Exemplo n.º 1
0
static int init_vader_endpoint (struct mca_btl_base_endpoint_t *ep, struct opal_proc_t *proc, int remote_rank) {
    mca_btl_vader_component_t *component = &mca_btl_vader_component;
    union vader_modex_t *modex;
    size_t msg_size;
    int rc;

    OBJ_CONSTRUCT(ep, mca_btl_vader_endpoint_t);

    ep->peer_smp_rank = remote_rank;

    if (remote_rank != MCA_BTL_VADER_LOCAL_RANK) {
        OPAL_MODEX_RECV(rc, &component->super.btl_version,
                        &proc->proc_name, (void **) &modex, &msg_size);
        if (OPAL_SUCCESS != rc) {
            return rc;
        }

        /* attatch to the remote segment */
#if OPAL_BTL_VADER_HAVE_XPMEM
        if (MCA_BTL_VADER_XPMEM == mca_btl_vader_component.single_copy_mechanism) {
            /* always use xpmem if it is available */
            ep->segment_data.xpmem.apid = xpmem_get (modex->xpmem.seg_id, XPMEM_RDWR, XPMEM_PERMIT_MODE, (void *) 0666);
            ep->segment_data.xpmem.rcache = mca_rcache_base_module_create("vma");
            (void) vader_get_registation (ep, modex->xpmem.segment_base, mca_btl_vader_component.segment_size,
                                          MCA_MPOOL_FLAGS_PERSIST, (void **) &ep->segment_base);
        } else {
#endif
            /* store a copy of the segment information for detach */
            ep->segment_data.other.seg_ds = malloc (msg_size);
            if (NULL == ep->segment_data.other.seg_ds) {
                return OPAL_ERR_OUT_OF_RESOURCE;
            }

            memcpy (ep->segment_data.other.seg_ds, &modex->seg_ds, msg_size);

            ep->segment_base = opal_shmem_segment_attach (ep->segment_data.other.seg_ds);
            if (NULL == ep->segment_base) {
                return OPAL_ERROR;
            }
#if OPAL_BTL_VADER_HAVE_XPMEM
        }
#endif
        OBJ_CONSTRUCT(&ep->lock, opal_mutex_t);

        free (modex);
    } else {
        /* set up the segment base so we can calculate a virtual to real for local pointers */
        ep->segment_base = component->my_segment;
    }

    ep->fifo = (struct vader_fifo_t *) ep->segment_base;

    return OPAL_SUCCESS;
}
Exemplo n.º 2
0
static int init_vader_endpoint (struct mca_btl_base_endpoint_t *ep, struct ompi_proc_t *proc, int remote_rank) {
    const int fbox_in_offset = MCA_BTL_VADER_LOCAL_RANK - (MCA_BTL_VADER_LOCAL_RANK > remote_rank);
    const int fbox_out_offset = remote_rank - (MCA_BTL_VADER_LOCAL_RANK < remote_rank);
    mca_btl_vader_component_t *component = &mca_btl_vader_component;
    struct vader_modex_t *modex;
    size_t msg_size;
    int rc;

    ep->peer_smp_rank = remote_rank;

    if (remote_rank != MCA_BTL_VADER_LOCAL_RANK) {
        if (OMPI_SUCCESS != (rc = ompi_modex_recv(&component->super.btl_version,
                                                  proc, (void *)&modex, &msg_size))) {
            return rc;
        }

        /* attatch to the remote segment */
#if OMPI_BTL_VADER_HAVE_XPMEM
        /* always use xpmem if it is available */
        ep->apid = xpmem_get (modex->seg_id, XPMEM_RDWR, XPMEM_PERMIT_MODE, (void *) 0666);
        ep->rcache = mca_rcache_base_module_create("vma");
        (void) vader_get_registation (ep, modex->segment_base, mca_btl_vader_component.segment_size,
                                      MCA_MPOOL_FLAGS_PERSIST, (void **) &ep->segment_base);
#else
        int offset = offsetof (opal_shmem_ds_t, seg_name);

        memcpy (&ep->seg_ds, modex->buffer, offset);
        memcpy (&ep->seg_ds.seg_base_addr, modex->buffer + offset, sizeof (ep->seg_ds.seg_base_addr));
        offset += sizeof (ep->seg_ds.seg_base_addr);
        strncpy (ep->seg_ds.seg_name, modex->buffer + offset, OPAL_PATH_MAX);

        ep->segment_base = opal_shmem_segment_attach (&ep->seg_ds);
        if (NULL == ep->segment_base) {
            return rc;
        }
#endif

        free (modex);

        ep->next_fbox_out = 0;
        ep->next_fbox_in  = 0;
        ep->next_sequence = 0;
        ep->expected_sequence = 0;

