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|
/* Copyright 2013-2014 IBM Corp.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
* implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <skiboot.h>
#include "spira.h"
#include <cpu.h>
#include <fsp.h>
#include <opal.h>
#include <ccan/str/str.h>
#include <ccan/array_size/array_size.h>
#include <device.h>
#include <vpd.h>
#include <inttypes.h>
#include <string.h>
#include "hdata.h"
static bool io_get_lx_info(const void *kwvpd, unsigned int kwvpd_sz,
int lx_idx, struct dt_node *hn)
{
const void *lxr;
char recname[5];
uint32_t lxrbuf[2] = { 0, 0 };
/* Find LXRn, where n is the index passed in*/
strcpy(recname, "LXR0");
recname[3] += lx_idx;
lxr = vpd_find(kwvpd, kwvpd_sz, recname, "LX", NULL);
if (!lxr) {
/* Not found, try VINI */
lxr = vpd_find(kwvpd, kwvpd_sz, "VINI",
"LX", NULL);
if (lxr)
lx_idx = VPD_LOAD_LXRN_VINI;
}
if (!lxr) {
prlog(PR_DEBUG, "CEC: LXR%x not found !\n", lx_idx);
return false;
}
memcpy(lxrbuf, lxr, sizeof(uint32_t)*2);
prlog(PR_DEBUG, "CEC: LXRn=%d LXR=%08x%08x\n", lx_idx, lxrbuf[0], lxrbuf[1]);
prlog(PR_DEBUG, "CEC: LX Info added to %llx\n", (long long)hn);
/* Add the LX info */
if (!dt_has_node_property(hn, "ibm,vpd-lx-info", NULL)) {
dt_add_property_cells(hn, "ibm,vpd-lx-info",
lx_idx,
lxrbuf[0],
lxrbuf[1]);
}
return true;
}
static void io_get_loc_code(const void *sp_iohubs, struct dt_node *hn, const char *prop_name)
{
const struct spira_fru_id *fru_id;
unsigned int fru_id_sz;
char loc_code[LOC_CODE_SIZE + 1];
const char *slca_loc_code;
/* Find SLCA Index */
fru_id = HDIF_get_idata(sp_iohubs, CECHUB_FRU_ID_DATA, &fru_id_sz);
if (fru_id) {
memset(loc_code, 0, sizeof(loc_code));
/* Find LOC Code from SLCA Index */
slca_loc_code = slca_get_loc_code_index(be16_to_cpu(fru_id->slca_index));
if (slca_loc_code) {
strncpy(loc_code, slca_loc_code, LOC_CODE_SIZE);
if (!dt_has_node_property(hn, prop_name, NULL)) {
dt_add_property(hn, prop_name, loc_code,
strlen(loc_code) + 1);
}
prlog(PR_DEBUG, "CEC: %s: %s (SLCA rsrc 0x%x)\n",
prop_name, loc_code,
be16_to_cpu(fru_id->rsrc_id));
} else {
prlog(PR_DEBUG, "CEC: SLCA Loc not found: "
"index %d\n", fru_id->slca_index);
}
} else {
prlog(PR_DEBUG, "CEC: Hub FRU ID not found...\n");
}
}
static struct dt_node *io_add_phb3(const struct cechub_io_hub *hub,
const struct HDIF_common_hdr *sp_iohubs,
unsigned int index, struct dt_node *xcom,
unsigned int pe_xscom,
unsigned int pci_xscom,
unsigned int spci_xscom)
{
struct dt_node *pbcq;
uint32_t reg[6];
unsigned int hdif_vers;
/* Get HDIF version */
hdif_vers = be16_to_cpu(sp_iohubs->version);
/* Create PBCQ node under xscom */
pbcq = dt_new_addr(xcom, "pbcq", pe_xscom);
if (!pbcq)
return NULL;
/* "reg" property contains in order the PE, PCI and SPCI XSCOM
* addresses
*/
reg[0] = pe_xscom;
reg[1] = 0x20;
reg[2] = pci_xscom;
reg[3] = 0x05;
reg[4] = spci_xscom;
reg[5] = 0x15;
dt_add_property(pbcq, "reg", reg, sizeof(reg));
/* A couple more things ... */
dt_add_property_strings(pbcq, "compatible", "ibm,power8-pbcq");
dt_add_property_cells(pbcq, "ibm,phb-index", index);
dt_add_property_cells(pbcq, "ibm,hub-id", be16_to_cpu(hub->hub_num));
/* The loc code of the PHB itself is different from the base
* loc code of the slots (It's actually the DCM's loc code).
