Current Path : /sys/dev/pst/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/dev/pst/pst-iop.c |
/*- * Copyright (c) 2001,2002,2003 Søren Schmidt <sos@FreeBSD.org> * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer, * without modification, immediately at the beginning of the file. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/dev/pst/pst-iop.c 196403 2009-08-20 19:17:53Z jhb $"); #include <sys/param.h> #include <sys/systm.h> #include <sys/kernel.h> #include <sys/module.h> #include <sys/bus.h> #include <sys/bio.h> #include <sys/malloc.h> #include <sys/lock.h> #include <sys/mutex.h> #include <vm/vm.h> #include <vm/pmap.h> #include <machine/stdarg.h> #include <machine/resource.h> #include <machine/bus.h> #include <sys/rman.h> #include <dev/pci/pcivar.h> #include <dev/pci/pcireg.h> #include "dev/pst/pst-iop.h" struct iop_request { struct i2o_single_reply *reply; u_int32_t mfa; }; /* local vars */ MALLOC_DEFINE(M_PSTIOP, "PSTIOP", "Promise SuperTrak IOP driver"); int iop_init(struct iop_softc *sc) { int mfa, timeout = 10000; while ((mfa = sc->reg->iqueue) == 0xffffffff && --timeout) DELAY(1000); if (!timeout) { printf("pstiop: no free mfa\n"); return 0; } iop_free_mfa(sc, mfa); sc->reg->oqueue_intr_mask = 0xffffffff; if (!iop_reset(sc)) { printf("pstiop: no reset response\n"); return 0; } if (!iop_init_outqueue(sc)) { printf("pstiop: init outbound queue failed\n"); return 0; } /* register iop_attach to be run when interrupts are enabled */ if (!(sc->iop_delayed_attach = (struct intr_config_hook *) malloc(sizeof(struct intr_config_hook), M_PSTIOP, M_NOWAIT | M_ZERO))) { printf("pstiop: malloc of delayed attach hook failed\n"); return 0; } sc->iop_delayed_attach->ich_func = iop_attach; sc->iop_delayed_attach->ich_arg = sc; if (config_intrhook_establish(sc->iop_delayed_attach)) { printf("pstiop: config_intrhook_establish failed\n"); free(sc->iop_delayed_attach, M_PSTIOP); } return 1; } void iop_attach(void *arg) { struct iop_softc *sc; int i; sc = arg; if (sc->iop_delayed_attach) { config_intrhook_disestablish(sc->iop_delayed_attach); free(sc->iop_delayed_attach, M_PSTIOP); sc->iop_delayed_attach = NULL; } if (!iop_get_lct(sc)) { printf("pstiop: get LCT failed\n"); return; } /* figure out what devices are here and config as needed */ for (i = 0; sc->lct[i].entry_size == I2O_LCT_ENTRYSIZE; i++) { #ifdef PSTDEBUG struct i2o_get_param_reply *reply; printf("pstiop: LCT entry %d ", i); printf("class=%04x ", sc->lct[i].class); printf("sub=%04x ", sc->lct[i].sub_class); printf("localtid=%04x ", sc->lct[i].local_tid); printf("usertid=%04x ", sc->lct[i].user_tid); printf("parentid=%04x\n", sc->lct[i].parent_tid); if ((reply = iop_get_util_params(sc, sc->lct[i].local_tid, I2O_PARAMS_OPERATION_FIELD_GET, I2O_UTIL_DEVICE_IDENTITY_GROUP_NO))) { struct i2o_device_identity *ident = (struct i2o_device_identity *)reply->result; printf("pstiop: vendor=<%.16s> product=<%.16s>\n", ident->vendor, ident->product); printf("pstiop: description=<%.16s> revision=<%.8s>\n", ident->description, ident->revision); contigfree(reply, PAGE_SIZE, M_PSTIOP); } #endif if (sc->lct[i].user_tid != I2O_TID_NONE && sc->lct[i].user_tid != I2O_TID_HOST) continue; switch (sc->lct[i].class) { case I2O_CLASS_DDM: if (sc->lct[i].sub_class == I2O_SUBCLASS_ISM) sc->ism = sc->lct[i].local_tid; break; case I2O_CLASS_RANDOM_BLOCK_STORAGE: pst_add_raid(sc, &sc->lct[i]); break; } } /* setup and enable interrupts */ bus_setup_intr(sc->dev, sc->r_irq, INTR_TYPE_BIO|INTR_ENTROPY|INTR_MPSAFE, NULL, iop_intr, sc, &sc->handle); sc->reg->oqueue_intr_mask = 0x0; } void iop_intr(void *data) { struct iop_softc *sc = (struct iop_softc *)data; struct i2o_single_reply *reply; u_int32_t mfa; /* we might get more than one finished request pr interrupt */ mtx_lock(&sc->mtx); while (1) { if ((mfa = sc->reg->oqueue) == 0xffffffff) if ((mfa = sc->reg->oqueue) == 0xffffffff) break; reply = (struct i2o_single_reply *)(sc->obase + (mfa - sc->phys_obase)); /* if this is an event register reply, shout! */ if (reply->function == I2O_UTIL_EVENT_REGISTER) { struct i2o_util_event_reply_message *event = (struct i2o_util_event_reply_message *)reply; printf("pstiop: EVENT!! idx=%08x data=%08x\n", event->event_mask, event->event_data[0]); break; } /* if reply is a failurenotice we need to free the original mfa */ if (reply->message_flags & I2O_MESSAGE_FLAGS_FAIL) iop_free_mfa(sc,((struct i2o_fault_reply *)(reply))->preserved_mfa); /* reply->initiator_context points to the service routine */ ((void (*)(struct iop_softc *, u_int32_t, struct i2o_single_reply *)) (reply->initiator_context))(sc, mfa, reply); } mtx_unlock(&sc->mtx); } int iop_reset(struct iop_softc *sc) { struct i2o_exec_iop_reset_message *msg; int mfa, timeout = 5000; volatile u_int32_t reply = 0; mfa = iop_get_mfa(sc); msg = (struct i2o_exec_iop_reset_message *)(sc->ibase + mfa); bzero(msg, sizeof(struct i2o_exec_iop_reset_message)); msg->version_offset = 0x1; msg->message_flags = 0x0; msg->message_size = sizeof(struct i2o_exec_iop_reset_message) >> 2; msg->target_address = I2O_TID_IOP; msg->initiator_address = I2O_TID_HOST; msg->function = I2O_EXEC_IOP_RESET; msg->status_word_low_addr = vtophys(&reply); msg->status_word_high_addr = 0; sc->reg->iqueue = mfa; while (--timeout && !reply) DELAY(1000); /* wait for iqueue ready */ timeout = 10000; while ((mfa = sc->reg->iqueue) == 0xffffffff && --timeout) DELAY(1000); iop_free_mfa(sc, mfa); return reply; } int iop_init_outqueue(struct iop_softc *sc) { struct i2o_exec_init_outqueue_message *msg; int i, mfa, timeout = 5000; volatile u_int32_t reply = 0; if (!(sc->obase = contigmalloc(I2O_IOP_OUTBOUND_FRAME_COUNT * I2O_IOP_OUTBOUND_FRAME_SIZE, M_PSTIOP, M_NOWAIT, 0x00010000, 0xFFFFFFFF, PAGE_SIZE, 0))) { printf("pstiop: contigmalloc of outqueue buffers failed!\n"); return 0; } sc->phys_obase = vtophys(sc->obase); mfa = iop_get_mfa(sc); msg = (struct i2o_exec_init_outqueue_message *)(sc->ibase + mfa); bzero(msg, sizeof(struct i2o_exec_init_outqueue_message)); msg->version_offset = 0x61; msg->message_flags = 0x0; msg->message_size = sizeof(struct i2o_exec_init_outqueue_message) >> 2; msg->target_address = I2O_TID_IOP; msg->initiator_address = I2O_TID_HOST; msg->function = I2O_EXEC_OUTBOUND_INIT; msg->host_pagesize = PAGE_SIZE; msg->init_code = 0x00; /* SOS XXX should be 0x80 == OS */ msg->queue_framesize = I2O_IOP_OUTBOUND_FRAME_SIZE / sizeof(u_int32_t); msg->sgl[0].flags = I2O_SGL_SIMPLE | I2O_SGL_END | I2O_SGL_EOB; msg->sgl[0].count = sizeof(reply); msg->sgl[0].phys_addr[0] = vtophys(&reply); msg->sgl[1].flags = I2O_SGL_END | I2O_SGL_EOB; msg->sgl[1].count = 1; msg->sgl[1].phys_addr[0] = 0; sc->reg->iqueue = mfa; /* wait for init to complete */ while (--timeout && reply != I2O_EXEC_OUTBOUND_INIT_COMPLETE) DELAY(1000); if (!timeout) { printf("pstiop: timeout waiting for init-complete response\n"); iop_free_mfa(sc, mfa); return 0; } /* now init our oqueue bufs */ for (i = 0; i < I2O_IOP_OUTBOUND_FRAME_COUNT; i++) { sc->reg->oqueue = sc->phys_obase + (i * I2O_IOP_OUTBOUND_FRAME_SIZE); DELAY(1000); } return 1; } int iop_get_lct(struct iop_softc *sc) { struct i2o_exec_get_lct_message *msg; struct i2o_get_lct_reply *reply; int mfa; #define ALLOCSIZE (PAGE_SIZE + (256 * sizeof(struct i2o_lct_entry))) if (!(reply = contigmalloc(ALLOCSIZE, M_PSTIOP, M_NOWAIT | M_ZERO, 0x00010000, 0xFFFFFFFF, PAGE_SIZE, 0))) return 0; mfa = iop_get_mfa(sc); msg = (struct i2o_exec_get_lct_message *)(sc->ibase + mfa); bzero(msg, sizeof(struct i2o_exec_get_lct_message)); msg->version_offset = 0x61; msg->message_flags = 0x0; msg->message_size = sizeof(struct i2o_exec_get_lct_message) >> 2; msg->target_address = I2O_TID_IOP; msg->initiator_address = I2O_TID_HOST; msg->function = I2O_EXEC_LCT_NOTIFY; msg->class = I2O_CLASS_MATCH_ANYCLASS; msg->last_change_id = 0; msg->sgl.flags = I2O_SGL_SIMPLE | I2O_SGL_END | I2O_SGL_EOB; msg->sgl.count = ALLOCSIZE; msg->sgl.phys_addr[0] = vtophys(reply); if (iop_queue_wait_msg(sc, mfa, (struct i2o_basic_message *)msg)) { contigfree(reply, ALLOCSIZE, M_PSTIOP); return 0; } if (!(sc->lct = malloc(reply->table_size * sizeof(struct i2o_lct_entry), M_PSTIOP, M_NOWAIT | M_ZERO))) { contigfree(reply, ALLOCSIZE, M_PSTIOP); return 0; } bcopy(&reply->entry[0], sc->lct, reply->table_size * sizeof(struct i2o_lct_entry)); sc->lct_count = reply->table_size; contigfree(reply, ALLOCSIZE, M_PSTIOP); return 1; } struct i2o_get_param_reply * iop_get_util_params(struct iop_softc *sc, int target, int operation, int group) { struct i2o_util_get_param_message *msg; struct i2o_get_param_operation *param; struct i2o_get_param_reply *reply; int mfa; if (!(param = contigmalloc(PAGE_SIZE, M_PSTIOP, M_NOWAIT | M_ZERO, 0x00010000, 0xFFFFFFFF, PAGE_SIZE, 0))) return NULL; if (!(reply = contigmalloc(PAGE_SIZE, M_PSTIOP, M_NOWAIT | M_ZERO, 0x00010000, 0xFFFFFFFF, PAGE_SIZE, 0))) return NULL; mfa = iop_get_mfa(sc); msg = (struct i2o_util_get_param_message *)(sc->ibase + mfa); bzero(msg, sizeof(struct i2o_util_get_param_message)); msg->version_offset = 0x51; msg->message_flags = 0x0; msg->message_size = sizeof(struct i2o_util_get_param_message) >> 2; msg->target_address = target; msg->initiator_address = I2O_TID_HOST; msg->function = I2O_UTIL_PARAMS_GET; msg->operation_flags = 0; param->operation_count = 1; param->operation[0].operation = operation; param->operation[0].group = group; param->operation[0].field_count = 0xffff; msg->sgl[0].flags = I2O_SGL_SIMPLE | I2O_SGL_DIR | I2O_SGL_EOB; msg->sgl[0].count = sizeof(struct