ses2/common/ses2_pages.c

	ses2_pages.c revision ac88567a7a5bb7f01cf22cf366bc9d6203e24d7a
/*
 * CDDL HEADER START
 *
 * The contents of this file are subject to the terms of the
 * Common Development and Distribution License (the "License").
 * You may not use this file except in compliance with the License.
 *
 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
 * or http://www.opensolaris.org/os/licensing.
 * See the License for the specific language governing permissions
 * and limitations under the License.
 *
 * When distributing Covered Code, include this CDDL HEADER in each
 * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
 * If applicable, add the following below this CDDL HEADER, with the
 * fields enclosed by brackets "[]" replaced with your own identifying
 * information: Portions Copyright [yyyy] [name of copyright owner]
 *
 * CDDL HEADER END
 */

/*
 * Copyright (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved.
 */

#include <stddef.h>
#include <strings.h>

#include <scsi/libses.h>
#include <scsi/libses_plugin.h>
#include <scsi/plugins/ses/framework/ses2.h>

#include "ses2_impl.h"

static int
ses2_ctl_common_setdef(ses_node_t *np, ses2_diag_page_t page, void *data)
{
    ses2_cmn_elem_ctl_impl_t *eip = data;
    nvlist_t *props = ses_node_props(np);

    if (page != SES2_DIAGPAGE_ENCLOSURE_CTL_STATUS)
        return (0);

    SES_NV_CTLBOOL_INVERT(props, SES_PROP_SWAP, eip->seci_rst_swap);
    SES_NV_CTLBOOL(props, SES_PROP_DISABLED, eip->seci_disable);
    SES_NV_CTLBOOL(props, SES_PROP_PRDFAIL, eip->seci_prdfail);

    eip->seci_select = 1;

    return (0);
}

/*ARGSUSED*/
static void *
ses2_aes_index(ses_plugin_t *sp, ses_node_t *np, void *data, size_t pagelen,
    size_t *len)
{
    ses2_aes_page_impl_t *apip = data;
    uint64_t index, type;
    nvlist_t *props = ses_node_props(np);
    ses2_aes_descr_eip_impl_t *dep;
    size_t desclen;
    int i, pos;
    ses_node_t *uncle;

    VERIFY(nvlist_lookup_uint64(props, SES_PROP_ELEMENT_INDEX,
        &index) == 0);
    VERIFY(nvlist_lookup_uint64(props, SES_PROP_ELEMENT_TYPE,
        &type) == 0);

    if (pagelen < offsetof(ses2_aes_page_impl_t, sapi_data))
        return (0);

    /*
     * Because, according to 6.1.13.1, the element index "does not
     * include the OVERALL STATUS fields", we have to go recompute the
     * index of this element each time.  This, naturally, is a linear
     * exercise as well.
     */
    for (uncle = ses_node_parent(np); uncle != NULL;
        uncle = ses_node_prev_sibling(uncle))
        --index;

    for (dep = (ses2_aes_descr_eip_impl_t *)apip->sapi_data, pos = 0, i = 0;
        pos < SCSI_READ16(&apip->sapi_page_length);
        dep = (ses2_aes_descr_eip_impl_t *)(apip->sapi_data + pos), i++) {
        if (!SES_WITHIN_PAGE_STRUCT(dep, data, pagelen))
            break;

        desclen = dep->sadei_length +
            offsetof(ses2_aes_descr_eip_impl_t, sadei_length) +
            sizeof (dep->sadei_length);

        if (!SES_WITHIN_PAGE(dep, desclen, data, pagelen))
            break;

        pos += desclen;
        if (!dep->sadei_eip &&
            type != SES_ET_DEVICE &&
            type != SES_ET_ARRAY_DEVICE) {
            /*
             * We can't really do anything with this, because
             * while the standard requires that these descriptors
             * be in the same order as those in the status page,
             * some element types may optionally include AES
             * data.  This means we cannot know which element
             * this descriptor refers to unless EIP is 1.  Sadly,
             * the standard only says that this "should" be true.
             * It's impossible to guess what use this is supposed
             * to have otherwise.  See 6.1.13.1.
             */
            continue;
        } else if (dep->sadei_eip &&
            dep->sadei_element_index != index) {
            continue;
        } else if (dep->sadei_eip || i == index) {
            *len = desclen;
            return (dep);
        }
    }

    return (NULL);
}

/*ARGSUSED*/
static void *
ses2_threshold_index(ses_plugin_t *sp, ses_node_t *np, void *data,
    size_t pagelen, size_t *len)
{
    uint64_t index;
    nvlist_t *props = ses_node_props(np);
    ses2_threshold_in_page_impl_t *tpip = data;
    ses2_threshold_impl_t *tp;