        ep->fbox_in  = (struct mca_btl_vader_fbox_t * restrict) (ep->segment_base + MCA_BTL_VADER_FIFO_SIZE +
                                                                 fbox_in_offset * MCA_BTL_VADER_FBOX_PEER_SIZE);
        ep->fbox_out = (struct mca_btl_vader_fbox_t * restrict) (component->my_segment + MCA_BTL_VADER_FIFO_SIZE +
                                                                 fbox_out_offset * MCA_BTL_VADER_FBOX_PEER_SIZE);
    } else {
Exemplo n.º 3
0
/**
 * test_fork - test if forks are handled properly
 * Description:
 *	Called by xpmem_master, but do nothing. xpmem_proc1 does the fork.
 * Return Values:
 *	Success: 0
 *	Failure: -2
 */
int test_fork(test_args *xpmem_args)
{
	xpmem_segid_t segid;
	xpmem_apid_t apid;
	struct xpmem_addr addr;
	int i, ret=0, *data;

	segid = strtol(xpmem_args->share, NULL, 16);
	apid = xpmem_get(segid, XPMEM_RDWR, XPMEM_PERMIT_MODE, NULL);
	
	addr.apid = apid;
	addr.offset = PAGE_SIZE;
	data = (int *)xpmem_attach(addr, PAGE_SIZE, NULL);
	if (data == (void *)-1) {
		perror("xpmem_attach");
		return -2;
	}
	
	printf("xpmem_proc2: mypid = %d\n", getpid());
	printf("xpmem_proc2: segid = %llx\n", segid);
	printf("xpmem_proc2: attached at %p\n", data);

	printf("xpmem_proc2: reading to pin pages\n");
	for (i = 0; i < PAGE_INT_SIZE; i++) {
		if (*(data + i) != PAGE_INT_SIZE + i) {
			printf("xpmem_proc2: ***mismatch at %d: expected %lu "
				"got %d\n", i, PAGE_INT_SIZE + i, *(data + i));
			ret = -2;
		}
	}
	
	/* Now wait for xpmem_proc1 to invoke COW */
	printf("xpmem_proc2: waiting for COW...\n\n");
	while (xpmem_args->share[COW_LOCK_INDEX] == 0) {
		xpmem_args->share[COW_LOCK_INDEX] = 1;
	}
	sleep(1);

	printf("xpmem_proc2: adding 1 to all elems\n\n");
	for (i = 0; i < PAGE_INT_SIZE; i++)
		*(data + i) += 1;

	xpmem_detach(data);
	xpmem_release(apid);

	return ret;
}
Exemplo n.º 4
0
static ucs_status_t uct_xpmem_attach(uct_mm_id_t mmid, size_t length, 
                                     void *remote_address, void **local_address,
                                     uint64_t *cookie, const char *path)
{
    struct xpmem_addr addr;
    ucs_status_t status;
    ptrdiff_t offset;
    void *address;

    addr.offset = 0;
    addr.apid   = xpmem_get(mmid, XPMEM_RDWR, XPMEM_PERMIT_MODE, NULL);
    VALGRIND_MAKE_MEM_DEFINED(&addr.apid, sizeof(addr.apid));
    if (addr.apid < 0) {
        ucs_error("Failed to acquire xpmem segment 0x%"PRIx64": %m", mmid);
        status = UCS_ERR_IO_ERROR;
        goto err_xget;
    }

    ucs_trace("xpmem acquired segment 0x%"PRIx64" apid 0x%llx remote_address %p",
              mmid, addr.apid, remote_address);

    offset  = ((uintptr_t)remote_address) % ucs_get_page_size();
    address = xpmem_attach(addr, length + offset, NULL);
    VALGRIND_MAKE_MEM_DEFINED(&address, sizeof(address));
    if (address == MAP_FAILED) {
        ucs_error("Failed to attach xpmem segment 0x%"PRIx64" apid 0x%llx "
                  "with length %zu: %m", mmid, addr.apid, length);
        status = UCS_ERR_IO_ERROR;
        goto err_xattach;
    }

    VALGRIND_MAKE_MEM_DEFINED(address + offset, length);

