2SKenneth D. Merry cm->cm_reply = reply; 2540991554f2SKenneth D. Merry cm->cm_reply_data = 2541991554f2SKenneth D. Merry le32toh(desc->AddressReply. 2542991554f2SKenneth D. Merry ReplyFrameAddress); 2543991554f2SKenneth D. Merry } 2544991554f2SKenneth D. Merry break; 2545991554f2SKenneth D. Merry } 2546991554f2SKenneth D. Merry case MPI2_RPY_DESCRIPT_FLAGS_TARGETASSIST_SUCCESS: 2547991554f2SKenneth D. Merry case MPI2_RPY_DESCRIPT_FLAGS_TARGET_COMMAND_BUFFER: 2548991554f2SKenneth D. Merry case MPI2_RPY_DESCRIPT_FLAGS_RAID_ACCELERATOR_SUCCESS: 2549991554f2SKenneth D. Merry default: 2550991554f2SKenneth D. Merry /* Unhandled */ 2551991554f2SKenneth D. Merry mpr_dprint(sc, MPR_ERROR, "Unhandled reply 0x%x\n", 2552991554f2SKenneth D. Merry desc->Default.ReplyFlags); 2553991554f2SKenneth D. Merry cm = NULL; 2554991554f2SKenneth D. Merry break; 2555991554f2SKenneth D. Merry } 2556991554f2SKenneth D. Merry 2557991554f2SKenneth D. Merry if (cm != NULL) { 2558991554f2SKenneth D. Merry // Print Error reply frame 2559991554f2SKenneth D. Merry if (cm->cm_reply) 2560991554f2SKenneth D. Merry mpr_display_reply_info(sc,cm->cm_reply); 2561991554f2SKenneth D. Merry mpr_complete_command(sc, cm); 2562991554f2SKenneth D. Merry } 2563991554f2SKenneth D. Merry 2564991554f2SKenneth D. Merry desc->Words.Low = 0xffffffff; 2565991554f2SKenneth D. Merry desc->Words.High = 0xffffffff; 2566991554f2SKenneth D. Merry } 2567991554f2SKenneth D. Merry 2568991554f2SKenneth D. Merry if (pq != sc->replypostindex) { 2569f0779b04SScott Long mpr_dprint(sc, MPR_TRACE, "%s sc %p writing postindex %d\n", 2570991554f2SKenneth D. Merry __func__, sc, sc->replypostindex); 2571991554f2SKenneth D. Merry mpr_regwrite(sc, MPI2_REPLY_POST_HOST_INDEX_OFFSET, 2572991554f2SKenneth D. Merry sc->replypostindex); 2573991554f2SKenneth D. Merry } 2574991554f2SKenneth D. Merry 2575991554f2SKenneth D. Merry return; 2576991554f2SKenneth D. Merry } 2577991554f2SKenneth D. Merry 2578991554f2SKenneth D. Merry static void 2579991554f2SKenneth D. Merry mpr_dispatch_event(struct mpr_softc *sc, uintptr_t data, 2580991554f2SKenneth D. Merry MPI2_EVENT_NOTIFICATION_REPLY *reply) 2581991554f2SKenneth D. Merry { 2582991554f2SKenneth D. Merry struct mpr_event_handle *eh; 2583991554f2SKenneth D. Merry int event, handled = 0; 2584991554f2SKenneth D. Merry 2585991554f2SKenneth D. Merry event = le16toh(reply->Event); 2586991554f2SKenneth D. Merry TAILQ_FOREACH(eh, &sc->event_list, eh_list) { 2587991554f2SKenneth D. Merry if (isset(eh->mask, event)) { 2588991554f2SKenneth D. Merry eh->callback(sc, data, reply); 2589991554f2SKenneth D. Merry handled++; 2590991554f2SKenneth D. Merry } 2591991554f2SKenneth D. Merry } 2592991554f2SKenneth D. Merry 2593991554f2SKenneth D. Merry if (handled == 0) 2594991554f2SKenneth D. Merry mpr_dprint(sc, MPR_EVENT, "Unhandled event 0x%x\n", 2595991554f2SKenneth D. Merry le16toh(event)); 2596991554f2SKenneth D. Merry 2597991554f2SKenneth D. Merry /* 2598991554f2SKenneth D. Merry * This is the only place that the event/reply should be freed. 2599991554f2SKenneth D. Merry * Anything wanting to hold onto the event data should have 2600991554f2SKenneth D. Merry * already copied it into their own storage. 2601991554f2SKenneth D. Merry */ 2602991554f2SKenneth D. Merry mpr_free_reply(sc, data); 2603991554f2SKenneth D. Merry } 2604991554f2SKenneth D. Merry 2605991554f2SKenneth D. Merry static void 2606991554f2SKenneth D. Merry mpr_reregister_events_complete(struct mpr_softc *sc, struct mpr_command *cm) 2607991554f2SKenneth D. Merry { 2608991554f2SKenneth D. Merry mpr_dprint(sc, MPR_TRACE, "%s\n", __func__); 2609991554f2SKenneth D. Merry 2610991554f2SKenneth D. Merry if (cm->cm_reply) 2611055e2653SScott Long MPR_DPRINT_EVENT(sc, generic, 2612991554f2SKenneth D. Merry (MPI2_EVENT_NOTIFICATION_REPLY *)cm->cm_reply); 2613991554f2SKenneth D. Merry 2614991554f2SKenneth D. Merry mpr_free_command(sc, cm); 2615991554f2SKenneth D. Merry 2616991554f2SKenneth D. Merry /* next, send a port enable */ 2617991554f2SKenneth D. Merry mprsas_startup(sc); 2618991554f2SKenneth D. Merry } 2619991554f2SKenneth D. Merry 2620991554f2SKenneth D. Merry /* 2621991554f2SKenneth D. Merry * For both register_events and update_events, the caller supplies a bitmap 2622991554f2SKenneth D. Merry * of events that it _wants_. These functions then turn that into a bitmask 2623991554f2SKenneth D. Merry * suitable for the controller. 2624991554f2SKenneth D. Merry */ 2625991554f2SKenneth D. Merry int 2626991554f2SKenneth D. Merry mpr_register_events(struct mpr_softc *sc, uint8_t *mask, 2627991554f2SKenneth D. Merry mpr_evt_callback_t *cb, void *data, struct mpr_event_handle **handle) 2628991554f2SKenneth D. Merry { 2629991554f2SKenneth D. Merry struct mpr_event_handle *eh; 2630991554f2SKenneth D. Merry int error = 0; 2631991554f2SKenneth D. Merry 2632991554f2SKenneth D. Merry eh = malloc(sizeof(struct mpr_event_handle), M_MPR, M_WAITOK|M_ZERO); 2633991554f2SKenneth D. Merry if (!eh) { 2634757ff642SScott Long mpr_dprint(sc, MPR_EVENT|MPR_ERROR, 2635757ff642SScott Long "Cannot allocate event memory\n"); 2636991554f2SKenneth D. Merry return (ENOMEM); 2637991554f2SKenneth D. Merry } 2638991554f2SKenneth D. Merry eh->callback = cb; 2639991554f2SKenneth D. Merry eh->data = data; 2640991554f2SKenneth D. Merry TAILQ_INSERT_TAIL(&sc->event_list, eh, eh_list); 2641991554f2SKenneth D. Merry if (mask != NULL) 2642991554f2SKenneth D. Merry error = mpr_update_events(sc, eh, mask); 2643991554f2SKenneth D. Merry *handle = eh; 2644991554f2SKenneth D. Merry 2645991554f2SKenneth D. Merry return (error); 2646991554f2SKenneth D. Merry } 2647991554f2SKenneth D. Merry 2648991554f2SKenneth D. Merry int 2649991554f2SKenneth D. Merry mpr_update_events(struct mpr_softc *sc, struct mpr_event_handle *handle, 2650991554f2SKenneth D. Merry uint8_t *mask) 2651991554f2SKenneth D. Merry { 2652991554f2SKenneth D. Merry MPI2_EVENT_NOTIFICATION_REQUEST *evtreq; 26536d4ffcb4SKenneth D. Merry MPI2_EVENT_NOTIFICATION_REPLY *reply = NULL; 26546d4ffcb4SKenneth D. Merry struct mpr_command *cm = NULL; 2655991554f2SKenneth D. Merry struct mpr_event_handle *eh; 2656991554f2SKenneth D. Merry int error, i; 2657991554f2SKenneth D. Merry 2658991554f2SKenneth D. Merry mpr_dprint(sc, MPR_TRACE, "%s\n", __func__); 2659991554f2SKenneth D. Merry 2660991554f2SKenneth D. Merry if ((mask != NULL) && (handle != NULL)) 2661991554f2SKenneth D. Merry bcopy(mask, &handle->mask[0], 16); 2662991554f2SKenneth D. Merry memset(sc->event_mask, 0xff, 16); 2663991554f2SKenneth D. Merry 2664991554f2SKenneth D. Merry TAILQ_FOREACH(eh, &sc->event_list, eh_list) { 2665991554f2SKenneth D. Merry for (i = 0; i < 16; i++) 2666991554f2SKenneth D. Merry sc->event_mask[i] &= ~eh->mask[i]; 2667991554f2SKenneth D. Merry } 2668991554f2SKenneth D. Merry 2669991554f2SKenneth D. Merry if ((cm = mpr_alloc_command(sc)) == NULL) 2670991554f2SKenneth D. Merry return (EBUSY); 2671991554f2SKenneth D. Merry evtreq = (MPI2_EVENT_NOTIFICATION_REQUEST *)cm->cm_req; 2672991554f2SKenneth D. Merry evtreq->Function = MPI2_FUNCTION_EVENT_NOTIFICATION; 2673991554f2SKenneth D. Merry evtreq->MsgFlags = 0; 2674991554f2SKenneth D. Merry evtreq->SASBroadcastPrimitiveMasks = 0; 2675991554f2SKenneth D. Merry #ifdef MPR_DEBUG_ALL_EVENTS 2676991554f2SKenneth D. Merry { 2677991554f2SKenneth D. Merry u_char fullmask[16]; 2678991554f2SKenneth D. Merry memset(fullmask, 0x00, 16); 2679991554f2SKenneth D. Merry bcopy(fullmask, (uint8_t *)&evtreq->EventMasks, 16); 2680991554f2SKenneth D. Merry } 2681991554f2SKenneth D. Merry #else 2682991554f2SKenneth D. Merry bcopy(sc->event_mask, (uint8_t *)&evtreq->EventMasks, 16); 2683991554f2SKenneth D. Merry #endif 2684991554f2SKenneth D. Merry cm->cm_desc.Default.RequestFlags = MPI2_REQ_DESCRIPT_FLAGS_DEFAULT_TYPE; 2685991554f2SKenneth D. Merry cm->cm_data = NULL; 2686991554f2SKenneth D. Merry 26876d4ffcb4SKenneth D. Merry error = mpr_request_polled(sc, &cm); 26886d4ffcb4SKenneth D. Merry if (cm != NULL) 2689991554f2SKenneth D. Merry reply = (MPI2_EVENT_NOTIFICATION_REPLY *)cm->cm_reply; 2690991554f2SKenneth D. Merry if ((reply == NULL) || 2691991554f2SKenneth D. Merry (reply->IOCStatus & MPI2_IOCSTATUS_MASK) != MPI2_IOCSTATUS_SUCCESS) 2692991554f2SKenneth D. Merry error = ENXIO; 2693991554f2SKenneth D. Merry 2694991554f2SKenneth D. Merry if (reply) 2695055e2653SScott Long MPR_DPRINT_EVENT(sc, generic, reply); 2696991554f2SKenneth D. Merry 2697991554f2SKenneth D. Merry mpr_dprint(sc, MPR_TRACE, "%s finished error %d\n", __func__, error); 2698991554f2SKenneth D. Merry 26996d4ffcb4SKenneth D. Merry if (cm != NULL) 2700991554f2SKenneth D. Merry mpr_free_command(sc, cm); 2701991554f2SKenneth D. Merry return (error); 2702991554f2SKenneth D. Merry } 2703991554f2SKenneth D. Merry 2704991554f2SKenneth D. Merry static int 2705991554f2SKenneth D. Merry mpr_reregister_events(struct mpr_softc *sc) 2706991554f2SKenneth D. Merry { 2707991554f2SKenneth D. Merry MPI2_EVENT_NOTIFICATION_REQUEST *evtreq; 2708991554f2SKenneth D. Merry struct mpr_command *cm; 2709991554f2SKenneth D. Merry struct mpr_event_handle *eh; 2710991554f2SKenneth D. Merry int error, i; 2711991554f2SKenneth D. Merry 2712991554f2SKenneth D. Merry mpr_dprint(sc, MPR_TRACE, "%s\n", __func__); 2713991554f2SKenneth D. Merry 2714991554f2SKenneth D. Merry /* first, reregister events */ 2715991554f2SKenneth D. Merry 2716991554f2SKenneth D. Merry memset(sc->event_mask, 0xff, 16); 2717991554f2SKenneth D. Merry 2718991554f2SKenneth D. Merry TAILQ_FOREACH(eh, &sc->event_list, eh_list) { 2719991554f2SKenneth D. Merry for (i = 0; i < 16; i++) 2720991554f2SKenneth D. Merry sc->event_mask[i] &= ~eh->mask[i]; 2721991554f2SKenneth D. Merry } 2722991554f2SKenneth D. Merry 2723991554f2SKenneth D. Merry if ((cm = mpr_alloc_command(sc)) == NULL) 2724991554f2SKenneth D. Merry return (EBUSY); 2725991554f2SKenneth D. Merry evtreq = (MPI2_EVENT_NOTIFICATION_REQUEST *)cm->cm_req; 2726991554f2SKenneth D. Merry evtreq->Function = MPI2_FUNCTION_EVENT_NOTIFICATION; 2727991554f2SKenneth D. Merry evtreq->MsgFlags = 0; 2728991554f2SKenneth D. Merry evtreq->SASBroadcastPrimitiveMasks = 0; 2729991554f2SKenneth D. Merry #ifdef MPR_DEBUG_ALL_EVENTS 2730991554f2SKenneth D. Merry { 2731991554f2SKenneth D. Merry u_char fullmask[16]; 2732991554f2SKenneth D. Merry memset(fullmask, 0x00, 16); 2733991554f2SKenneth D. Merry