*/
io_get_loc_code(sp_iohubs, pbcq, "ibm,loc-code");
/* We indicate that this is an IBM setup, which means that
* the presence detect A/B bits are meaningful. So far we
* don't know whether they make any sense on customer setups
* so we only set that when booting with HDAT
*/
dt_add_property(pbcq, "ibm,use-ab-detect", NULL, 0);
/* HDAT spec has these in version 0x6A and later */
if (hdif_vers >= 0x6a) {
u64 eq0 = be64_to_cpu(hub->phb_lane_eq[index][0]);
u64 eq1 = be64_to_cpu(hub->phb_lane_eq[index][1]);
u64 eq2 = be64_to_cpu(hub->phb_lane_eq[index][2]);
u64 eq3 = be64_to_cpu(hub->phb_lane_eq[index][3]);
dt_add_property_u64s(pbcq, "ibm,lane-eq", eq0, eq1, eq2, eq3);
}
/* Currently we only create a PBCQ node, the actual PHB nodes
* will be added by sapphire later on.
*/
return pbcq;
}
static struct dt_node *add_pec_stack(const struct cechub_io_hub *hub,
struct dt_node *pbcq, int stack_index,
int phb_index, u8 active_phbs)
{
struct dt_node *stack;
u64 eq[8];
u8 *gen4;
int i;
stack = dt_new_addr(pbcq, "stack", stack_index);
assert(stack);
dt_add_property_cells(stack, "reg", stack_index);
dt_add_property_cells(stack, "ibm,phb-index", phb_index);
dt_add_property_string(stack, "compatible", "ibm,power9-phb-stack");
/* XXX: This should probably just return if the PHB is disabled
* rather than adding the extra properties.
*/
if (active_phbs & (0x80 >> phb_index))
dt_add_property_string(stack, "status", "okay");
else
dt_add_property_string(stack, "status", "disabled");
for (i = 0; i < 4; i++) /* gen 3 eq settings */
eq[i] = be64_to_cpu(hub->phb_lane_eq[phb_index][i]);
for (i = 0; i < 4; i++) /* gen 4 eq settings */
eq[i+4] = be64_to_cpu(hub->phb4_lane_eq[phb_index][i]);
/* Lane-eq settings are packed 2 bytes per lane for 16 lanes
* On P9 DD2, 1 byte per lane is used in the hardware
*/
/* Repack 2 byte lane settings into 1 byte */
gen4 = (u8 *)&eq[4];
for (i = 0; i < 16; i++)
gen4[i] = gen4[2*i];
dt_add_property_u64s(stack, "ibm,lane-eq", eq[0], eq[1],
eq[2], eq[3], eq[4], eq[5]);
return stack;
}
static struct dt_node *io_add_phb4(const struct cechub_io_hub *hub,
const struct HDIF_common_hdr *sp_iohubs,
struct dt_node *xcom,
unsigned int pec_index,
int stacks,
int phb_base)
{
struct dt_node *pbcq;
uint32_t reg[4];
uint8_t active_phb_mask = hub->fab_br0_pdt;
uint32_t pe_xscom = 0x4010c00 + (pec_index * 0x0000400);
uint32_t pci_xscom = 0xd010800 + (pec_index * 0x1000000);
int i;
/* Create PBCQ node under xscom */
pbcq = dt_new_addr(xcom, "pbcq", pe_xscom);
if (!pbcq)
return NULL;
/* "reg" property contains (in order) the PE and PCI XSCOM addresses */
reg[0] = pe_xscom;
reg[1] = 0x100;
reg[2] = pci_xscom;
reg[3] = 0x200;
dt_add_property(pbcq, "reg", reg, sizeof(reg));
/* The hubs themselves go under the stacks */
dt_add_property_strings(pbcq, "compatible", "ibm,power9-pbcq");
dt_add_property_cells(pbcq, "ibm,pec-index", pec_index);
dt_add_property_cells(pbcq, "#address-cells", 1);
dt_add_property_cells(pbcq, "#size-cells", 0);
for (i = 0; i < stacks; i++)
add_pec_stack(hub, pbcq, i, phb_base + i, active_phb_mask);
dt_add_property_cells(pbcq, "ibm,hub-id", be16_to_cpu(hub->hub_num));
/* The loc code of the PHB itself is different from the base
* loc code of the slots (It's actually the DCM's loc code).