    *local_address = address + offset;
    *cookie        = addr.apid;

    ucs_trace("xpmem attached segment 0x%"PRIx64" apid 0x%llx %p..%p at %p (+%zd)",
              mmid, addr.apid, remote_address, remote_address + length, address, offset);
    return UCS_OK;

err_xattach:
    xpmem_release(addr.apid);
err_xget:
    return status;
}
static int init_vader_endpoint (struct mca_btl_base_endpoint_t *ep, struct ompi_proc_t *proc, int remote_rank) {
    const int fbox_in_offset = MCA_BTL_VADER_LOCAL_RANK - (MCA_BTL_VADER_LOCAL_RANK > remote_rank);
    const int fbox_out_offset = remote_rank - (MCA_BTL_VADER_LOCAL_RANK < remote_rank);
    mca_btl_vader_component_t *component = &mca_btl_vader_component;
    struct vader_modex_t *modex;
    size_t msg_size;
    int rc;

    ep->peer_smp_rank = remote_rank;

    if (remote_rank != MCA_BTL_VADER_LOCAL_RANK) {
        if (OMPI_SUCCESS != (rc = ompi_modex_recv(&component->super.btl_version,
                                                  proc, (void *)&modex, &msg_size))) {
            return rc;
        }

        ep->apid = xpmem_get (modex->seg_id, XPMEM_RDWR, XPMEM_PERMIT_MODE, (void *) 0666);
        ep->rcache = mca_rcache_base_module_create("vma");
        ep->next_fbox_out = 0;
        ep->next_fbox_in  = 0;

        /* attatch to the remote segment */
        (void) vader_get_registation (ep, modex->segment_base, mca_btl_vader_component.segment_size,
                                      MCA_MPOOL_FLAGS_PERSIST, (void **) &ep->segment_base);

        ep->fifo     = (struct vader_fifo_t *) ep->segment_base;
        ep->fbox_in  = ep->segment_base + 4096 + fbox_in_offset * MCA_BTL_VADER_FBOX_PEER_SIZE;
        ep->fbox_out = component->my_segment + 4096 + fbox_out_offset * MCA_BTL_VADER_FBOX_PEER_SIZE;
    } else {
        /* set up the segment base so we can calculate a virtual to real for local pointers */
        ep->segment_base = component->my_segment;
        ep->fifo = (struct vader_fifo_t *) ep->segment_base;
    }

    return OMPI_SUCCESS;
}
Exemplo n.º 6
0
int
shmem_transport_xpmem_startup(void)
{
    int ret, i, peer_num, num_on_node = 0;
    struct share_info_t info;
    struct xpmem_addr addr;

    for (i = 0 ; i < shmem_internal_num_pes; ++i) {
        if (-1 != SHMEM_GET_RANK_SAME_NODE(i)) {
            num_on_node++;
        }
    }

    /* allocate space for local peers */
    shmem_transport_xpmem_peers = calloc(num_on_node, 
                                         sizeof(struct shmem_transport_xpmem_peer_info_t));
    if (NULL == shmem_transport_xpmem_peers) return 1;

    /* get local peer info and map into our address space ... */
    for (i = 0 ; i < shmem_internal_num_pes; ++i) {
        peer_num = SHMEM_GET_RANK_SAME_NODE(i);
        if (-1 == peer_num) continue;

        if (shmem_internal_my_pe == i) {
            shmem_transport_xpmem_peers[peer_num].data_ptr = 
                shmem_internal_data_base;
            shmem_transport_xpmem_peers[peer_num].heap_ptr = 
                shmem_internal_heap_base;
        } else {
            ret = shmem_runtime_get(i, "xpmem-segids", &info, sizeof(struct share_info_t));
            if (0 != ret) {
                fprintf(stderr, "[%03d] ERROR: runtime_get failed: %d\n",
                        shmem_internal_my_pe, ret);
                return 1;
            }

            shmem_transport_xpmem_peers[peer_num].data_apid =
                xpmem_get(info.data_seg, XPMEM_RDWR, XPMEM_PERMIT_MODE, (void*)0666);
            if (shmem_transport_xpmem_peers[peer_num].data_apid < 0) {
                fprintf(stderr, "[%03d] ERROR: could not get data apid: %s\n",
                        shmem_internal_my_pe, strerror(errno));
                return 1;
            }

            addr.apid = shmem_transport_xpmem_peers[peer_num].data_apid;
            addr.offset = 0;

            shmem_transport_xpmem_peers[peer_num].data_attach_ptr = 
                xpmem_attach(addr, info.data_len, NULL);
            if ((size_t) shmem_transport_xpmem_peers[peer_num].data_ptr == XPMEM_MAXADDR_SIZE) {
                fprintf(stderr, "[%03d] ERROR: could not get data segment: %s\n",
                        shmem_internal_my_pe, strerror(errno));
                return 1;
            }
            shmem_transport_xpmem_peers[peer_num].data_ptr = 
                (char*) shmem_transport_xpmem_peers[peer_num].data_attach_ptr + info.data_off;