bcopy(fullmask, (uint8_t *)&evtreq->EventMasks, 16); 2734991554f2SKenneth D. Merry } 2735991554f2SKenneth D. Merry #else 2736991554f2SKenneth D. Merry bcopy(sc->event_mask, (uint8_t *)&evtreq->EventMasks, 16); 2737991554f2SKenneth D. Merry #endif 2738991554f2SKenneth D. Merry cm->cm_desc.Default.RequestFlags = MPI2_REQ_DESCRIPT_FLAGS_DEFAULT_TYPE; 2739991554f2SKenneth D. Merry cm->cm_data = NULL; 2740991554f2SKenneth D. Merry cm->cm_complete = mpr_reregister_events_complete; 2741991554f2SKenneth D. Merry 2742991554f2SKenneth D. Merry error = mpr_map_command(sc, cm); 2743991554f2SKenneth D. Merry 2744991554f2SKenneth D. Merry mpr_dprint(sc, MPR_TRACE, "%s finished with error %d\n", __func__, 2745991554f2SKenneth D. Merry error); 2746991554f2SKenneth D. Merry return (error); 2747991554f2SKenneth D. Merry } 2748991554f2SKenneth D. Merry 2749991554f2SKenneth D. Merry int 2750991554f2SKenneth D. Merry mpr_deregister_events(struct mpr_softc *sc, struct mpr_event_handle *handle) 2751991554f2SKenneth D. Merry { 2752991554f2SKenneth D. Merry 2753991554f2SKenneth D. Merry TAILQ_REMOVE(&sc->event_list, handle, eh_list); 2754991554f2SKenneth D. Merry free(handle, M_MPR); 2755991554f2SKenneth D. Merry return (mpr_update_events(sc, NULL, NULL)); 2756991554f2SKenneth D. Merry } 2757991554f2SKenneth D. Merry 275867feec50SStephen McConnell /** 275967feec50SStephen McConnell * mpr_build_nvme_prp - This function is called for NVMe end devices to build a 276067feec50SStephen McConnell * native SGL (NVMe PRP). The native SGL is built starting in the first PRP entry 276167feec50SStephen McConnell * of the NVMe message (PRP1). If the data buffer is small enough to be described 276267feec50SStephen McConnell * entirely using PRP1, then PRP2 is not used. If needed, PRP2 is used to 276367feec50SStephen McConnell * describe a larger data buffer. If the data buffer is too large to describe 276467feec50SStephen McConnell * using the two PRP entriess inside the NVMe message, then PRP1 describes the 276567feec50SStephen McConnell * first data memory segment, and PRP2 contains a pointer to a PRP list located 276667feec50SStephen McConnell * elsewhere in memory to describe the remaining data memory segments. The PRP 276767feec50SStephen McConnell * list will be contiguous. 276867feec50SStephen McConnell 276967feec50SStephen McConnell * The native SGL for NVMe devices is a Physical Region Page (PRP). A PRP 277067feec50SStephen McConnell * consists of a list of PRP entries to describe a number of noncontigous 277167feec50SStephen McConnell * physical memory segments as a single memory buffer, just as a SGL does. Note 277267feec50SStephen McConnell * however, that this function is only used by the IOCTL call, so the memory 277367feec50SStephen McConnell * given will be guaranteed to be contiguous. There is no need to translate 277467feec50SStephen McConnell * non-contiguous SGL into a PRP in this case. All PRPs will describe contiguous 277567feec50SStephen McConnell * space that is one page size each. 277667feec50SStephen McConnell * 277767feec50SStephen McConnell * Each NVMe message contains two PRP entries. The first (PRP1) either contains 277867feec50SStephen McConnell * a PRP list pointer or a PRP element, depending upon the command. PRP2 contains 277967feec50SStephen McConnell * the second PRP element if the memory being described fits within 2 PRP 278067feec50SStephen McConnell * entries, or a PRP list pointer if the PRP spans more than two entries. 278167feec50SStephen McConnell * 278267feec50SStephen McConnell * A PRP list pointer contains the address of a PRP list, structured as a linear 278367feec50SStephen McConnell * array of PRP entries. Each PRP entry in this list describes a segment of 278467feec50SStephen McConnell * physical memory. 278567feec50SStephen McConnell * 278667feec50SStephen McConnell * Each 64-bit PRP entry comprises an address and an offset field. The address 278767feec50SStephen McConnell * always points to the beginning of a PAGE_SIZE physical memory page, and the 278867feec50SStephen McConnell * offset describes where within that page the memory segment begins. Only the 278967feec50SStephen McConnell * first element in a PRP list may contain a non-zero offest, implying that all 279067feec50SStephen McConnell * memory segments following the first begin at the start of a PAGE_SIZE page. 279167feec50SStephen McConnell * 279267feec50SStephen McConnell * Each PRP element normally describes a chunck of PAGE_SIZE physical memory, 279367feec50SStephen McConnell * with exceptions for the first and last elements in the list. If the memory 279467feec50SStephen McConnell * being described by the list begins at a non-zero offset within the first page, 279567feec50SStephen McConnell * then the first PRP element will contain a non-zero offset indicating where the 279667feec50SStephen McConnell * region begins within the page. The last memory segment may end before the end 279767feec50SStephen McConnell * of the PAGE_SIZE segment, depending upon the overall size of the memory being 279867feec50SStephen McConnell * described by the PRP list. 279967feec50SStephen McConnell * 280067feec50SStephen McConnell * Since PRP entries lack any indication of size, the overall data buffer length 280167feec50SStephen McConnell * is used to determine where the end of the data memory buffer is located, and 280267feec50SStephen McConnell * how many PRP entries are required to describe it. 280367feec50SStephen McConnell * 280467feec50SStephen McConnell * Returns nothing. 280567feec50SStephen McConnell */ 280667feec50SStephen McConnell void 280767feec50SStephen McConnell mpr_build_nvme_prp(struct mpr_softc *sc, struct mpr_command *cm, 280867feec50SStephen McConnell Mpi26NVMeEncapsulatedRequest_t *nvme_encap_request, void *data, 280967feec50SStephen McConnell uint32_t data_in_sz, uint32_t data_out_sz) 281067feec50SStephen McConnell { 281167feec50SStephen McConnell int prp_size = PRP_ENTRY_SIZE; 281267feec50SStephen McConnell uint64_t *prp_entry, *prp1_entry, *prp2_entry; 281367feec50SStephen McConnell uint64_t *prp_entry_phys, *prp_page, *prp_page_phys; 281467feec50SStephen McConnell uint32_t offset, entry_len, page_mask_result, page_mask; 281567feec50SStephen McConnell bus_addr_t paddr; 281667feec50SStephen McConnell size_t length; 281767feec50SStephen McConnell struct mpr_prp_page *prp_page_info = NULL; 281867feec50SStephen McConnell 281967feec50SStephen McConnell /* 282067feec50SStephen McConnell * Not all commands require a data transfer. If no data, just return 282167feec50SStephen McConnell * without constructing any PRP. 282267feec50SStephen McConnell */ 282367feec50SStephen McConnell if (!data_in_sz && !data_out_sz) 282467feec50SStephen McConnell return; 282567feec50SStephen McConnell 282667feec50SStephen McConnell /* 282767feec50SStephen McConnell * Set pointers to PRP1 and PRP2, which are in the NVMe command. PRP1 is 282867feec50SStephen McConnell * located at a 24 byte offset from the start of the NVMe command. Then 282967feec50SStephen McConnell * set the current PRP entry pointer to PRP1. 283067feec50SStephen McConnell */ 283167feec50SStephen McConnell prp1_entry = (uint64_t *)(nvme_encap_request->NVMe_Command + 283267feec50SStephen McConnell NVME_CMD_PRP1_OFFSET); 283367feec50SStephen McConnell prp2_entry = (uint64_t *)(nvme_encap_request->NVMe_Command + 283467feec50SStephen McConnell NVME_CMD_PRP2_OFFSET); 283567feec50SStephen McConnell prp_entry = prp1_entry; 283667feec50SStephen McConnell 283767feec50SStephen McConnell /* 283867feec50SStephen McConnell * For the PRP entries, use the specially allocated buffer of 283967feec50SStephen McConnell * contiguous memory. PRP Page allocation failures should not happen 284067feec50SStephen McConnell * because there should be enough PRP page buffers to account for the 284167feec50SStephen McConnell * possible NVMe QDepth. 284267feec50SStephen McConnell */ 284367feec50SStephen McConnell prp_page_info = mpr_alloc_prp_page(sc); 284467feec50SStephen McConnell KASSERT(prp_page_info != NULL, ("%s: There are no PRP Pages left to be " 284567feec50SStephen McConnell "used for building a native NVMe SGL.\n", __func__)); 284667feec50SStephen McConnell prp_page = (uint64_t *)prp_page_info->prp_page; 284767feec50SStephen McConnell prp_page_phys = (uint64_t *)(uintptr_t)prp_page_info->prp_page_busaddr; 284867feec50SStephen McConnell 284967feec50SStephen McConnell /* 285067feec50SStephen McConnell * Insert the allocated PRP page into the command's PRP page list. This 285167feec50SStephen McConnell * will be freed when the command is freed. 285267feec50SStephen McConnell */ 285367feec50SStephen McConnell TAILQ_INSERT_TAIL(&cm->cm_prp_page_list, prp_page_info, prp_page_link); 285467feec50SStephen McConnell 285567feec50SStephen McConnell /* 285667feec50SStephen McConnell * Check if we are within 1 entry of a page boundary we don't want our 285767feec50SStephen McConnell * first entry to be a PRP List entry. 285867feec50SStephen McConnell */ 285967feec50SStephen McConnell page_mask = PAGE_SIZE - 1; 286067feec50SStephen McConnell page_mask_result = (uintptr_t)((uint8_t *)prp_page + prp_size) & 286167feec50SStephen McConnell page_mask; 286267feec50SStephen McConnell if (!page_mask_result) 286367feec50SStephen McConnell { 286467feec50SStephen McConnell /* Bump up to next page boundary. */ 286567feec50SStephen McConnell prp_page = (uint64_t *)((uint8_t *)prp_page + prp_size); 286667feec50SStephen McConnell prp_page_phys = (uint64_t *)((uint8_t *)prp_page_phys + 286767feec50SStephen McConnell prp_size); 286867feec50SStephen McConnell } 286967feec50SStephen McConnell 287067feec50SStephen McConnell /* 287167feec50SStephen McConnell * Set PRP physical pointer, which initially points to the current PRP 287267feec50SStephen McConnell * DMA memory page. 287367feec50SStephen McConnell */ 287467feec50SStephen McConnell prp_entry_phys = prp_page_phys; 287567feec50SStephen McConnell 287667feec50SStephen McConnell /* Get physical address and length of the data buffer. */ 287777baa225SJustin Hibbits paddr = (bus_addr_t)(uintptr_t)data; 287867feec50SStephen McConnell if (data_in_sz) 287967feec50SStephen McConnell length = data_in_sz; 288067feec50SStephen McConnell else 288167feec50SStephen McConnell length = data_out_sz; 288267feec50SStephen McConnell 288367feec50SStephen McConnell /* Loop while the length is not zero. */ 288467feec50SStephen McConnell while (length) 288567feec50SStephen McConnell { 288667feec50SStephen McConnell /* 288767feec50SStephen McConnell * Check if we need to put a list pointer here if we are at page 288867feec50SStephen McConnell * boundary - prp_size (8 bytes). 