*/
io_get_loc_code(sp_iohubs, pbcq, "ibm,loc-code");
prlog(PR_INFO, "CEC: Added PHB4 PBCQ %d with %d stacks\n",
pec_index, stacks);
/* the actual PHB nodes created later on by skiboot */
return pbcq;
}
static struct dt_node *io_add_p8(const struct cechub_io_hub *hub,
const struct HDIF_common_hdr *sp_iohubs)
{
struct dt_node *xscom;
unsigned int i, chip_id;
chip_id = pcid_to_chip_id(be32_to_cpu(hub->proc_chip_id));
prlog(PR_INFO, "CEC: HW CHIP=0x%x, HW TOPO=0x%04x\n", chip_id,
be16_to_cpu(hub->hw_topology));
xscom = find_xscom_for_chip(chip_id);
if (!xscom) {
prerror("P8: Can't find XSCOM for chip %d\n", chip_id);
return NULL;
}
/* Create PHBs, max 3 */
for (i = 0; i < 3; i++) {
if (hub->fab_br0_pdt & (0x80 >> i))
/* XSCOM addresses are the same on Murano and Venice */
io_add_phb3(hub, sp_iohubs, i, xscom,
0x02012000 + (i * 0x400),
0x09012000 + (i * 0x400),
0x09013c00 + (i * 0x40));
}
/* HACK: We return the XSCOM device for the VPD info */
return xscom;
}
static struct dt_node *io_add_p9(const struct cechub_io_hub *hub,
const struct HDIF_common_hdr *sp_iohubs)
{
struct dt_node *xscom;
unsigned int chip_id;
chip_id = pcid_to_chip_id(be32_to_cpu(hub->proc_chip_id));
prlog(PR_INFO, "CEC: HW CHIP=0x%x, HW TOPO=0x%04x\n", chip_id,
be16_to_cpu(hub->hw_topology));
xscom = find_xscom_for_chip(chip_id);
if (!xscom) {
prerror("P9: Can't find XSCOM for chip %d\n", chip_id);
return NULL;
}
prlog(PR_DEBUG, "IOHUB: PHB4 active bridge mask %x\n",
(u32) hub->fab_br0_pdt);
/* Create PBCQs */
io_add_phb4(hub, sp_iohubs, xscom, 0, 1, 0);
io_add_phb4(hub, sp_iohubs, xscom, 1, 2, 1);
io_add_phb4(hub, sp_iohubs, xscom, 2, 3, 3);
return xscom;
}
static void io_add_p8_cec_vpd(const struct HDIF_common_hdr *sp_iohubs)
{
const struct HDIF_child_ptr *iokids;
const void *iokid;
const void *kwvpd;
unsigned int kwvpd_sz;
/* P8 LXR0 kept in IO KID Keyword VPD */
iokids = HDIF_child_arr(sp_iohubs, CECHUB_CHILD_IO_KIDS);
if (!CHECK_SPPTR(iokids)) {
prlog(PR_WARNING, "CEC: No IOKID child array !\n");
return;
}
if (!iokids->count) {
prlog(PR_WARNING, "CEC: IOKID count is 0 !\n");
return;
}
if (be32_to_cpu(iokids->count) > 1) {
prlog(PR_WARNING, "CEC: WARNING ! More than 1 IO KID !!! (%d)\n",
iokids->count);
/* Ignoring the additional ones */
}
iokid = HDIF_child(sp_iohubs, iokids, 0, "IO KID");
if (!iokid) {
prlog(PR_WARNING, "CEC: No IO KID structure in child array !\n");
return;
}
/* Grab base location code for slots */
io_get_loc_code(iokid, dt_root, "ibm,io-base-loc-code");