    VERIFY(nvlist_lookup_uint64(props, SES_PROP_ELEMENT_INDEX,
        &index) == 0);

    *len = sizeof (ses2_threshold_impl_t);
    tp = &tpip->stipi_thresholds[index];

    if (!SES_WITHIN_PAGE_STRUCT(tp, data, pagelen))
        return (NULL);

    return (&tpip->stipi_thresholds[index]);
}

/*ARGSUSED*/
static void *
ses2_element_index(ses_plugin_t *sp, ses_node_t *np, void *data,
    size_t pagelen, size_t *len)
{
    uint64_t index;
    nvlist_t *props = ses_node_props(np);
    ses2_elem_desc_page_impl_t *edip = data;
    ses2_elem_descriptor_impl_t *dp;
    int i;
    uint16_t dlen;

    if (nvlist_lookup_uint64(props, SES_PROP_ELEMENT_INDEX, &index) != 0)
        return (NULL);

    if (!SES_WITHIN_PAGE(data, sizeof (*dp), data, pagelen))
        return (NULL);

    /*
     * This variable-length list of variable-length strings format sucks
     * for performance; we ALWAYS have to walk the whole bloody thing to
     * find a particular node's entry.
     */
    for (i = 0, dp = (ses2_elem_descriptor_impl_t *)edip->sedpi_data;
        i < index; i++) {

        if (!SES_WITHIN_PAGE_STRUCT(dp, data, pagelen))
            return (NULL);

        dlen = SCSI_READ16(&dp->sedi_descriptor_length);

        dp = (ses2_elem_descriptor_impl_t *)
            ((uint8_t *)dp->sedi_descriptor + dlen);
    }

    if (!SES_WITHIN_PAGE_STRUCT(dp, data, pagelen))
        return (NULL);

    *len = SCSI_READ16(&dp->sedi_descriptor_length);

    if (!SES_WITHIN_PAGE(dp,
        *len + offsetof(ses2_elem_descriptor_impl_t, sedi_descriptor),
        data, pagelen))
        return (NULL);

    return (dp->sedi_descriptor);
}

/*ARGSUSED*/
static void *
ses2_status_index(ses_plugin_t *sp, ses_node_t *np, void *data,
    size_t pagelen, size_t *len)
{
    uint64_t index;
    nvlist_t *props = ses_node_props(np);
    ses2_status_page_impl_t *spip = data;

    if (nvlist_lookup_uint64(props, SES_PROP_ELEMENT_INDEX,
        &index) != 0)
        return (NULL);

    if ((index + 1) * sizeof (ses2_elem_status_impl_t) +
        offsetof(ses2_status_page_impl_t, sspi_data) > pagelen)
        return (NULL);

    *len = sizeof (ses2_elem_status_impl_t);
    return ((ses2_elem_status_impl_t *)spip->sspi_data + index);
}

/*ARGSUSED*/
static size_t
ses2_ctl_len(uint_t nelem, int page, size_t datalen)
{
    ASSERT(page == SES2_DIAGPAGE_ENCLOSURE_CTL_STATUS);

    return (nelem * sizeof (ses2_elem_ctl_impl_t) +
        offsetof(ses2_control_page_impl_t, scpi_data[0]));
}

/*ARGSUSED*/
static void *
ses2_ctl_fill(ses_plugin_t *sp, void *pagedata, size_t pagelen,
    ses_node_t *np)
{
    uint64_t index;
    nvlist_t *props = ses_node_props(np);
    ses2_control_page_impl_t *pip = pagedata;
    void *data;
    ses2_diag_page_t page = SES2_DIAGPAGE_ENCLOSURE_CTL_STATUS;

    if (nvlist_lookup_uint64(props, SES_PROP_ELEMENT_INDEX,
        &index) != 0) {
        (void) ses_error(ESES_BAD_RESPONSE, "missing element index "
            "for enclosure node");
        return (NULL);
    }

    data = &pip->scpi_data[index];

    if (ses2_ctl_common_setdef(np, page, data) != 0 ||
        ses2_element_setdef(np, page, data) != 0 ||
        ses2_enclosure_setdef(np, page, data) != 0)
        return (NULL);

    return (data);
}

/*ARGSUSED*/
static size_t
ses2_stringout_len(uint_t nelem, int page, size_t datalen)
{
    ASSERT(page == SES2_DIAGPAGE_STRING_IO);

    return (datalen + offsetof(ses2_string_out_page_impl_t, ssopi_data[0]));
}

/*ARGSUSED*/
static size_t
ses2_threshout_len(uint_t nelem, int page, size_t datalen)
{
    ASSERT(page == SES2_DIAGPAGE_THRESHOLD_IO);

    return (nelem * sizeof (ses2_threshold_impl_t) +
        offsetof(ses2_threshold_out_page_impl_t, stopi_thresholds[0]));
}