288967feec50SStephen McConnell */ 289067feec50SStephen McConnell page_mask_result = (uintptr_t)((uint8_t *)prp_entry_phys + 289167feec50SStephen McConnell prp_size) & page_mask; 289267feec50SStephen McConnell if (!page_mask_result) 289367feec50SStephen McConnell { 289467feec50SStephen McConnell /* 289567feec50SStephen McConnell * This is the last entry in a PRP List, so we need to 289667feec50SStephen McConnell * put a PRP list pointer here. What this does is: 289767feec50SStephen McConnell * - bump the current memory pointer to the next 289867feec50SStephen McConnell * address, which will be the next full page. 289967feec50SStephen McConnell * - set the PRP Entry to point to that page. This is 290067feec50SStephen McConnell * now the PRP List pointer. 290167feec50SStephen McConnell * - bump the PRP Entry pointer the start of the next 290267feec50SStephen McConnell * page. Since all of this PRP memory is contiguous, 290367feec50SStephen McConnell * no need to get a new page - it's just the next 290467feec50SStephen McConnell * address. 290567feec50SStephen McConnell */ 290667feec50SStephen McConnell prp_entry_phys++; 290767feec50SStephen McConnell *prp_entry = 290867feec50SStephen McConnell htole64((uint64_t)(uintptr_t)prp_entry_phys); 290967feec50SStephen McConnell prp_entry++; 291067feec50SStephen McConnell } 291167feec50SStephen McConnell 291267feec50SStephen McConnell /* Need to handle if entry will be part of a page. */ 291367feec50SStephen McConnell offset = (uint32_t)paddr & page_mask; 291467feec50SStephen McConnell entry_len = PAGE_SIZE - offset; 291567feec50SStephen McConnell 291667feec50SStephen McConnell if (prp_entry == prp1_entry) 291767feec50SStephen McConnell { 291867feec50SStephen McConnell /* 291967feec50SStephen McConnell * Must fill in the first PRP pointer (PRP1) before 292067feec50SStephen McConnell * moving on. 292167feec50SStephen McConnell */ 292267feec50SStephen McConnell *prp1_entry = htole64((uint64_t)paddr); 292367feec50SStephen McConnell 292467feec50SStephen McConnell /* 292567feec50SStephen McConnell * Now point to the second PRP entry within the 292667feec50SStephen McConnell * command (PRP2). 292767feec50SStephen McConnell */ 292867feec50SStephen McConnell prp_entry = prp2_entry; 292967feec50SStephen McConnell } 293067feec50SStephen McConnell else if (prp_entry == prp2_entry) 293167feec50SStephen McConnell { 293267feec50SStephen McConnell /* 293367feec50SStephen McConnell * Should the PRP2 entry be a PRP List pointer or just a 293467feec50SStephen McConnell * regular PRP pointer? If there is more than one more 293567feec50SStephen McConnell * page of data, must use a PRP List pointer. 293667feec50SStephen McConnell */ 293767feec50SStephen McConnell if (length > PAGE_SIZE) 293867feec50SStephen McConnell { 293967feec50SStephen McConnell /* 294067feec50SStephen McConnell * PRP2 will contain a PRP List pointer because 294167feec50SStephen McConnell * more PRP's are needed with this command. The 294267feec50SStephen McConnell * list will start at the beginning of the 294367feec50SStephen McConnell * contiguous buffer. 294467feec50SStephen McConnell */ 294567feec50SStephen McConnell *prp2_entry = 294667feec50SStephen McConnell htole64( 294767feec50SStephen McConnell (uint64_t)(uintptr_t)prp_entry_phys); 294867feec50SStephen McConnell 294967feec50SStephen McConnell /* 295067feec50SStephen McConnell * The next PRP Entry will be the start of the 295167feec50SStephen McConnell * first PRP List. 295267feec50SStephen McConnell */ 295367feec50SStephen McConnell prp_entry = prp_page; 295467feec50SStephen McConnell } 295567feec50SStephen McConnell else 295667feec50SStephen McConnell { 295767feec50SStephen McConnell /* 295867feec50SStephen McConnell * After this, the PRP Entries are complete. 295967feec50SStephen McConnell * This command uses 2 PRP's and no PRP list. 296067feec50SStephen McConnell */ 296167feec50SStephen McConnell *prp2_entry = htole64((uint64_t)paddr); 296267feec50SStephen McConnell } 296367feec50SStephen McConnell } 296467feec50SStephen McConnell else 296567feec50SStephen McConnell { 296667feec50SStephen McConnell /* 296767feec50SStephen McConnell * Put entry in list and bump the addresses. 296867feec50SStephen McConnell * 296967feec50SStephen McConnell * After PRP1 and PRP2 are filled in, this will fill in 297067feec50SStephen McConnell * all remaining PRP entries in a PRP List, one per each 297167feec50SStephen McConnell * time through the loop. 297267feec50SStephen McConnell */ 297367feec50SStephen McConnell *prp_entry = htole64((uint64_t)paddr); 297467feec50SStephen McConnell prp_entry++; 297567feec50SStephen McConnell prp_entry_phys++; 297667feec50SStephen McConnell } 297767feec50SStephen McConnell 297867feec50SStephen McConnell /* 297967feec50SStephen McConnell * Bump the phys address of the command's data buffer by the 298067feec50SStephen McConnell * entry_len. 298167feec50SStephen McConnell */ 298267feec50SStephen McConnell paddr += entry_len; 298367feec50SStephen McConnell 298467feec50SStephen McConnell /* Decrement length accounting for last partial page. */ 298567feec50SStephen McConnell if (entry_len > length) 298667feec50SStephen McConnell length = 0; 298767feec50SStephen McConnell else 298867feec50SStephen McConnell length -= entry_len; 298967feec50SStephen McConnell } 299067feec50SStephen McConnell } 299167feec50SStephen McConnell 299267feec50SStephen McConnell /* 299367feec50SStephen McConnell * mpr_check_pcie_native_sgl - This function is called for PCIe end devices to 299467feec50SStephen McConnell * determine if the driver needs to build a native SGL. If so, that native SGL 299567feec50SStephen McConnell * is built in the contiguous buffers allocated especially for PCIe SGL 299667feec50SStephen McConnell * creation. If the driver will not build a native SGL, return TRUE and a 299767feec50SStephen McConnell * normal IEEE SGL will be built. Currently this routine supports NVMe devices 299867feec50SStephen McConnell * only. 299967feec50SStephen McConnell * 300067feec50SStephen McConnell * Returns FALSE (0) if native SGL was built, TRUE (1) if no SGL was built. 300167feec50SStephen McConnell */ 300267feec50SStephen McConnell static int 300367feec50SStephen McConnell mpr_check_pcie_native_sgl(struct mpr_softc *sc, struct mpr_command *cm, 300467feec50SStephen McConnell bus_dma_segment_t *segs, int segs_left) 300567feec50SStephen McConnell { 300667feec50SStephen McConnell uint32_t i, sge_dwords, length, offset, entry_len; 300767feec50SStephen McConnell uint32_t num_entries, buff_len = 0, sges_in_segment; 300867feec50SStephen McConnell uint32_t page_mask, page_mask_result, *curr_buff; 300967feec50SStephen McConnell uint32_t *ptr_sgl, *ptr_first_sgl, first_page_offset; 301067feec50SStephen McConnell uint32_t first_page_data_size, end_residual; 301167feec50SStephen McConnell uint64_t *msg_phys; 301267feec50SStephen McConnell bus_addr_t paddr; 301367feec50SStephen McConnell int build_native_sgl = 0, first_prp_entry; 301467feec50SStephen McConnell int prp_size = PRP_ENTRY_SIZE; 301567feec50SStephen McConnell Mpi25IeeeSgeChain64_t *main_chain_element = NULL; 301667feec50SStephen McConnell struct mpr_prp_page *prp_page_info = NULL; 301767feec50SStephen McConnell 301867feec50SStephen McConnell mpr_dprint(sc, MPR_TRACE, "%s\n", __func__); 301967feec50SStephen McConnell 302067feec50SStephen McConnell /* 302167feec50SStephen McConnell * Add up the sizes of each segment length to get the total transfer 302267feec50SStephen McConnell * size, which will be checked against the Maximum Data Transfer Size. 302367feec50SStephen McConnell * If the data transfer length exceeds the MDTS for this device, just 302467feec50SStephen McConnell * return 1 so a normal IEEE SGL will be built. F/W will break the I/O 302567feec50SStephen McConnell * up into multiple I/O's. [nvme_mdts = 0 means unlimited] 302667feec50SStephen McConnell */ 302767feec50SStephen McConnell for (i = 0; i < segs_left; i++) 302867feec50SStephen McConnell buff_len += htole32(segs[i].ds_len); 302967feec50SStephen McConnell if ((cm->cm_targ->MDTS > 0) && (buff_len > cm->cm_targ->MDTS)) 303067feec50SStephen McConnell return 1; 303167feec50SStephen McConnell 303267feec50SStephen McConnell /* Create page_mask (to get offset within page) */ 303367feec50SStephen McConnell page_mask = PAGE_SIZE - 1; 303467feec50SStephen McConnell 303567feec50SStephen McConnell /* 303667feec50SStephen McConnell * Check if the number of elements exceeds the max number that can be 303767feec50SStephen McConnell * put in the main message frame (H/W can only translate an SGL that 303867feec50SStephen McConnell * is contained entirely in the main message frame). 303967feec50SStephen McConnell */ 304096410703SScott Long sges_in_segment = (sc->reqframesz - 304167feec50SStephen McConnell offsetof(Mpi25SCSIIORequest_t, SGL)) / sizeof(MPI25_SGE_IO_UNION); 304267feec50SStephen McConnell if (segs_left > sges_in_segment) 304367feec50SStephen McConnell build_native_sgl = 1; 304467feec50SStephen McConnell else 304567feec50SStephen McConnell { 304667feec50SStephen McConnell /* 304767feec50SStephen McConnell * NVMe uses one PRP for each physical page (or part of physical 304867feec50SStephen McConnell * page). 