kwvpd = HDIF_get_idata(iokid, CECHUB_ASCII_KEYWORD_VPD, &kwvpd_sz);
if (!kwvpd) {
prlog(PR_WARNING, "CEC: No VPD entry in IO KID !\n");
return;
}
/* Grab LX load info */
io_get_lx_info(kwvpd, kwvpd_sz, 0, dt_root);
}
/*
* Assumptions:
*
* a) the IOSLOT index is the hub ID -CHECK
*
*/
static struct dt_node *dt_slots;
static void add_i2c_link(struct dt_node *node, const char *link_name,
u32 i2c_link)
{
/* FIXME: Do something not shit */
dt_add_property_cells(node, link_name, i2c_link);
}
/*
* the root of the slots node has #address-cells = 2, <hub-index, phb-index>
* can we ditch hub-index?
*/
static const struct slot_map_details *find_slot_details(
const struct HDIF_common_hdr *ioslot, int entry)
{
const struct slot_map_details *details = NULL;
const struct HDIF_array_hdr *arr;
unsigned int i;
arr = HDIF_get_iarray(ioslot, IOSLOT_IDATA_DETAILS, NULL);
HDIF_iarray_for_each(arr, i, details)
if (be16_to_cpu(details->entry) == entry)
break;
return details;
}
static void parse_slot_details(struct dt_node *slot,
const struct slot_map_details *details)
{
u32 slot_caps;
/*
* generic slot options
*/
dt_add_property_cells(slot, "max-power",
be16_to_cpu(details->max_power));
if (details->perst_ctl_type == SLOT_PERST_PHB_OR_SW)
dt_add_property(slot, "pci-perst", NULL, 0);
else if (details->perst_ctl_type == SLOT_PERST_SW_GPIO)
dt_add_property_cells(slot, "gpio-perst", details->perst_gpio);
if (details->presence_det_type == SLOT_PRESENCE_PCI)
dt_add_property(slot, "pci-presence-detect", NULL, 0);
/*
* specific slot capabilities
*/
slot_caps = be32_to_cpu(details->slot_caps);
if (slot_caps & SLOT_CAP_LSI)
dt_add_property(slot, "lsi", NULL, 0);
if (slot_caps & SLOT_CAP_CAPI) {
/* XXX: should we be more specific here?
*
* Also we should double check that this slot
* is a root connected slot.
*/
dt_add_property(slot, "capi", NULL, 0);
}
if (slot_caps & SLOT_CAP_CCARD) {
dt_add_property(slot, "cable-card", NULL, 0);
if (details->presence_det_type == SLOT_PRESENCE_I2C)
add_i2c_link(slot, "i2c-presence-detect",
be32_to_cpu(details->i2c_cable_card));
}
if (slot_caps & SLOT_CAP_HOTPLUG) {
dt_add_property(slot, "hotplug", NULL, 0);
/*
* Power control should only exist when the slot is hotplug
* capable
*/
if (details->power_ctrl_type == SLOT_PWR_I2C)
add_i2c_link(slot, "i2c-power-ctrl",
be32_to_cpu(details->i2c_power_ctl));
}
/*
* NB: Additional NVLink specific info is added to this node
* when the SMP Link structures are parsed later on.