            shmem_transport_xpmem_peers[peer_num].heap_apid =
                xpmem_get(info.heap_seg, XPMEM_RDWR, XPMEM_PERMIT_MODE, (void*)0666);
            if (shmem_transport_xpmem_peers[peer_num].heap_apid < 0) {
                fprintf(stderr, "[%03d] ERROR: could not get heap apid: %s\n",
                        shmem_internal_my_pe, strerror(errno));
                return 1;
            }

            addr.apid = shmem_transport_xpmem_peers[peer_num].heap_apid;
            addr.offset = 0;

            shmem_transport_xpmem_peers[peer_num].heap_attach_ptr = 
                xpmem_attach(addr, info.heap_len, NULL);
            if ((size_t) shmem_transport_xpmem_peers[peer_num].heap_ptr == XPMEM_MAXADDR_SIZE) {
                fprintf(stderr, "[%03d] ERROR: could not get data segment: %s\n",
                        shmem_internal_my_pe, strerror(errno));
                return 1;
            }
            shmem_transport_xpmem_peers[peer_num].heap_ptr = 
                (char*) shmem_transport_xpmem_peers[peer_num].heap_attach_ptr + info.heap_off;
        }
    }

    return 0;
}
Exemplo n.º 7
0
/*
 * User ioctl to the XPMEM driver. Only 64-bit user applications are
 * supported.
 */
static long
xpmem_ioctl(struct file *file, unsigned int cmd, unsigned long arg)
{
	long ret;

	switch (cmd) {
	case XPMEM_CMD_VERSION: {
		return XPMEM_CURRENT_VERSION;
	}
	case XPMEM_CMD_MAKE: {
		struct xpmem_cmd_make make_info;
		xpmem_segid_t segid;

		if (copy_from_user(&make_info, (void __user *)arg,
				   sizeof(struct xpmem_cmd_make)))
			return -EFAULT;

		ret = xpmem_make(make_info.vaddr, make_info.size,
				 make_info.permit_type,
				 (void *)make_info.permit_value, &segid);
		if (ret != 0)
			return ret;

		if (put_user(segid,
			     &((struct xpmem_cmd_make __user *)arg)->segid)) {
			(void)xpmem_remove(segid);
			return -EFAULT;
		}
		return 0;
	}
	case XPMEM_CMD_REMOVE: {
		struct xpmem_cmd_remove remove_info;

		if (copy_from_user(&remove_info, (void __user *)arg,
				   sizeof(struct xpmem_cmd_remove)))
			return -EFAULT;

		return xpmem_remove(remove_info.segid);
	}
	case XPMEM_CMD_GET: {
		struct xpmem_cmd_get get_info;
		xpmem_apid_t apid;

		if (copy_from_user(&get_info, (void __user *)arg,
				   sizeof(struct xpmem_cmd_get)))
			return -EFAULT;

		ret = xpmem_get(get_info.segid, get_info.flags,
				get_info.permit_type,
				(void *)get_info.permit_value, &apid);
		if (ret != 0)
			return ret;

		if (put_user(apid,
			     &((struct xpmem_cmd_get __user *)arg)->apid)) {
			(void)xpmem_release(apid);
			return -EFAULT;
		}
		return 0;
	}
	case XPMEM_CMD_RELEASE: {
		struct xpmem_cmd_release release_info;

		if (copy_from_user(&release_info, (void __user *)arg,
				   sizeof(struct xpmem_cmd_release)))
			return -EFAULT;

		return xpmem_release(release_info.apid);
	}
	case XPMEM_CMD_ATTACH: {
		struct xpmem_cmd_attach attach_info;
		u64 at_vaddr;

		if (copy_from_user(&attach_info, (void __user *)arg,
				   sizeof(struct xpmem_cmd_attach)))
			return -EFAULT;

		ret = xpmem_attach(file, attach_info.apid, attach_info.offset,
				   attach_info.size, attach_info.vaddr,
				   attach_info.fd, attach_info.flags,
				   &at_vaddr);
		if (ret != 0)
			return ret;

		if (put_user(at_vaddr,
			     &((struct xpmem_cmd_attach __user *)arg)->vaddr)) {
			(void)xpmem_detach(at_vaddr);
			return -EFAULT;
		}
		return 0;
	}
	case XPMEM_CMD_DETACH: {
		struct xpmem_cmd_detach detach_info;

		if (copy_from_user(&detach_info, (void __user *)arg,
				   sizeof(struct xpmem_cmd_detach)))
			return -EFAULT;

		return xpmem_detach(detach_info.vaddr);
	}
	case XPMEM_CMD_FORK_BEGIN: {
		return xpmem_fork_begin();
	}
	case XPMEM_CMD_FORK_END: {
		return xpmem_fork_end();
	}
	default:
		break;
	}
	return -ENOIOCTLCMD;
}