304967feec50SStephen McConnell * if 4 pages or less then IEEE is OK 305067feec50SStephen McConnell * if > 5 pages then we need to build a native SGL 305167feec50SStephen McConnell * if > 4 and <= 5 pages, then check the physical address of 305267feec50SStephen McConnell * the first SG entry, then if this first size in the page 305367feec50SStephen McConnell * is >= the residual beyond 4 pages then use IEEE, 305467feec50SStephen McConnell * otherwise use native SGL 305567feec50SStephen McConnell */ 305667feec50SStephen McConnell if (buff_len > (PAGE_SIZE * 5)) 305767feec50SStephen McConnell build_native_sgl = 1; 305867feec50SStephen McConnell else if ((buff_len > (PAGE_SIZE * 4)) && 305967feec50SStephen McConnell (buff_len <= (PAGE_SIZE * 5)) ) 306067feec50SStephen McConnell { 306177baa225SJustin Hibbits msg_phys = (uint64_t *)(uintptr_t)segs[0].ds_addr; 306267feec50SStephen McConnell first_page_offset = 306367feec50SStephen McConnell ((uint32_t)(uint64_t)(uintptr_t)msg_phys & 306467feec50SStephen McConnell page_mask); 306567feec50SStephen McConnell first_page_data_size = PAGE_SIZE - first_page_offset; 306667feec50SStephen McConnell end_residual = buff_len % PAGE_SIZE; 306767feec50SStephen McConnell 306867feec50SStephen McConnell /* 306967feec50SStephen McConnell * If offset into first page pushes the end of the data 307067feec50SStephen McConnell * beyond end of the 5th page, we need the extra PRP 307167feec50SStephen McConnell * list. 307267feec50SStephen McConnell */ 307367feec50SStephen McConnell if (first_page_data_size < end_residual) 307467feec50SStephen McConnell build_native_sgl = 1; 307567feec50SStephen McConnell 307667feec50SStephen McConnell /* 307767feec50SStephen McConnell * Check if first SG entry size is < residual beyond 4 307867feec50SStephen McConnell * pages. 307967feec50SStephen McConnell */ 308067feec50SStephen McConnell if (htole32(segs[0].ds_len) < 308167feec50SStephen McConnell (buff_len - (PAGE_SIZE * 4))) 308267feec50SStephen McConnell build_native_sgl = 1; 308367feec50SStephen McConnell } 308467feec50SStephen McConnell } 308567feec50SStephen McConnell 308667feec50SStephen McConnell /* check if native SGL is needed */ 308767feec50SStephen McConnell if (!build_native_sgl) 308867feec50SStephen McConnell return 1; 308967feec50SStephen McConnell 309067feec50SStephen McConnell /* 309167feec50SStephen McConnell * Native SGL is needed. 309267feec50SStephen McConnell * Put a chain element in main message frame that points to the first 309367feec50SStephen McConnell * chain buffer. 309467feec50SStephen McConnell * 309567feec50SStephen McConnell * NOTE: The ChainOffset field must be 0 when using a chain pointer to 309667feec50SStephen McConnell * a native SGL. 309767feec50SStephen McConnell */ 309867feec50SStephen McConnell 309967feec50SStephen McConnell /* Set main message chain element pointer */ 310067feec50SStephen McConnell main_chain_element = (pMpi25IeeeSgeChain64_t)cm->cm_sge; 310167feec50SStephen McConnell 310267feec50SStephen McConnell /* 310367feec50SStephen McConnell * For NVMe the chain element needs to be the 2nd SGL entry in the main 310467feec50SStephen McConnell * message. 310567feec50SStephen McConnell */ 310667feec50SStephen McConnell main_chain_element = (Mpi25IeeeSgeChain64_t *) 310767feec50SStephen McConnell ((uint8_t *)main_chain_element + sizeof(MPI25_IEEE_SGE_CHAIN64)); 310867feec50SStephen McConnell 310967feec50SStephen McConnell /* 311067feec50SStephen McConnell * For the PRP entries, use the specially allocated buffer of 311167feec50SStephen McConnell * contiguous memory. PRP Page allocation failures should not happen 311267feec50SStephen McConnell * because there should be enough PRP page buffers to account for the 311367feec50SStephen McConnell * possible NVMe QDepth. 311467feec50SStephen McConnell */ 311567feec50SStephen McConnell prp_page_info = mpr_alloc_prp_page(sc); 311667feec50SStephen McConnell KASSERT(prp_page_info != NULL, ("%s: There are no PRP Pages left to be " 311767feec50SStephen McConnell "used for building a native NVMe SGL.\n", __func__)); 311867feec50SStephen McConnell curr_buff = (uint32_t *)prp_page_info->prp_page; 311967feec50SStephen McConnell msg_phys = (uint64_t *)(uintptr_t)prp_page_info->prp_page_busaddr; 312067feec50SStephen McConnell 312167feec50SStephen McConnell /* 312267feec50SStephen McConnell * Insert the allocated PRP page into the command's PRP page list. This 312367feec50SStephen McConnell * will be freed when the command is freed. 312467feec50SStephen McConnell */ 312567feec50SStephen McConnell TAILQ_INSERT_TAIL(&cm->cm_prp_page_list, prp_page_info, prp_page_link); 312667feec50SStephen McConnell 312767feec50SStephen McConnell /* 312867feec50SStephen McConnell * Check if we are within 1 entry of a page boundary we don't want our 312967feec50SStephen McConnell * first entry to be a PRP List entry. 313067feec50SStephen McConnell */ 313167feec50SStephen McConnell page_mask_result = (uintptr_t)((uint8_t *)curr_buff + prp_size) & 313267feec50SStephen McConnell page_mask; 313367feec50SStephen McConnell if (!page_mask_result) { 313467feec50SStephen McConnell /* Bump up to next page boundary. */ 313567feec50SStephen McConnell curr_buff = (uint32_t *)((uint8_t *)curr_buff + prp_size); 313667feec50SStephen McConnell msg_phys = (uint64_t *)((uint8_t *)msg_phys + prp_size); 313767feec50SStephen McConnell } 313867feec50SStephen McConnell 313967feec50SStephen McConnell /* Fill in the chain element and make it an NVMe segment type. */ 314067feec50SStephen McConnell main_chain_element->Address.High = 314167feec50SStephen McConnell htole32((uint32_t)((uint64_t)(uintptr_t)msg_phys >> 32)); 314267feec50SStephen McConnell main_chain_element->Address.Low = 314367feec50SStephen McConnell htole32((uint32_t)(uintptr_t)msg_phys); 314467feec50SStephen McConnell main_chain_element->NextChainOffset = 0; 314567feec50SStephen McConnell main_chain_element->Flags = MPI2_IEEE_SGE_FLAGS_CHAIN_ELEMENT | 314667feec50SStephen McConnell MPI2_IEEE_SGE_FLAGS_SYSTEM_ADDR | 314767feec50SStephen McConnell MPI26_IEEE_SGE_FLAGS_NSF_NVME_PRP; 314867feec50SStephen McConnell 314967feec50SStephen McConnell /* Set SGL pointer to start of contiguous PCIe buffer. */ 315067feec50SStephen McConnell ptr_sgl = curr_buff; 315167feec50SStephen McConnell sge_dwords = 2; 315267feec50SStephen McConnell num_entries = 0; 315367feec50SStephen McConnell 315467feec50SStephen McConnell /* 315567feec50SStephen McConnell * NVMe has a very convoluted PRP format. One PRP is required for each 315667feec50SStephen McConnell * page or partial page. We need to split up OS SG entries if they are 315767feec50SStephen McConnell * longer than one page or cross a page boundary. We also have to insert 315867feec50SStephen McConnell * a PRP list pointer entry as the last entry in each physical page of 315967feec50SStephen McConnell * the PRP list. 316067feec50SStephen McConnell * 316167feec50SStephen McConnell * NOTE: The first PRP "entry" is actually placed in the first SGL entry 316267feec50SStephen McConnell * in the main message in IEEE 64 format. The 2nd entry in the main 316367feec50SStephen McConnell * message is the chain element, and the rest of the PRP entries are 316467feec50SStephen McConnell * built in the contiguous PCIe buffer. 316567feec50SStephen McConnell */ 316667feec50SStephen McConnell first_prp_entry = 1; 316767feec50SStephen McConnell ptr_first_sgl = (uint32_t *)cm->cm_sge; 316867feec50SStephen McConnell 316967feec50SStephen McConnell for (i = 0; i < segs_left; i++) { 317067feec50SStephen McConnell /* Get physical address and length of this SG entry. */ 317167feec50SStephen McConnell paddr = segs[i].ds_addr; 317267feec50SStephen McConnell length = segs[i].ds_len; 317367feec50SStephen McConnell 317467feec50SStephen McConnell /* 317567feec50SStephen McConnell * Check whether a given SGE buffer lies on a non-PAGED 317667feec50SStephen McConnell * boundary if this is not the first page. If so, this is not 317767feec50SStephen McConnell * expected so have FW build the SGL. 317867feec50SStephen McConnell */ 3179757ff642SScott Long if ((i != 0) && (((uint32_t)paddr & page_mask) != 0)) { 318067feec50SStephen McConnell mpr_dprint(sc, MPR_ERROR, "Unaligned SGE while " 318167feec50SStephen McConnell "building NVMe PRPs, low address is 0x%x\n", 318267feec50SStephen McConnell (uint32_t)paddr); 318367feec50SStephen McConnell return 1; 318467feec50SStephen McConnell } 318567feec50SStephen McConnell 318667feec50SStephen McConnell /* Apart from last SGE, if any other SGE boundary is not page 318767feec50SStephen McConnell * aligned then it means that hole exists. Existence of hole 318867feec50SStephen McConnell * leads to data corruption. So fallback to IEEE SGEs. 318967feec50SStephen McConnell */ 319067feec50SStephen McConnell if (i != (segs_left - 1)) { 319167feec50SStephen McConnell if (((uint32_t)paddr + length) & page_mask) { 319267feec50SStephen McConnell mpr_dprint(sc, MPR_ERROR, "Unaligned SGE " 319367feec50SStephen McConnell "boundary while building NVMe PRPs, low " 319467feec50SStephen McConnell "address: 0x%x and length: %u\n", 319567feec50SStephen McConnell (uint32_t)paddr, length); 319667feec50SStephen McConnell return 1; 319767feec50SStephen McConnell } 319867feec50SStephen McConnell } 319967feec50SStephen McConnell 320067feec50SStephen McConnell /* Loop while the length is not zero. */ 320167feec50SStephen McConnell while (length) { 320267feec50SStephen McConnell /* 320367feec50SStephen McConnell * Check if we need to put a list pointer here if we are 320467feec50SStephen McConnell * at page boundary - prp_size. 320567feec50SStephen McConnell */ 320667feec50SStephen McConnell page_mask_result = (uintptr_t)((uint8_t *)ptr_sgl + 320767feec50SStephen McConnell prp_size) & page_mask; 320867feec50SStephen McConnell if (!page_mask_result) { 320967feec50SStephen McConnell /* 321067feec50SStephen McConnell * Need to put a PRP list pointer here. 321167feec50SStephen McConnell */ 321267feec50SStephen McConnell msg_phys = (uint64_t *)((uint8_t *)msg_phys + 321367feec50SStephen McConnell prp_size); 321467feec50SStephen McConnell *ptr_sgl = htole32((uintptr_t)msg_phys); 321567feec50SStephen McConnell *(ptr_sgl+1) = htole32((uint64_t)(uintptr_t) 321667feec50SStephen McConnell msg_phys >> 32); 321767feec50SStephen McConnell ptr_sgl += sge_dwords; 321867feec50SStephen McConnell num_entries++; 321967feec50SStephen McConnell } 322067feec50SStephen McConnell 322167feec50SStephen McConnell /* Need to handle if entry will be part of a page. */ 322267feec50SStephen McConnell offset = (uint32_t)paddr & page_mask; 322367feec50SStephen McConnell entry_len = PAGE_SIZE - offset; 322467feec50SStephen McConnell if (first_prp_entry) { 322567feec50SStephen McConnell /* 322667feec50SStephen McConnell * Put IEEE entry in first SGE in main message. 