*/
if (slot_caps & SLOT_CAP_NVLINK)
dt_add_property(slot, "nvlink", NULL, 0);
}
struct dt_node *find_slot_entry_node(struct dt_node *root, u32 entry_id)
{
struct dt_node *node;
for (node = dt_first(root); node; node = dt_next(root, node)) {
if (!dt_has_node_property(node, DT_PRIVATE "entry_id", NULL))
continue;
if (dt_prop_get_u32(node, DT_PRIVATE "entry_id") == entry_id)
return node;
}
return NULL;
}
/*
* The internal HDAT representation of the various types of slot is kinda
* dumb, translate it into something more sensible
*/
enum slot_types {
st_root,
st_slot,
st_rc_slot,
st_sw_upstream,
st_sw_downstream,
st_builtin
};
static const char *st_name(enum slot_types type)
{
switch(type) {
case st_root: return "root-complex";
case st_slot: return "pluggable";
case st_rc_slot: return "pluggable"; /* differentiate? */
case st_sw_upstream: return "switch-up";
case st_sw_downstream: return "switch-down";
case st_builtin: return "builtin";
}
return "(none)";
}
static enum slot_types xlate_type(uint8_t type, u32 features)
{
bool is_slot = features & SLOT_FEAT_SLOT;
switch (type) {
case SLOT_TYPE_ROOT_COMPLEX:
return is_slot ? st_rc_slot : st_root;
case SLOT_TYPE_BUILTIN:
return st_builtin;
case SLOT_TYPE_SWITCH_UP:
return st_sw_upstream;
case SLOT_TYPE_SWITCH_DOWN:
return is_slot ? st_slot : st_sw_downstream;
}
return -1; /* shouldn't happen */
}
static bool is_port(struct dt_node *n)
{
//return dt_node_is_compatible(n, "compatible", "ibm,pcie-port");
return dt_node_is_compatible(n, "ibm,pcie-port");
}
/* this only works inside parse_one_ioslot() */
#define SM_LOG(level, fmt, ...) \
prlog(level, "SLOTMAP: %x:%d:%d " \
fmt, /* user input */ \
chip_id, entry->phb_index, eid, \
##__VA_ARGS__ /* user args */)
#define SM_ERR(fmt, ...) SM_LOG(PR_ERR, fmt, ##__VA_ARGS__)
#define SM_DBG(fmt, ...) SM_LOG(PR_DEBUG, fmt, ##__VA_ARGS__)
static void parse_one_slot(const struct slot_map_entry *entry,
const struct slot_map_details *details, int chip_id)
{
struct dt_node *node, *parent = NULL;
u16 eid, pid, vid, did;
u32 flags;
int type;
flags = be32_to_cpu(entry->features);
type = xlate_type(entry->type, flags);
eid = be16_to_cpu(entry->entry_id);
pid = be16_to_cpu(entry->parent_id);
SM_DBG("%s - eid = %d, pid = %d, name = %8s\n",
st_name(type), eid, pid,
strnlen(entry->name, 8) ? entry->name : "");
/* empty slot, ignore it */
if (eid == 0x0 && pid == 0x0)
return;
if (type != st_root && type != st_rc_slot) {
parent = find_slot_entry_node(dt_slots, pid);
if (!parent) {
SM_ERR("Unable to find node for parent slot (id = %d)\n",
pid);
return;
}
}
switch (type) {
case st_root:
case st_rc_slot:
node = dt_new_2addr(dt_slots, "root-complex",
chip_id, entry->phb_index);
if (!node) {
SM_ERR("Couldn't add DT node\n");
return;
}
dt_add_property_cells(node, "reg", chip_id, entry->phb_index);
dt_add_property_cells(node, "#address-cells", 2);
dt_add_property_cells(node, "#size-cells", 0);
dt_add_property_strings(node, "compatible",
"ibm,pcie-port", "ibm,pcie-root-port");
dt_add_property_cells(node, "ibm,chip-id", chip_id);
parent = node;
/*
* The representation of slots attached directly to the
* root complex is a bit wierd. If this is just a root
* complex then stop here, otherwise fall through to create
* the slot node.