/*ARGSUSED*/
static void *
ses2_threshout_ctl_fill(ses_plugin_t *sp, void *pagedata, size_t pagelen,
    ses_node_t *np)
{
    uint64_t index;
    nvlist_t *props = ses_node_props(np);
    ses2_threshold_out_page_impl_t *pip = pagedata;
    ses2_diag_page_t page = SES2_DIAGPAGE_THRESHOLD_IO;
    void *data;

    VERIFY(nvlist_lookup_uint64(props, SES_PROP_ELEMENT_INDEX,
        &index) == 0);

    data = &pip[index];

    if (ses2_ctl_common_setdef(np, page, data) != 0 ||
        ses2_element_setdef(np, page, data) != 0 ||
        ses2_enclosure_setdef(np, page, data) != 0)
        return (NULL);

    return (data);
}

/*ARGSUSED*/
static size_t
ses2_substrout_len(uint_t nelem, int page, size_t datalen)
{
    ASSERT(page == SES2_DIAGPAGE_SUBENCLOSURE_STRING_IO);

    return (datalen +
        offsetof(ses2_substring_out_page_impl_t, ssopi_data[0]));
}

/*ARGSUSED*/
static size_t
ses2_ucodeout_len(uint_t nelem, int page, size_t datalen)
{
    size_t len;

    ASSERT(page == SES2_DIAGPAGE_DL_MICROCODE_CTL_STATUS);

    len = datalen +
        offsetof(ses2_ucode_ctl_page_impl_t, sucpi_ucode_data[0]);

    return (P2ROUNDUP(len, 4));
}

/*ARGSUSED*/
static void *
ses2_ucodeout_ctl_fill(ses_plugin_t *sp, void *data, size_t pagelen,
    ses_node_t *np)
{
    ses_snap_t *snap = ses_node_snapshot(np);
    nvlist_t *props = ses_node_props(np);
    ses2_ucode_ctl_page_impl_t *uip = data;
    uint64_t eid;

    if (ses_node_type(np) != SES_NODE_ENCLOSURE) {
        (void) ses_error(ESES_BAD_TYPE,
            "microcode download page only valid for enclosure "
            "nodes");
        return (NULL);
    }

    VERIFY(nvlist_lookup_uint64(props, SES_EN_PROP_EID, &eid) == 0);

    SCSI_WRITE32(&uip->sucpi_generation_code,
        ses_snap_generation(snap));
    uip->sucpi_subenclosure_identifier = eid;

    return (data);
}

/*ARGSUSED*/
static size_t
ses2_subnickout_len(uint_t nelem, int page, size_t datalen)
{
    ASSERT(page == SES2_DIAGPAGE_SUBENCLOSURE_NICKNAME_CTL_STATUS);