322767feec50SStephen McConnell * (Simple element, System addr, not end of 322867feec50SStephen McConnell * list.) 322967feec50SStephen McConnell */ 323067feec50SStephen McConnell *ptr_first_sgl = htole32((uint32_t)paddr); 323167feec50SStephen McConnell *(ptr_first_sgl + 1) = 323267feec50SStephen McConnell htole32((uint32_t)((uint64_t)paddr >> 32)); 323367feec50SStephen McConnell *(ptr_first_sgl + 2) = htole32(entry_len); 323467feec50SStephen McConnell *(ptr_first_sgl + 3) = 0; 323567feec50SStephen McConnell 323667feec50SStephen McConnell /* No longer the first PRP entry. */ 323767feec50SStephen McConnell first_prp_entry = 0; 323867feec50SStephen McConnell } else { 323967feec50SStephen McConnell /* Put entry in list. */ 324067feec50SStephen McConnell *ptr_sgl = htole32((uint32_t)paddr); 324167feec50SStephen McConnell *(ptr_sgl + 1) = 324267feec50SStephen McConnell htole32((uint32_t)((uint64_t)paddr >> 32)); 324367feec50SStephen McConnell 324467feec50SStephen McConnell /* Bump ptr_sgl, msg_phys, and num_entries. */ 324567feec50SStephen McConnell ptr_sgl += sge_dwords; 324667feec50SStephen McConnell msg_phys = (uint64_t *)((uint8_t *)msg_phys + 324767feec50SStephen McConnell prp_size); 324867feec50SStephen McConnell num_entries++; 324967feec50SStephen McConnell } 325067feec50SStephen McConnell 325167feec50SStephen McConnell /* Bump the phys address by the entry_len. */ 325267feec50SStephen McConnell paddr += entry_len; 325367feec50SStephen McConnell 325467feec50SStephen McConnell /* Decrement length accounting for last partial page. */ 325567feec50SStephen McConnell if (entry_len > length) 325667feec50SStephen McConnell length = 0; 325767feec50SStephen McConnell else 325867feec50SStephen McConnell length -= entry_len; 325967feec50SStephen McConnell } 326067feec50SStephen McConnell } 326167feec50SStephen McConnell 326267feec50SStephen McConnell /* Set chain element Length. */ 326367feec50SStephen McConnell main_chain_element->Length = htole32(num_entries * prp_size); 326467feec50SStephen McConnell 326567feec50SStephen McConnell /* Return 0, indicating we built a native SGL. */ 326667feec50SStephen McConnell return 0; 326767feec50SStephen McConnell } 326867feec50SStephen McConnell 3269991554f2SKenneth D. Merry /* 3270991554f2SKenneth D. Merry * Add a chain element as the next SGE for the specified command. 3271991554f2SKenneth D. Merry * Reset cm_sge and cm_sgesize to indicate all the available space. Chains are 3272991554f2SKenneth D. Merry * only required for IEEE commands. Therefore there is no code for commands 3273a2c14879SStephen McConnell * that have the MPR_CM_FLAGS_SGE_SIMPLE flag set (and those commands 3274a2c14879SStephen McConnell * shouldn't be requesting chains). 3275991554f2SKenneth D. Merry */ 3276991554f2SKenneth D. Merry static int 3277991554f2SKenneth D. Merry mpr_add_chain(struct mpr_command *cm, int segsleft) 3278991554f2SKenneth D. Merry { 3279991554f2SKenneth D. Merry struct mpr_softc *sc = cm->cm_sc; 3280991554f2SKenneth D. Merry MPI2_REQUEST_HEADER *req; 3281991554f2SKenneth D. Merry MPI25_IEEE_SGE_CHAIN64 *ieee_sgc; 3282991554f2SKenneth D. Merry struct mpr_chain *chain; 32832bbc5fcbSStephen McConnell int sgc_size, current_segs, rem_segs, segs_per_frame; 3284991554f2SKenneth D. Merry uint8_t next_chain_offset = 0; 3285991554f2SKenneth D. Merry 3286991554f2SKenneth D. Merry /* 3287991554f2SKenneth D. Merry * Fail if a command is requesting a chain for SIMPLE SGE's. For SAS3 3288991554f2SKenneth D. Merry * only IEEE commands should be requesting chains. Return some error 3289991554f2SKenneth D. Merry * code other than 0. 3290991554f2SKenneth D. Merry */ 3291991554f2SKenneth D. Merry if (cm->cm_flags & MPR_CM_FLAGS_SGE_SIMPLE) { 3292991554f2SKenneth D. Merry mpr_dprint(sc, MPR_ERROR, "A chain element cannot be added to " 3293991554f2SKenneth D. Merry "an MPI SGL.\n"); 3294991554f2SKenneth D. Merry return(ENOBUFS); 3295991554f2SKenneth D. Merry } 3296991554f2SKenneth D. Merry 3297991554f2SKenneth D. Merry sgc_size = sizeof(MPI25_IEEE_SGE_CHAIN64); 3298991554f2SKenneth D. Merry if (cm->cm_sglsize < sgc_size) 3299991554f2SKenneth D. Merry panic("MPR: Need SGE Error Code\n"); 3300991554f2SKenneth D. Merry 3301991554f2SKenneth D. Merry chain = mpr_alloc_chain(cm->cm_sc); 3302991554f2SKenneth D. Merry if (chain == NULL) 3303991554f2SKenneth D. Merry return (ENOBUFS); 3304991554f2SKenneth D. Merry 3305991554f2SKenneth D. Merry /* 3306991554f2SKenneth D. Merry * Note: a double-linked list is used to make it easier to walk for 3307991554f2SKenneth D. Merry * debugging. 3308991554f2SKenneth D. Merry */ 3309991554f2SKenneth D. Merry TAILQ_INSERT_TAIL(&cm->cm_chain_list, chain, chain_link); 3310991554f2SKenneth D. Merry 3311991554f2SKenneth D. Merry /* 3312991554f2SKenneth D. Merry * Need to know if the number of frames left is more than 1 or not. If 3313991554f2SKenneth D. Merry * more than 1 frame is required, NextChainOffset will need to be set, 3314991554f2SKenneth D. Merry * which will just be the last segment of the frame. 3315991554f2SKenneth D. Merry */ 3316991554f2SKenneth D. Merry rem_segs = 0; 3317991554f2SKenneth D. Merry if (cm->cm_sglsize < (sgc_size * segsleft)) { 3318991554f2SKenneth D. Merry /* 3319991554f2SKenneth D. Merry * rem_segs is the number of segements remaining after the 3320991554f2SKenneth D. Merry * segments that will go into the current frame. Since it is 3321991554f2SKenneth D. Merry * known that at least one more frame is required, account for 3322991554f2SKenneth D. Merry * the chain element. To know if more than one more frame is 3323991554f2SKenneth D. Merry * required, just check if there will be a remainder after using 3324991554f2SKenneth D. Merry * the current frame (with this chain) and the next frame. If 3325991554f2SKenneth D. Merry * so the NextChainOffset must be the last element of the next 3326991554f2SKenneth D. Merry * frame. 3327991554f2SKenneth D. Merry */ 3328991554f2SKenneth D. Merry current_segs = (cm->cm_sglsize / sgc_size) - 1; 3329991554f2SKenneth D. Merry rem_segs = segsleft - current_segs; 33302bbc5fcbSStephen McConnell segs_per_frame = sc->chain_frame_size / sgc_size; 3331991554f2SKenneth D. Merry if (rem_segs > segs_per_frame) { 3332991554f2SKenneth D. Merry next_chain_offset = segs_per_frame - 1; 3333991554f2SKenneth D. Merry } 3334991554f2SKenneth D. Merry } 3335991554f2SKenneth D. Merry ieee_sgc = &((MPI25_SGE_IO_UNION *)cm->cm_sge)->IeeeChain; 33362bbc5fcbSStephen McConnell ieee_sgc->Length = next_chain_offset ? 33372bbc5fcbSStephen McConnell htole32((uint32_t)sc->chain_frame_size) : 3338991554f2SKenneth D. Merry htole32((uint32_t)rem_segs * (uint32_t)sgc_size); 3339991554f2SKenneth D. Merry ieee_sgc->NextChainOffset = next_chain_offset; 3340991554f2SKenneth D. Merry ieee_sgc->Flags = (MPI2_IEEE_SGE_FLAGS_CHAIN_ELEMENT | 3341991554f2SKenneth D. Merry MPI2_IEEE_SGE_FLAGS_SYSTEM_ADDR); 3342991554f2SKenneth D. Merry ieee_sgc->Address.Low = htole32(chain->chain_busaddr); 3343991554f2SKenneth D. Merry ieee_sgc->Address.High = htole32(chain->chain_busaddr >> 32); 3344991554f2SKenneth D. Merry cm->cm_sge = &((MPI25_SGE_IO_UNION *)chain->chain)->IeeeSimple; 3345991554f2SKenneth D. Merry req = (MPI2_REQUEST_HEADER *)cm->cm_req; 33462bbc5fcbSStephen McConnell req->ChainOffset = (sc->chain_frame_size - sgc_size) >> 4; 3347991554f2SKenneth D. Merry 33482bbc5fcbSStephen McConnell cm->cm_sglsize = sc->chain_frame_size; 3349991554f2SKenneth D. Merry return (0); 3350991554f2SKenneth D. Merry } 3351991554f2SKenneth D. Merry 3352991554f2SKenneth D. Merry /* 3353991554f2SKenneth D. Merry * Add one scatter-gather element to the scatter-gather list for a command. 3354a2c14879SStephen McConnell * Maintain cm_sglsize and cm_sge as the remaining size and pointer to the 3355a2c14879SStephen McConnell * next SGE to fill in, respectively. In Gen3, the MPI SGL does not have a 3356a2c14879SStephen McConnell * chain, so don't consider any chain additions. 3357991554f2SKenneth D. Merry */ 3358991554f2SKenneth D. Merry int 3359991554f2SKenneth D. Merry mpr_push_sge(struct mpr_command *cm, MPI2_SGE_SIMPLE64 *sge, size_t len, 3360991554f2SKenneth D. Merry int segsleft) 3361991554f2SKenneth D. Merry { 3362991554f2SKenneth D. Merry uint32_t saved_buf_len, saved_address_low, saved_address_high; 3363991554f2SKenneth D. Merry u32 sge_flags; 3364991554f2SKenneth D. Merry 3365991554f2SKenneth D. Merry /* 3366991554f2SKenneth D. Merry * case 1: >=1 more segment, no room for anything (error) 3367991554f2SKenneth D. Merry * case 2: 1 more segment and enough room for it 3368991554f2SKenneth D. Merry */ 3369991554f2SKenneth D. Merry 3370991554f2SKenneth D. Merry if (cm->cm_sglsize < (segsleft * sizeof(MPI2_SGE_SIMPLE64))) { 3371991554f2SKenneth D. Merry mpr_dprint(cm->cm_sc, MPR_ERROR, 3372991554f2SKenneth D. Merry "%s: warning: Not enough room for MPI SGL in frame.\n", 3373991554f2SKenneth D. Merry __func__); 3374991554f2SKenneth D. Merry return(ENOBUFS); 3375991554f2SKenneth D. Merry } 3376991554f2SKenneth D. Merry 3377991554f2SKenneth D. Merry KASSERT(segsleft == 1, 3378991554f2SKenneth D. Merry ("segsleft cannot be more than 1 for an MPI SGL; segsleft = %d\n", 3379991554f2SKenneth D. Merry segsleft)); 3380991554f2SKenneth D. Merry 3381991554f2SKenneth D. Merry /* 3382991554f2SKenneth D. Merry * There is one more segment left to add for the MPI SGL and there is 3383991554f2SKenneth D. Merry * enough room in the frame to add it. This is the normal case because 3384991554f2SKenneth D. Merry * MPI SGL's don't have chains, otherwise something is wrong. 3385991554f2SKenneth D. Merry * 3386991554f2SKenneth D. Merry * If this is a bi-directional request, need to account for that 3387991554f2SKenneth D. Merry * here. Save the pre-filled sge values. These will be used 3388991554f2SKenneth D. Merry * either for the 2nd SGL or for a single direction SGL. If 3389991554f2SKenneth D. Merry * cm_out_len is non-zero, this is a bi-directional request, so 3390991554f2SKenneth D. Merry * fill in the OUT SGL first, then the IN SGL, otherwise just 3391991554f2SKenneth D. Merry * fill in the IN SGL. Note that at this time, when filling in 3392991554f2SKenneth D. Merry * 2 SGL's for a bi-directional request, they both use the same 3393991554f2SKenneth D. Merry * DMA buffer (same cm command). 