*/
if (type == st_root)
break;
/* fallthrough*/
case st_sw_upstream:
case st_builtin:
case st_slot:
if (!is_port(parent)) {
SM_ERR("%s connected to %s (%d), should be %s or %s!\n",
st_name(type), parent->name, pid,
st_name(st_root), st_name(st_sw_downstream));
return;
}
vid = (be32_to_cpu(entry->vendor_id) & 0xffff);
did = (be32_to_cpu(entry->device_id) & 0xffff);
prlog(PR_DEBUG, "Found %s slot with %x:%x\n",
st_name(type), vid, did);
/* The VID:DID is only meaningful for builtins and switches */
if (type == st_sw_upstream && vid && did) {
node = dt_new_2addr(parent, st_name(type), vid, did);
dt_add_property_cells(node, "reg", vid, did);
} else {
/*
* If we get no vdid then create a "wildcard" slot
* that matches any device
*/
node = dt_new(parent, st_name(type));
}
if (type == st_sw_upstream) {
dt_add_property_cells(node, "#address-cells", 1);
dt_add_property_cells(node, "#size-cells", 0);
dt_add_property_cells(node, "upstream-port",
entry->up_port);
}
break;
case st_sw_downstream: /* slot connected to switch output */
node = dt_new_addr(parent, "down-port", entry->down_port);
dt_add_property_strings(node, "compatible",
"ibm,pcie-port");
dt_add_property_cells(node, "reg", entry->down_port);
break;
default:
SM_ERR("Unknown slot map type %x\n", entry->type);
return;
}
/*
* Now add any generic slot map properties.
*/
/* private since we don't want hdat stuff leaking */
dt_add_property_cells(node, DT_PRIVATE "entry_id", eid);
if (entry->mrw_slot_id)
dt_add_property_cells(node, "mrw-slot-id",
be16_to_cpu(entry->mrw_slot_id));
if (entry->lane_mask)
dt_add_property_cells(node, "lane-mask",
be16_to_cpu(entry->lane_mask));
/* what is the difference between this and the lane reverse? */
if (entry->lane_reverse)
dt_add_property_cells(node, "lanes-reversed",
be16_to_cpu(entry->lane_reverse));
if (strnlen(entry->name, sizeof(entry->name))) {
/*
* HACK: On some platforms (witherspoon) the slot label is
* applied to the device rather than the pcie downstream port
* that has the slot under it. Hack around this by moving the
* slot label up if the parent port doesn't have one.
*/
if (dt_node_is_compatible(node->parent, "ibm,pcie-port") &&
!dt_find_property(node->parent, "ibm,slot-label")) {
dt_add_property_nstr(node->parent, "ibm,slot-label",
entry->name, sizeof(entry->name));
}
dt_add_property_nstr(node, "ibm,slot-label",
entry->name, sizeof(entry->name));
}
if (entry->type == st_slot || entry->type == st_rc_slot)
dt_add_property(node, "ibm,pluggable", NULL, 0);
if (details)
parse_slot_details(node, details);
}
/*
* Under the IOHUB structure we have and idata array describing
* the PHBs under each chip. The IOHUB structure also has a child
* array called IOSLOT which describes slot map. The i`th element
* of the IOSLOT array corresponds to the slot map of the i`th
* element of the iohubs idata array.
*
* Probably.
*
* Furthermore, arrayarrayarrayarrayarray.