i2o_get_param_operation); msg->sgl[0].phys_addr[0] = vtophys(param); msg->sgl[1].flags = I2O_SGL_SIMPLE | I2O_SGL_END | I2O_SGL_EOB; msg->sgl[1].count = PAGE_SIZE; msg->sgl[1].phys_addr[0] = vtophys(reply); if (iop_queue_wait_msg(sc, mfa, (struct i2o_basic_message *)msg) || reply->error_info_size) { contigfree(reply, PAGE_SIZE, M_PSTIOP); reply = NULL; } contigfree(param, PAGE_SIZE, M_PSTIOP); return reply; } u_int32_t iop_get_mfa(struct iop_softc *sc) { u_int32_t mfa; int timeout = 10000; while ((mfa = sc->reg->iqueue) == 0xffffffff && timeout) { DELAY(1000); timeout--; } if (!timeout) printf("pstiop: no free mfa\n"); return mfa; } void iop_free_mfa(struct iop_softc *sc, int mfa) { struct i2o_basic_message *msg = (struct i2o_basic_message *)(sc->ibase+mfa); bzero(msg, sizeof(struct i2o_basic_message)); msg->version = 0x01; msg->message_flags = 0x0; msg->message_size = sizeof(struct i2o_basic_message) >> 2; msg->target_address = I2O_TID_IOP; msg->initiator_address = I2O_TID_HOST; msg->function = I2O_UTIL_NOP; sc->reg->iqueue = mfa; } static void iop_done(struct iop_softc *sc, u_int32_t mfa, struct i2o_single_reply *reply) { struct iop_request *request = (struct iop_request *)reply->transaction_context; request->reply = reply; request->mfa = mfa; wakeup(request); } int iop_queue_wait_msg(struct iop_softc *sc, int mfa, struct i2o_basic_message *msg) { struct i2o_single_reply *reply; struct iop_request request; u_int32_t out_mfa; int status, timeout = 10000; mtx_lock(&sc->mtx); if (!(sc->reg->oqueue_intr_mask & 0x08)) { msg->transaction_context = (u_int32_t)&request; msg->initiator_context = (u_int32_t)iop_done; sc->reg->iqueue = mfa; if (msleep(&request, &sc->mtx, PRIBIO, "pstwt", 10 * hz)) { printf("pstiop: timeout waiting for message response\n"); iop_free_mfa(sc, mfa); mtx_unlock(&sc->mtx); return -1; } status = request.reply->status; sc->reg->oqueue = request.mfa; } else { sc->reg->iqueue = mfa; while (--timeout && ((out_mfa = sc->reg->oqueue) == 0xffffffff)) DELAY(1000); if (!timeout) { printf("pstiop: timeout waiting for message response\n"); iop_free_mfa(sc, mfa); mtx_unlock(&sc->mtx); return -1; } reply = (struct i2o_single_reply *)(sc->obase+(out_mfa-sc->phys_obase)); status = reply->status; sc->reg->oqueue = out_mfa; } mtx_unlock(&sc->mtx); return status; } int iop_create_sgl(struct i2o_basic_message *msg, caddr_t data, int count, int dir) { struct i2o_sgl *sgl = (struct i2o_sgl *)((int32_t *)msg + msg->offset); u_int32_t sgl_count, sgl_phys; int i = 0; if (((uintptr_t)data & 3) || (count & 3)) { printf("pstiop: non aligned DMA transfer attempted\n"); return 0; } if (!count) { printf("pstiop: zero length DMA transfer attempted\n"); return 0; } sgl_count = min(count, (PAGE_SIZE - ((uintptr_t)data & PAGE_MASK))); sgl_phys = vtophys(data); sgl->flags = dir | I2O_SGL_PAGELIST | I2O_SGL_EOB | I2O_SGL_END; sgl->count = count; data += sgl_count; count -= sgl_count; while (count) { sgl->phys_addr[i] = sgl_phys; sgl_phys = vtophys(data); data += min(count, PAGE_SIZE); count -= min(count, PAGE_SIZE); if (++i >= I2O_SGL_MAX_SEGS) { printf("pstiop: too many segments in SGL\n"); return 0; } } sgl->phys_addr[i] = sgl_phys; msg->message_size += i; return 1; }