3394991554f2SKenneth D. Merry */ 3395991554f2SKenneth D. Merry saved_buf_len = sge->FlagsLength & 0x00FFFFFF; 3396991554f2SKenneth D. Merry saved_address_low = sge->Address.Low; 3397991554f2SKenneth D. Merry saved_address_high = sge->Address.High; 3398991554f2SKenneth D. Merry if (cm->cm_out_len) { 3399991554f2SKenneth D. Merry sge->FlagsLength = cm->cm_out_len | 3400991554f2SKenneth D. Merry ((uint32_t)(MPI2_SGE_FLAGS_SIMPLE_ELEMENT | 3401991554f2SKenneth D. Merry MPI2_SGE_FLAGS_END_OF_BUFFER | 3402991554f2SKenneth D. Merry MPI2_SGE_FLAGS_HOST_TO_IOC | 3403991554f2SKenneth D. Merry MPI2_SGE_FLAGS_64_BIT_ADDRESSING) << 3404991554f2SKenneth D. Merry MPI2_SGE_FLAGS_SHIFT); 3405991554f2SKenneth D. Merry cm->cm_sglsize -= len; 3406991554f2SKenneth D. Merry /* Endian Safe code */ 3407991554f2SKenneth D. Merry sge_flags = sge->FlagsLength; 3408991554f2SKenneth D. Merry sge->FlagsLength = htole32(sge_flags); 3409991554f2SKenneth D. Merry sge->Address.High = htole32(sge->Address.High); 3410991554f2SKenneth D. Merry sge->Address.Low = htole32(sge->Address.Low); 3411991554f2SKenneth D. Merry bcopy(sge, cm->cm_sge, len); 3412991554f2SKenneth D. Merry cm->cm_sge = (MPI2_SGE_IO_UNION *)((uintptr_t)cm->cm_sge + len); 3413991554f2SKenneth D. Merry } 3414991554f2SKenneth D. Merry sge->FlagsLength = saved_buf_len | 3415991554f2SKenneth D. Merry ((uint32_t)(MPI2_SGE_FLAGS_SIMPLE_ELEMENT | 3416991554f2SKenneth D. Merry MPI2_SGE_FLAGS_END_OF_BUFFER | 3417991554f2SKenneth D. Merry MPI2_SGE_FLAGS_LAST_ELEMENT | 3418991554f2SKenneth D. Merry MPI2_SGE_FLAGS_END_OF_LIST | 3419991554f2SKenneth D. Merry MPI2_SGE_FLAGS_64_BIT_ADDRESSING) << 3420991554f2SKenneth D. Merry MPI2_SGE_FLAGS_SHIFT); 3421991554f2SKenneth D. Merry if (cm->cm_flags & MPR_CM_FLAGS_DATAIN) { 3422991554f2SKenneth D. Merry sge->FlagsLength |= 3423991554f2SKenneth D. Merry ((uint32_t)(MPI2_SGE_FLAGS_IOC_TO_HOST) << 3424991554f2SKenneth D. Merry MPI2_SGE_FLAGS_SHIFT); 3425991554f2SKenneth D. Merry } else { 3426991554f2SKenneth D. Merry sge->FlagsLength |= 3427991554f2SKenneth D. Merry ((uint32_t)(MPI2_SGE_FLAGS_HOST_TO_IOC) << 3428991554f2SKenneth D. Merry MPI2_SGE_FLAGS_SHIFT); 3429991554f2SKenneth D. Merry } 3430991554f2SKenneth D. Merry sge->Address.Low = saved_address_low; 3431991554f2SKenneth D. Merry sge->Address.High = saved_address_high; 3432991554f2SKenneth D. Merry 3433991554f2SKenneth D. Merry cm->cm_sglsize -= len; 3434991554f2SKenneth D. Merry /* Endian Safe code */ 3435991554f2SKenneth D. Merry sge_flags = sge->FlagsLength; 3436991554f2SKenneth D. Merry sge->FlagsLength = htole32(sge_flags); 3437991554f2SKenneth D. Merry sge->Address.High = htole32(sge->Address.High); 3438991554f2SKenneth D. Merry sge->Address.Low = htole32(sge->Address.Low); 3439991554f2SKenneth D. Merry bcopy(sge, cm->cm_sge, len); 3440991554f2SKenneth D. Merry cm->cm_sge = (MPI2_SGE_IO_UNION *)((uintptr_t)cm->cm_sge + len); 3441991554f2SKenneth D. Merry return (0); 3442991554f2SKenneth D. Merry } 3443991554f2SKenneth D. Merry 3444991554f2SKenneth D. Merry /* 3445991554f2SKenneth D. Merry * Add one IEEE scatter-gather element (chain or simple) to the IEEE scatter- 3446991554f2SKenneth D. Merry * gather list for a command. Maintain cm_sglsize and cm_sge as the 3447991554f2SKenneth D. Merry * remaining size and pointer to the next SGE to fill in, respectively. 3448991554f2SKenneth D. Merry */ 3449991554f2SKenneth D. Merry int 3450991554f2SKenneth D. Merry mpr_push_ieee_sge(struct mpr_command *cm, void *sgep, int segsleft) 3451991554f2SKenneth D. Merry { 3452991554f2SKenneth D. Merry MPI2_IEEE_SGE_SIMPLE64 *sge = sgep; 3453991554f2SKenneth D. Merry int error, ieee_sge_size = sizeof(MPI25_SGE_IO_UNION); 3454991554f2SKenneth D. Merry uint32_t saved_buf_len, saved_address_low, saved_address_high; 3455991554f2SKenneth D. Merry uint32_t sge_length; 3456991554f2SKenneth D. Merry 3457991554f2SKenneth D. Merry /* 3458991554f2SKenneth D. Merry * case 1: No room for chain or segment (error). 3459991554f2SKenneth D. Merry * case 2: Two or more segments left but only room for chain. 3460991554f2SKenneth D. Merry * case 3: Last segment and room for it, so set flags. 3461991554f2SKenneth D. Merry */ 3462991554f2SKenneth D. Merry 3463991554f2SKenneth D. Merry /* 3464991554f2SKenneth D. Merry * There should be room for at least one element, or there is a big 3465991554f2SKenneth D. Merry * problem. 3466991554f2SKenneth D. Merry */ 3467991554f2SKenneth D. Merry if (cm->cm_sglsize < ieee_sge_size) 3468991554f2SKenneth D. Merry panic("MPR: Need SGE Error Code\n"); 3469991554f2SKenneth D. Merry 3470991554f2SKenneth D. Merry if ((segsleft >= 2) && (cm->cm_sglsize < (ieee_sge_size * 2))) { 3471991554f2SKenneth D. Merry if ((error = mpr_add_chain(cm, segsleft)) != 0) 3472991554f2SKenneth D. Merry return (error); 3473991554f2SKenneth D. Merry } 3474991554f2SKenneth D. Merry 3475991554f2SKenneth D. Merry if (segsleft == 1) { 3476991554f2SKenneth D. Merry /* 3477991554f2SKenneth D. Merry * If this is a bi-directional request, need to account for that 3478991554f2SKenneth D. Merry * here. Save the pre-filled sge values. These will be used 3479991554f2SKenneth D. Merry * either for the 2nd SGL or for a single direction SGL. If 3480991554f2SKenneth D. Merry * cm_out_len is non-zero, this is a bi-directional request, so 3481991554f2SKenneth D. Merry * fill in the OUT SGL first, then the IN SGL, otherwise just 3482991554f2SKenneth D. Merry * fill in the IN SGL. Note that at this time, when filling in 3483991554f2SKenneth D. Merry * 2 SGL's for a bi-directional request, they both use the same 3484991554f2SKenneth D. Merry * DMA buffer (same cm command). 3485991554f2SKenneth D. Merry */ 3486991554f2SKenneth D. Merry saved_buf_len = sge->Length; 3487991554f2SKenneth D. Merry saved_address_low = sge->Address.Low; 3488991554f2SKenneth D. Merry saved_address_high = sge->Address.High; 3489991554f2SKenneth D. Merry if (cm->cm_out_len) { 3490991554f2SKenneth D. Merry sge->Length = cm->cm_out_len; 3491991554f2SKenneth D. Merry sge->Flags = (MPI2_IEEE_SGE_FLAGS_SIMPLE_ELEMENT | 3492991554f2SKenneth D. Merry MPI2_IEEE_SGE_FLAGS_SYSTEM_ADDR); 3493991554f2SKenneth D. Merry cm->cm_sglsize -= ieee_sge_size; 3494991554f2SKenneth D. Merry /* Endian Safe code */ 3495991554f2SKenneth D. Merry sge_length = sge->Length; 3496991554f2SKenneth D. Merry sge->Length = htole32(sge_length); 3497991554f2SKenneth D. Merry sge->Address.High = htole32(sge->Address.High); 3498991554f2SKenneth D. Merry sge->Address.Low = htole32(sge->Address.Low); 3499991554f2SKenneth D. Merry bcopy(sgep, cm->cm_sge, ieee_sge_size); 3500991554f2SKenneth D. Merry cm->cm_sge = 3501991554f2SKenneth D. Merry (MPI25_SGE_IO_UNION *)((uintptr_t)cm->cm_sge + 3502991554f2SKenneth D. Merry ieee_sge_size); 3503991554f2SKenneth D. Merry } 3504991554f2SKenneth D. Merry sge->Length = saved_buf_len; 3505991554f2SKenneth D. Merry sge->Flags = (MPI2_IEEE_SGE_FLAGS_SIMPLE_ELEMENT | 3506991554f2SKenneth D. Merry MPI2_IEEE_SGE_FLAGS_SYSTEM_ADDR | 3507991554f2SKenneth D. Merry MPI25_IEEE_SGE_FLAGS_END_OF_LIST); 3508991554f2SKenneth D. Merry sge->Address.Low = saved_address_low; 3509991554f2SKenneth D. Merry sge->Address.High = saved_address_high; 3510991554f2SKenneth D. Merry } 3511991554f2SKenneth D. Merry 3512991554f2SKenneth D. Merry cm->cm_sglsize -= ieee_sge_size; 3513991554f2SKenneth D. Merry /* Endian Safe code */ 3514991554f2SKenneth D. Merry sge_length = sge->Length; 3515991554f2SKenneth D. Merry sge->Length = htole32(sge_length); 3516991554f2SKenneth D. Merry sge->Address.High = htole32(sge->Address.High); 3517991554f2SKenneth D. Merry sge->Address.Low = htole32(sge->Address.Low); 3518991554f2SKenneth D. Merry bcopy(sgep, cm->cm_sge, ieee_sge_size); 3519991554f2SKenneth D. Merry cm->cm_sge = (MPI25_SGE_IO_UNION *)((uintptr_t)cm->cm_sge + 3520991554f2SKenneth D. Merry ieee_sge_size); 3521991554f2SKenneth D. Merry return (0); 3522991554f2SKenneth D. Merry } 3523991554f2SKenneth D. Merry 3524991554f2SKenneth D. Merry /* 3525991554f2SKenneth D. Merry * Add one dma segment to the scatter-gather list for a command. 3526991554f2SKenneth D. Merry */ 3527991554f2SKenneth D. Merry int 3528991554f2SKenneth D. Merry mpr_add_dmaseg(struct mpr_command *cm, vm_paddr_t pa, size_t len, u_int flags, 3529991554f2SKenneth D. Merry int segsleft) 3530991554f2SKenneth D. Merry { 3531991554f2SKenneth D. Merry MPI2_SGE_SIMPLE64 sge; 3532991554f2SKenneth D. Merry MPI2_IEEE_SGE_SIMPLE64 ieee_sge; 3533991554f2SKenneth D. Merry 3534991554f2SKenneth D. Merry if (!(cm->cm_flags & MPR_CM_FLAGS_SGE_SIMPLE)) { 3535991554f2SKenneth D. Merry ieee_sge.Flags = (MPI2_IEEE_SGE_FLAGS_SIMPLE_ELEMENT | 3536991554f2SKenneth D. Merry MPI2_IEEE_SGE_FLAGS_SYSTEM_ADDR); 3537991554f2SKenneth D. Merry ieee_sge.Length = len; 3538991554f2SKenneth D. Merry mpr_from_u64(pa, &ieee_sge.Address); 3539991554f2SKenneth D. Merry 3540991554f2SKenneth D. Merry return (mpr_push_ieee_sge(cm, &ieee_sge, segsleft)); 3541991554f2SKenneth D. Merry } else { 3542991554f2SKenneth D. Merry /* 3543991554f2SKenneth D. Merry * This driver always uses 64-bit address elements for 3544991554f2SKenneth D. Merry * simplicity. 3545991554f2SKenneth D. Merry */ 3546991554f2SKenneth D. Merry flags |= MPI2_SGE_FLAGS_SIMPLE_ELEMENT | 3547991554f2SKenneth D. Merry MPI2_SGE_FLAGS_64_BIT_ADDRESSING; 3548991554f2SKenneth D. Merry /* Set Endian safe macro in mpr_push_sge */ 3549991554f2SKenneth D. Merry sge.FlagsLength = len | (flags << MPI2_SGE_FLAGS_SHIFT); 3550991554f2SKenneth D. Merry mpr_from_u64(pa, &sge.Address); 3551991554f2SKenneth D. Merry 3552991554f2SKenneth D. Merry return (mpr_push_sge(cm, &sge, sizeof sge, segsleft)); 3553991554f2SKenneth D. Merry } 3554991554f2SKenneth D. Merry } 3555991554f2SKenneth D. Merry 3556991554f2SKenneth D. Merry static void 3557991554f2SKenneth D. Merry mpr_data_cb(void *arg, bus_dma_segment_t *segs, int nsegs, int error) 3558991554f2SKenneth D. Merry { 3559991554f2SKenneth D. Merry struct mpr_softc *sc; 3560991554f2SKenneth D. Merry struct mpr_command *cm; 3561991554f2SKenneth D. Merry u_int i, dir, sflags; 3562991554f2SKenneth D. Merry 3563991554f2SKenneth D. Merry cm = (struct mpr_command *)arg; 3564991554f2SKenneth D. Merry sc = cm->cm_sc; 3565991554f2SKenneth D. Merry 3566991554f2SKenneth D. Merry /* 3567991554f2SKenneth D. Merry * In this case, just print out a warning and let the chip tell the 3568991554f2SKenneth D. Merry * user they did the wrong thing. 