    return (sizeof (ses2_subnick_ctl_page_impl_t));
}

ses_pagedesc_t ses2_pages[] = {
{
    .spd_pagenum = SES2_DIAGPAGE_SUPPORTED_PAGES,
    .spd_req = SES_REQ_MANDATORY_ALL,
    .spd_gcoff = -1
},
{
    .spd_pagenum = SES2_DIAGPAGE_CONFIG,
    .spd_req = SES_REQ_MANDATORY_STANDARD,
    .spd_gcoff = offsetof(ses2_config_page_impl_t, scpi_generation_code)
},
{
    .spd_pagenum = SES2_DIAGPAGE_ENCLOSURE_CTL_STATUS,
    .spd_req = SES_REQ_MANDATORY_STANDARD,
    .spd_index = ses2_status_index,
    .spd_gcoff = offsetof(ses2_status_page_impl_t, sspi_generation_code)
},
{
    .spd_pagenum = SES2_DIAGPAGE_HELP_TEXT,
    .spd_req = SES_REQ_OPTIONAL_STANDARD,
    .spd_gcoff = -1
},
{
    .spd_pagenum = SES2_DIAGPAGE_STRING_IO,
    .spd_req = SES_REQ_OPTIONAL_STANDARD,
    .spd_gcoff = -1
},
{
    .spd_pagenum = SES2_DIAGPAGE_THRESHOLD_IO,
    .spd_index = ses2_threshold_index,
    .spd_req = SES_REQ_OPTIONAL_STANDARD,
    .spd_gcoff =
        offsetof(ses2_threshold_in_page_impl_t, stipi_generation_code)
},
{
    .spd_pagenum = SES2_DIAGPAGE_ELEMENT_DESC,
    .spd_index = ses2_element_index,
    .spd_req = SES_REQ_OPTIONAL_STANDARD,
    .spd_gcoff = offsetof(ses2_elem_desc_page_impl_t, sedpi_generation_code)
},
{
    .spd_pagenum = SES2_DIAGPAGE_ADDL_ELEM_STATUS,
    .spd_index = ses2_aes_index,
    .spd_req = SES_REQ_OPTIONAL_STANDARD,
    .spd_gcoff = offsetof(ses2_aes_page_impl_t, sapi_generation_code)
},
{
    .spd_pagenum = SES2_DIAGPAGE_SUBENCLOSURE_HELP_TEXT,
    .spd_req = SES_REQ_OPTIONAL_STANDARD,
    .spd_gcoff = offsetof(ses2_subhelp_page_impl_t, sspi_generation_code)
},
{
    .spd_pagenum = SES2_DIAGPAGE_SUBENCLOSURE_STRING_IO,
    .spd_req = SES_REQ_OPTIONAL_STANDARD,
    .spd_gcoff =
        offsetof(ses2_substring_in_page_impl_t, ssipi_generation_code)
},
{
    .spd_pagenum = SES2_DIAGPAGE_SUPPORTED_SES_PAGES,
    .spd_req = SES_REQ_OPTIONAL_STANDARD,
    .spd_gcoff = -1
},
{
    .spd_pagenum = SES2_DIAGPAGE_DL_MICROCODE_CTL_STATUS,
    .spd_req = SES_REQ_OPTIONAL_STANDARD,
    .spd_gcoff =
        offsetof(ses2_ucode_status_page_impl_t, suspi_generation_code)
},
{
    .spd_pagenum = SES2_DIAGPAGE_SUBENCLOSURE_NICKNAME_CTL_STATUS,
    .spd_req = SES_REQ_OPTIONAL_STANDARD,
    .spd_gcoff =
        offsetof(ses2_subnick_status_page_impl_t, sspci_generation_code)
},
/* Control pages */
{
    .spd_pagenum = SES2_DIAGPAGE_ENCLOSURE_CTL_STATUS,
    .spd_ctl_len = ses2_ctl_len,
    .spd_ctl_fill = ses2_ctl_fill,
    .spd_req = SES_REQ_MANDATORY_STANDARD,
    .spd_gcoff = offsetof(ses2_control_page_impl_t, scpi_generation_code)
},
{
    .spd_pagenum = SES2_DIAGPAGE_STRING_IO,
    .spd_ctl_len = ses2_stringout_len,
    .spd_req = SES_REQ_OPTIONAL_STANDARD,
    .spd_gcoff = -1
},
{
    .spd_pagenum = SES2_DIAGPAGE_THRESHOLD_IO,
    .spd_ctl_len = ses2_threshout_len,
    .spd_ctl_fill = ses2_threshout_ctl_fill,
    .spd_req = SES_REQ_OPTIONAL_STANDARD,
    .spd_gcoff =
        offsetof(ses2_threshold_out_page_impl_t, stopi_generation_code)
},
{
    .spd_pagenum = SES2_DIAGPAGE_SUBENCLOSURE_STRING_IO,
    .spd_ctl_len = ses2_substrout_len,
    .spd_req = SES_REQ_OPTIONAL_STANDARD,
    .spd_gcoff =
        offsetof(ses2_substring_out_page_impl_t, ssopi_generation_code)
},
{
    .spd_pagenum = SES2_DIAGPAGE_DL_MICROCODE_CTL_STATUS,
    .spd_ctl_len = ses2_ucodeout_len,
    .spd_ctl_fill = ses2_ucodeout_ctl_fill,
    .spd_req = SES_REQ_OPTIONAL_STANDARD,
    .spd_gcoff =
        offsetof(ses2_ucode_ctl_page_impl_t, sucpi_generation_code)
},
{
    .spd_pagenum = SES2_DIAGPAGE_SUBENCLOSURE_NICKNAME_CTL_STATUS,
    .spd_ctl_len = ses2_subnickout_len,
    .spd_req = SES_REQ_OPTIONAL_STANDARD,
    .spd_gcoff =
        offsetof(ses2_subnick_ctl_page_impl_t, sspci_generation_code)
},
{
    .spd_pagenum = -1,
    .spd_gcoff = -1
}
};