3569991554f2SKenneth D. Merry */ 3570991554f2SKenneth D. Merry if ((cm->cm_max_segs != 0) && (nsegs > cm->cm_max_segs)) { 35717a2a6a1aSStephen McConnell mpr_dprint(sc, MPR_ERROR, "%s: warning: busdma returned %d " 35727a2a6a1aSStephen McConnell "segments, more than the %d allowed\n", __func__, nsegs, 3573991554f2SKenneth D. Merry cm->cm_max_segs); 3574991554f2SKenneth D. Merry } 3575991554f2SKenneth D. Merry 3576991554f2SKenneth D. Merry /* 3577991554f2SKenneth D. Merry * Set up DMA direction flags. Bi-directional requests are also handled 3578991554f2SKenneth D. Merry * here. In that case, both direction flags will be set. 3579991554f2SKenneth D. Merry */ 3580991554f2SKenneth D. Merry sflags = 0; 3581991554f2SKenneth D. Merry if (cm->cm_flags & MPR_CM_FLAGS_SMP_PASS) { 3582991554f2SKenneth D. Merry /* 3583991554f2SKenneth D. Merry * We have to add a special case for SMP passthrough, there 3584991554f2SKenneth D. Merry * is no easy way to generically handle it. The first 3585991554f2SKenneth D. Merry * S/G element is used for the command (therefore the 3586991554f2SKenneth D. Merry * direction bit needs to be set). The second one is used 3587991554f2SKenneth D. Merry * for the reply. We'll leave it to the caller to make 3588991554f2SKenneth D. Merry * sure we only have two buffers. 3589991554f2SKenneth D. Merry */ 3590991554f2SKenneth D. Merry /* 3591991554f2SKenneth D. Merry * Even though the busdma man page says it doesn't make 3592991554f2SKenneth D. Merry * sense to have both direction flags, it does in this case. 3593991554f2SKenneth D. Merry * We have one s/g element being accessed in each direction. 3594991554f2SKenneth D. Merry */ 3595991554f2SKenneth D. Merry dir = BUS_DMASYNC_PREWRITE | BUS_DMASYNC_PREREAD; 3596991554f2SKenneth D. Merry 3597991554f2SKenneth D. Merry /* 3598991554f2SKenneth D. Merry * Set the direction flag on the first buffer in the SMP 3599991554f2SKenneth D. Merry * passthrough request. We'll clear it for the second one. 3600991554f2SKenneth D. Merry */ 3601991554f2SKenneth D. Merry sflags |= MPI2_SGE_FLAGS_DIRECTION | 3602991554f2SKenneth D. Merry MPI2_SGE_FLAGS_END_OF_BUFFER; 3603991554f2SKenneth D. Merry } else if (cm->cm_flags & MPR_CM_FLAGS_DATAOUT) { 3604991554f2SKenneth D. Merry sflags |= MPI2_SGE_FLAGS_HOST_TO_IOC; 3605991554f2SKenneth D. Merry dir = BUS_DMASYNC_PREWRITE; 3606991554f2SKenneth D. Merry } else 3607991554f2SKenneth D. Merry dir = BUS_DMASYNC_PREREAD; 3608991554f2SKenneth D. Merry 360967feec50SStephen McConnell /* Check if a native SG list is needed for an NVMe PCIe device. */ 361067feec50SStephen McConnell if (cm->cm_targ && cm->cm_targ->is_nvme && 361167feec50SStephen McConnell mpr_check_pcie_native_sgl(sc, cm, segs, nsegs) == 0) { 361267feec50SStephen McConnell /* A native SG list was built, skip to end. */ 361367feec50SStephen McConnell goto out; 361467feec50SStephen McConnell } 361567feec50SStephen McConnell 3616991554f2SKenneth D. Merry for (i = 0; i < nsegs; i++) { 3617991554f2SKenneth D. Merry if ((cm->cm_flags & MPR_CM_FLAGS_SMP_PASS) && (i != 0)) { 3618991554f2SKenneth D. Merry sflags &= ~MPI2_SGE_FLAGS_DIRECTION; 3619991554f2SKenneth D. Merry } 3620991554f2SKenneth D. Merry error = mpr_add_dmaseg(cm, segs[i].ds_addr, segs[i].ds_len, 3621991554f2SKenneth D. Merry sflags, nsegs - i); 3622991554f2SKenneth D. Merry if (error != 0) { 3623991554f2SKenneth D. Merry /* Resource shortage, roll back! */ 3624991554f2SKenneth D. Merry if (ratecheck(&sc->lastfail, &mpr_chainfail_interval)) 3625991554f2SKenneth D. Merry mpr_dprint(sc, MPR_INFO, "Out of chain frames, " 3626991554f2SKenneth D. Merry "consider increasing hw.mpr.max_chains.\n"); 3627991554f2SKenneth D. Merry cm->cm_flags |= MPR_CM_FLAGS_CHAIN_FAILED; 3628991554f2SKenneth D. Merry mpr_complete_command(sc, cm); 3629991554f2SKenneth D. Merry return; 3630991554f2SKenneth D. Merry } 3631991554f2SKenneth D. Merry } 3632991554f2SKenneth D. Merry 363367feec50SStephen McConnell out: 3634991554f2SKenneth D. Merry bus_dmamap_sync(sc->buffer_dmat, cm->cm_dmamap, dir); 3635991554f2SKenneth D. Merry mpr_enqueue_request(sc, cm); 3636991554f2SKenneth D. Merry 3637991554f2SKenneth D. Merry return; 3638991554f2SKenneth D. Merry } 3639991554f2SKenneth D. Merry 3640991554f2SKenneth D. Merry static void 3641991554f2SKenneth D. Merry mpr_data_cb2(void *arg, bus_dma_segment_t *segs, int nsegs, bus_size_t mapsize, 3642991554f2SKenneth D. Merry int error) 3643991554f2SKenneth D. Merry { 3644991554f2SKenneth D. Merry mpr_data_cb(arg, segs, nsegs, error); 3645991554f2SKenneth D. Merry } 3646991554f2SKenneth D. Merry 3647991554f2SKenneth D. Merry /* 3648991554f2SKenneth D. Merry * This is the routine to enqueue commands ansynchronously. 3649991554f2SKenneth D. Merry * Note that the only error path here is from bus_dmamap_load(), which can 3650991554f2SKenneth D. Merry * return EINPROGRESS if it is waiting for resources. Other than this, it's 3651991554f2SKenneth D. Merry * assumed that if you have a command in-hand, then you have enough credits 3652991554f2SKenneth D. Merry * to use it. 3653991554f2SKenneth D. Merry */ 3654991554f2SKenneth D. Merry int 3655991554f2SKenneth D. Merry mpr_map_command(struct mpr_softc *sc, struct mpr_command *cm) 3656991554f2SKenneth D. Merry { 3657991554f2SKenneth D. Merry int error = 0; 3658991554f2SKenneth D. Merry 3659991554f2SKenneth D. Merry if (cm->cm_flags & MPR_CM_FLAGS_USE_UIO) { 3660991554f2SKenneth D. Merry error = bus_dmamap_load_uio(sc->buffer_dmat, cm->cm_dmamap, 3661991554f2SKenneth D. Merry &cm->cm_uio, mpr_data_cb2, cm, 0); 3662991554f2SKenneth D. Merry } else if (cm->cm_flags & MPR_CM_FLAGS_USE_CCB) { 3663991554f2SKenneth D. Merry error = bus_dmamap_load_ccb(sc->buffer_dmat, cm->cm_dmamap, 3664991554f2SKenneth D. Merry cm->cm_data, mpr_data_cb, cm, 0); 3665991554f2SKenneth D. Merry } else if ((cm->cm_data != NULL) && (cm->cm_length != 0)) { 3666991554f2SKenneth D. Merry error = bus_dmamap_load(sc->buffer_dmat, cm->cm_dmamap, 3667991554f2SKenneth D. Merry cm->cm_data, cm->cm_length, mpr_data_cb, cm, 0); 3668991554f2SKenneth D. Merry } else { 3669991554f2SKenneth D. Merry /* Add a zero-length element as needed */ 3670991554f2SKenneth D. Merry if (cm->cm_sge != NULL) 3671991554f2SKenneth D. Merry mpr_add_dmaseg(cm, 0, 0, 0, 1); 3672991554f2SKenneth D. Merry mpr_enqueue_request(sc, cm); 3673991554f2SKenneth D. Merry } 3674991554f2SKenneth D. Merry 3675991554f2SKenneth D. Merry return (error); 3676991554f2SKenneth D. Merry } 3677991554f2SKenneth D. Merry 3678991554f2SKenneth D. Merry /* 3679991554f2SKenneth D. Merry * This is the routine to enqueue commands synchronously. An error of 3680991554f2SKenneth D. Merry * EINPROGRESS from mpr_map_command() is ignored since the command will 3681991554f2SKenneth D. Merry * be executed and enqueued automatically. Other errors come from msleep(). 3682991554f2SKenneth D. Merry */ 3683991554f2SKenneth D. Merry int 36846d4ffcb4SKenneth D. Merry mpr_wait_command(struct mpr_softc *sc, struct mpr_command **cmp, int timeout, 3685991554f2SKenneth D. Merry int sleep_flag) 3686991554f2SKenneth D. Merry { 3687991554f2SKenneth D. Merry int error, rc; 3688991554f2SKenneth D. Merry struct timeval cur_time, start_time; 36896d4ffcb4SKenneth D. Merry struct mpr_command *cm = *cmp; 3690991554f2SKenneth D. Merry 3691991554f2SKenneth D. Merry if (sc->mpr_flags & MPR_FLAGS_DIAGRESET) 3692991554f2SKenneth D. Merry return EBUSY; 3693991554f2SKenneth D. Merry 3694991554f2SKenneth D. Merry cm->cm_complete = NULL; 3695991554f2SKenneth D. Merry cm->cm_flags |= (MPR_CM_FLAGS_WAKEUP + MPR_CM_FLAGS_POLLED); 3696991554f2SKenneth D. Merry error = mpr_map_command(sc, cm); 3697991554f2SKenneth D. Merry if ((error != 0) && (error != EINPROGRESS)) 3698991554f2SKenneth D. Merry return (error); 3699991554f2SKenneth D. Merry 3700991554f2SKenneth D. Merry // Check for context and wait for 50 mSec at a time until time has 3701991554f2SKenneth D. Merry // expired or the command has finished. If msleep can't be used, need 3702991554f2SKenneth D. Merry // to poll. 3703991554f2SKenneth D. Merry #if __FreeBSD_version >= 1000029 3704991554f2SKenneth D. Merry if (curthread->td_no_sleeping) 3705991554f2SKenneth D. Merry #else //__FreeBSD_version < 1000029 3706991554f2SKenneth D. Merry if (curthread->td_pflags & TDP_NOSLEEPING) 3707991554f2SKenneth D. Merry #endif //__FreeBSD_version >= 1000029 3708991554f2SKenneth D. Merry sleep_flag = NO_SLEEP; 3709417aa6b8SKenneth D. Merry getmicrouptime(&start_time); 3710991554f2SKenneth D. Merry if (mtx_owned(&sc->mpr_mtx) && sleep_flag == CAN_SLEEP) { 3711991554f2SKenneth D. Merry error = msleep(cm, &sc->mpr_mtx, 0, "mprwait", timeout*hz); 3712417aa6b8SKenneth D. Merry if (error == EWOULDBLOCK) { 3713417aa6b8SKenneth D. Merry /* 3714417aa6b8SKenneth D. Merry * Record the actual elapsed time in the case of a 3715417aa6b8SKenneth D. Merry * timeout for the message below. 3716417aa6b8SKenneth D. Merry */ 3717417aa6b8SKenneth D. Merry getmicrouptime(&cur_time); 3718417aa6b8SKenneth D. Merry timevalsub(&cur_time, &start_time); 3719417aa6b8SKenneth D. Merry } 3720991554f2SKenneth D. Merry } else { 3721991554f2SKenneth D. Merry while ((cm->cm_flags & MPR_CM_FLAGS_COMPLETE) == 0) { 3722991554f2SKenneth D. Merry mpr_intr_locked(sc); 3723991554f2SKenneth D. Merry if (sleep_flag == CAN_SLEEP) 3724991554f2SKenneth D. Merry pause("mprwait", hz/20); 3725991554f2SKenneth D. Merry else 3726991554f2SKenneth D. Merry DELAY(50000); 3727991554f2SKenneth D. Merry 3728417aa6b8SKenneth D. Merry getmicrouptime(&cur_time); 3729417aa6b8SKenneth D. Merry timevalsub(&cur_time, &start_time); 3730417aa6b8SKenneth D. Merry if (cur_time.tv_sec > timeout) { 3731991554f2SKenneth D. Merry error = EWOULDBLOCK; 3732991554f2SKenneth D. Merry break; 3733991554f2SKenneth D. Merry } 3734991554f2SKenneth D. Merry } 3735991554f2SKenneth D. Merry } 3736991554f2SKenneth D. Merry 3737991554f2SKenneth D. Merry if (error == EWOULDBLOCK) { 3738417aa6b8SKenneth D. Merry mpr_dprint(sc, MPR_FAULT, "Calling Reinit from %s, timeout=%d," 3739417aa6b8SKenneth D. Merry " elapsed=%jd\n", __func__, timeout, 3740417aa6b8SKenneth D. Merry (intmax_t)cur_time.tv_sec); 3741991554f2SKenneth D. Merry rc = mpr_reinit(sc); 3742991554f2SKenneth D. Merry mpr_dprint(sc, MPR_FAULT, "Reinit %s\n", (rc == 0) ? "success" : 3743991554f2SKenneth D. Merry "failed"); 37446d4ffcb4SKenneth D. Merry if (sc->mpr_flags & MPR_FLAGS_REALLOCATED) { 37456d4ffcb4SKenneth D. Merry /* 37466d4ffcb4SKenneth D. Merry * Tell the caller that we freed the command in a 37476d4ffcb4SKenneth D. Merry * reinit. 37486d4ffcb4SKenneth D. Merry */ 37496d4ffcb4SKenneth D. Merry *cmp = NULL; 37506d4ffcb4SKenneth D. Merry } 3751991554f2SKenneth D. Merry error = ETIMEDOUT; 3752991554f2SKenneth D. Merry } 3753991554f2SKenneth D. Merry return (error); 3754991554f2SKenneth D. Merry } 3755991554f2SKenneth D. Merry 3756991554f2SKenneth D. Merry /* 3757991554f2SKenneth D. Merry * This is the routine to enqueue a command synchonously and poll for 3758991554f2SKenneth D. Merry * completion. Its use should be rare. 3759991554f2SKenneth D. Merry */ 3760991554f2SKenneth D. Merry int 37616d4ffcb4SKenneth D. Merry mpr_request_polled(struct mpr_softc *sc, struct mpr_command **cmp) 3762991554f2SKenneth D. Merry { 37636d4ffcb4SKenneth D. Merry int error, rc; 3764991554f2SKenneth D. Merry struct timeval cur_time, start_time; 37656d4ffcb4SKenneth D. Merry struct mpr_command *cm = *cmp; 3766991554f2SKenneth D. Merry 3767991554f2SKenneth D. Merry error = 0; 3768991554f2SKenneth D. Merry 3769991554f2SKenneth D. Merry cm->cm_flags |= MPR_CM_FLAGS_POLLED; 3770991554f2SKenneth D. Merry cm->cm_complete = NULL; 3771991554f2SKenneth D. Merry mpr_map_command(sc, cm); 3772991554f2SKenneth D. Merry 37736d4ffcb4SKenneth D. Merry getmicrouptime(&start_time); 3774991554f2SKenneth D. Merry while ((cm->cm_flags & MPR_CM_FLAGS_COMPLETE) == 0) { 3775991554f2SKenneth D. Merry mpr_intr_locked(sc); 3776991554f2SKenneth D. Merry 3777991554f2SKenneth D. Merry if (mtx_owned(&sc->mpr_mtx)) 3778991554f2SKenneth D. Merry msleep(&sc->msleep_fake_chan, &sc->mpr_mtx, 0, 3779991554f2SKenneth D. Merry "mprpoll", hz/20); 3780991554f2SKenneth D. Merry else 3781991554f2SKenneth D. Merry pause("mprpoll", hz/20); 3782991554f2SKenneth D. Merry 3783991554f2SKenneth D. Merry /* 3784991554f2SKenneth D. Merry * Check for real-time timeout and fail if more than 60 seconds. 3785991554f2SKenneth D. Merry */ 37866d4ffcb4SKenneth D. Merry getmicrouptime(&cur_time); 37876d4ffcb4SKenneth D. Merry timevalsub(&cur_time, &start_time); 37886d4ffcb4SKenneth D. Merry if (cur_time.tv_sec > 60) { 3789991554f2SKenneth D. Merry mpr_dprint(sc, MPR_FAULT, "polling failed\n"); 3790991554f2SKenneth D. Merry error = ETIMEDOUT; 3791991554f2SKenneth D. Merry break; 3792991554f2SKenneth D. Merry } 3793991554f2SKenneth D. Merry } 3794991554f2SKenneth D. Merry 3795991554f2SKenneth D. Merry if (error) { 3796991554f2SKenneth D. Merry mpr_dprint(sc, MPR_FAULT, "Calling Reinit from %s\n", __func__); 3797991554f2SKenneth D. Merry rc = mpr_reinit(sc); 37987a2a6a1aSStephen McConnell mpr_dprint(sc, MPR_FAULT, "Reinit %s\n", (rc == 0) ? "success" : 37997a2a6a1aSStephen McConnell "failed"); 38006d4ffcb4SKenneth D. Merry 38016d4ffcb4SKenneth D. Merry if (sc->mpr_flags & MPR_FLAGS_REALLOCATED) { 38026d4ffcb4SKenneth D. Merry /* 38036d4ffcb4SKenneth D. Merry * Tell the caller that we freed the command in a 38046d4ffcb4SKenneth D. Merry * reinit. 38056d4ffcb4SKenneth D. Merry */ 38066d4ffcb4SKenneth D. Merry *cmp = NULL; 38076d4ffcb4SKenneth D. Merry } 3808991554f2SKenneth D. Merry } 3809991554f2SKenneth D. Merry return (error); 3810991554f2SKenneth D. Merry } 3811991554f2SKenneth D. Merry 3812991554f2SKenneth D. Merry /* 3813991554f2SKenneth D. Merry * The MPT driver had a verbose interface for config pages. In this driver, 3814453130d9SPedro F. Giffuni * reduce it to much simpler terms, similar to the Linux driver. 3815991554f2SKenneth D. Merry */ 3816991554f2SKenneth D. Merry int 3817991554f2SKenneth D. Merry mpr_read_config_page(struct mpr_softc *sc, struct mpr_config_params *params) 3818991554f2SKenneth D. Merry { 3819991554f2SKenneth D. Merry MPI2_CONFIG_REQUEST *req; 3820991554f2SKenneth D. Merry struct mpr_command *cm; 3821991554f2SKenneth D. Merry int error; 3822991554f2SKenneth D. Merry 3823991554f2SKenneth D. Merry if (sc->mpr_flags & MPR_FLAGS_BUSY) { 3824991554f2SKenneth D. Merry return (EBUSY); 3825991554f2SKenneth D. Merry } 3826991554f2SKenneth D. Merry 3827991554f2SKenneth D. Merry cm = mpr_alloc_command(sc); 3828991554f2SKenneth D. Merry if (cm == NULL) { 3829991554f2SKenneth D. Merry return (EBUSY); 3830991554f2SKenneth D. Merry } 3831991554f2SKenneth D. Merry 3832991554f2SKenneth D. Merry req = (MPI2_CONFIG_REQUEST *)cm->cm_req; 3833991554f2SKenneth D. Merry req->Function = MPI2_FUNCTION_CONFIG; 3834991554f2SKenneth D. Merry req->Action = params->action; 3835991554f2SKenneth D. Merry req->SGLFlags = 0; 3836991554f2SKenneth D. Merry req->ChainOffset = 0; 3837991554f2SKenneth D. Merry req->PageAddress = params->page_address; 3838991554f2SKenneth D. Merry if (params->hdr.Struct.PageType == MPI2_CONFIG_PAGETYPE_EXTENDED) { 3839991554f2SKenneth D. Merry MPI2_CONFIG_EXTENDED_PAGE_HEADER *hdr; 3840991554f2SKenneth D. Merry 3841991554f2SKenneth D. Merry hdr = ¶ms->hdr.Ext; 3842991554f2SKenneth D. Merry req->ExtPageType = hdr->ExtPageType; 3843991554f2SKenneth D. Merry req->ExtPageLength = hdr->ExtPageLength; 3844991554f2SKenneth D. Merry req->Header.PageType = MPI2_CONFIG_PAGETYPE_EXTENDED; 3845991554f2SKenneth D. Merry req->Header.PageLength = 0; /* Must be set to zero */ 3846991554f2SKenneth D. Merry req->Header.PageNumber = hdr->PageNumber; 3847991554f2SKenneth D. Merry req->Header.PageVersion = hdr->PageVersion; 3848991554f2SKenneth D. Merry } else { 3849991554f2SKenneth D. Merry MPI2_CONFIG_PAGE_HEADER *hdr; 3850991554f2SKenneth D. Merry 3851991554f2SKenneth D. Merry hdr = ¶ms->hdr.Struct; 3852991554f2SKenneth D. Merry req->Header.PageType = hdr->PageType; 3853991554f2SKenneth D. Merry req->Header.PageNumber = hdr->PageNumber; 3854991554f2SKenneth D. Merry req->Header.PageLength = hdr->PageLength; 3855991554f2SKenneth D. Merry req->Header.PageVersion = hdr->PageVersion; 3856991554f2SKenneth D. Merry } 3857991554f2SKenneth D. Merry 3858991554f2SKenneth D. Merry cm->cm_data = params->buffer; 3859991554f2SKenneth D. Merry cm->cm_length = params->length; 3860a2c14879SStephen McConnell if (cm->cm_data != NULL) { 3861991554f2SKenneth D. Merry cm->cm_sge = &req->PageBufferSGE; 3862991554f2SKenneth D. Merry cm->cm_sglsize = sizeof(MPI2_SGE_IO_UNION); 3863991554f2SKenneth D. Merry cm->cm_flags = MPR_CM_FLAGS_SGE_SIMPLE | MPR_CM_FLAGS_DATAIN; 3864a2c14879SStephen McConnell } else 3865a2c14879SStephen McConnell cm->cm_sge = NULL; 3866991554f2SKenneth D. Merry cm->cm_desc.Default.RequestFlags = MPI2_REQ_DESCRIPT_FLAGS_DEFAULT_TYPE; 3867991554f2SKenneth D. Merry 3868991554f2SKenneth D. Merry cm->cm_complete_data = params; 3869991554f2SKenneth D. Merry if (params->callback != NULL) { 3870991554f2SKenneth D. Merry cm->cm_complete = mpr_config_complete; 3871991554f2SKenneth D. Merry return (mpr_map_command(sc, cm)); 3872991554f2SKenneth D. Merry } else { 38736d4ffcb4SKenneth D. Merry error = mpr_wait_command(sc, &cm, 0, CAN_SLEEP); 3874991554f2SKenneth D. Merry if (error) { 3875991554f2SKenneth D. Merry mpr_dprint(sc, MPR_FAULT, 3876991554f2SKenneth D. Merry "Error %d reading config page\n", error); 38776d4ffcb4SKenneth D. Merry if (cm != NULL) 3878991554f2SKenneth D. Merry mpr_free_command(sc, cm); 3879991554f2SKenneth D. Merry return (error); 3880991554f2SKenneth D. Merry } 3881991554f2SKenneth D. Merry mpr_config_complete(sc, cm); 3882991554f2SKenneth D. Merry } 3883991554f2SKenneth D. Merry 3884991554f2SKenneth D. Merry return (0); 3885991554f2SKenneth D. Merry } 3886991554f2SKenneth D. Merry 3887991554f2SKenneth D. Merry int 3888991554f2SKenneth D. Merry mpr_write_config_page(struct mpr_softc *sc, struct mpr_config_params *params) 3889991554f2SKenneth D. Merry { 3890991554f2SKenneth D. Merry return (EINVAL); 3891991554f2SKenneth D. Merry } 3892991554f2SKenneth D. Merry 3893991554f2SKenneth D. Merry static void 3894991554f2SKenneth D. Merry mpr_config_complete(struct mpr_softc *sc, struct mpr_command *cm) 3895991554f2SKenneth D. Merry { 3896991554f2SKenneth D. Merry MPI2_CONFIG_REPLY *reply; 3897991554f2SKenneth D. Merry struct mpr_config_params *params; 3898991554f2SKenneth D. Merry 3899991554f2SKenneth D. Merry MPR_FUNCTRACE(sc); 3900991554f2SKenneth D. Merry params = cm->cm_complete_data; 3901991554f2SKenneth D. Merry 3902991554f2SKenneth D. Merry if (cm->cm_data != NULL) { 3903991554f2SKenneth D. Merry bus_dmamap_sync(sc->buffer_dmat, cm->cm_dmamap, 3904991554f2SKenneth D. Merry BUS_DMASYNC_POSTREAD); 3905991554f2SKenneth D. Merry bus_dmamap_unload(sc->buffer_dmat, cm->cm_dmamap); 3906991554f2SKenneth D. Merry } 3907991554f2SKenneth D. Merry 3908991554f2SKenneth D. Merry /* 3909991554f2SKenneth D. Merry * XXX KDM need to do more error recovery? This results in the 3910991554f2SKenneth D. Merry * device in question not getting probed. 3911991554f2SKenneth D. Merry */ 3912991554f2SKenneth D. Merry if ((cm->cm_flags & MPR_CM_FLAGS_ERROR_MASK) != 0) { 3913991554f2SKenneth D. Merry params->status = MPI2_IOCSTATUS_BUSY; 3914991554f2SKenneth D. Merry goto done; 3915991554f2SKenneth D. Merry } 3916991554f2SKenneth D. Merry 3917991554f2SKenneth D. Merry reply = (MPI2_CONFIG_REPLY *)cm->cm_reply; 3918991554f2SKenneth D. Merry if (reply == NULL) { 3919991554f2SKenneth D. Merry params->status = MPI2_IOCSTATUS_BUSY; 3920991554f2SKenneth D. Merry goto done; 3921991554f2SKenneth D. Merry } 3922991554f2SKenneth D. Merry params->status = reply->IOCStatus; 3923a2c14879SStephen McConnell if (params->hdr.Struct.PageType == MPI2_CONFIG_PAGETYPE_EXTENDED) { 3924991554f2SKenneth D. Merry params->hdr.Ext.ExtPageType = reply->ExtPageType; 3925991554f2SKenneth D. Merry params->hdr.Ext.ExtPageLength = reply->ExtPageLength; 3926a2c14879SStephen McConnell params->hdr.Ext.PageType = reply->Header.PageType; 3927a2c14879SStephen McConnell params->hdr.Ext.PageNumber = reply->Header.PageNumber; 3928a2c14879SStephen McConnell params->hdr.Ext.PageVersion = reply->Header.PageVersion; 3929991554f2SKenneth D. Merry } else { 3930991554f2SKenneth D. Merry params->hdr.Struct.PageType = reply->Header.PageType; 3931991554f2SKenneth D. Merry params->hdr.Struct.PageNumber = reply->Header.PageNumber; 3932991554f2SKenneth D. Merry params->hdr.Struct.PageLength = reply->Header.PageLength; 3933991554f2SKenneth D. Merry params->hdr.Struct.PageVersion = reply->Header.PageVersion; 3934991554f2SKenneth D. Merry } 3935991554f2SKenneth D. Merry 3936991554f2SKenneth D. Merry done: 3937991554f2SKenneth D. Merry mpr_free_command(sc, cm); 3938991554f2SKenneth D. Merry if (params->callback != NULL) 3939991554f2SKenneth D. Merry params->callback(sc, params); 3940991554f2SKenneth D. Merry 3941991554f2SKenneth D. Merry return; 3942991554f2SKenneth D. Merry } 3943