*/
static struct dt_node *get_slot_node(void)
{
struct dt_node *slots = dt_find_by_name(dt_root, "ibm,pcie-slots");
if (!slots) {
slots = dt_new(dt_root, "ibm,pcie-slots");
dt_add_property_cells(slots, "#address-cells", 2);
dt_add_property_cells(slots, "#size-cells", 0);
}
return slots;
}
static void io_parse_slots(const struct HDIF_common_hdr *sp_iohubs, int hub_id)
{
const struct HDIF_child_ptr *ioslot_arr;
const struct HDIF_array_hdr *entry_arr;
const struct HDIF_common_hdr *ioslot;
const struct slot_map_entry *entry;
unsigned int i, count;
if (be16_to_cpu(sp_iohubs->child_count) <= CECHUB_CHILD_IOSLOTS)
return;
ioslot_arr = HDIF_child_arr(sp_iohubs, CECHUB_CHILD_IOSLOTS);
if (!ioslot_arr)
return;
count = be32_to_cpu(ioslot_arr->count); /* should only be 1 */
if (!count)
return;
dt_slots = get_slot_node();
prlog(PR_DEBUG, "CEC: Found slot map for IOHUB %d\n", hub_id);
if (count > 1)
prerror("CEC: Multiple IOSLOTs found for IO HUB %d\n", hub_id);
ioslot = HDIF_child(sp_iohubs, ioslot_arr, 0, "IOSLOT");
if (!ioslot)
return;
entry_arr = HDIF_get_iarray(ioslot, IOSLOT_IDATA_SLOTMAP, NULL);
HDIF_iarray_for_each(entry_arr, i, entry) {
const struct slot_map_details *details;
details = find_slot_details(ioslot,
be16_to_cpu(entry->entry_id));
parse_one_slot(entry, details, hub_id);
}
}
static void io_parse_fru(const void *sp_iohubs)
{
unsigned int i;
int count;
count = HDIF_get_iarray_size(sp_iohubs, CECHUB_FRU_IO_HUBS);
if (count < 1) {
prerror("CEC: IO FRU with no chips !\n");
return;
}
prlog(PR_INFO, "CEC: %d chips in FRU\n", count);
/* Iterate IO hub array */
for (i = 0; i < count; i++) {
const struct cechub_io_hub *hub;
unsigned int size, hub_id;
uint32_t chip_id;
hub = HDIF_get_iarray_item(sp_iohubs, CECHUB_FRU_IO_HUBS,
i, &size);
if (!hub || size < CECHUB_IOHUB_MIN_SIZE) {
prerror("CEC: IO-HUB Chip %d bad idata\n", i);
continue;
}
switch (hub->flags & CECHUB_HUB_FLAG_STATE_MASK) {
case CECHUB_HUB_FLAG_STATE_OK:
prlog(PR_DEBUG, "CEC: IO Hub Chip #%d OK\n", i);
break;
case CECHUB_HUB_FLAG_STATE_FAILURES:
prlog(PR_WARNING, "CEC: IO Hub Chip #%d OK"
" with failures\n", i);
break;
case CECHUB_HUB_FLAG_STATE_NOT_INST:
prlog(PR_DEBUG, "CEC: IO Hub Chip #%d"
" Not installed\n", i);
continue;
case CECHUB_HUB_FLAG_STATE_UNUSABLE:
prlog(PR_DEBUG, "CEC: IO Hub Chip #%d Unusable\n", i);
continue;
}
hub_id = be16_to_cpu(hub->iohub_id);
/* GX BAR assignment */
prlog(PR_DEBUG, "CEC: PChip: %d HUB ID: %04x [EC=0x%x]"
" Hub#=%d)\n",
be32_to_cpu(hub->proc_chip_id), hub_id,
be32_to_cpu(hub->ec_level), be16_to_cpu(hub->hub_num));
switch(hub_id) {
case CECHUB_HUB_MURANO:
case CECHUB_HUB_MURANO_SEGU:
prlog(PR_INFO, "CEC: Murano !\n");
io_add_p8(hub, sp_iohubs);
break;
case CECHUB_HUB_VENICE_WYATT:
prlog(PR_INFO, "CEC: Venice !\n");
io_add_p8(hub, sp_iohubs);
break;
case CECHUB_HUB_NIMBUS_SFORAZ:
case CECHUB_HUB_NIMBUS_MONZA:
case CECHUB_HUB_NIMBUS_LAGRANGE:
prlog(PR_INFO, "CEC: Nimbus !\n");
io_add_p9(hub, sp_iohubs);
break;
case CECHUB_HUB_CUMULUS_DUOMO:
prlog(PR_INFO, "CEC: Cumulus !\n");
io_add_p9(hub, sp_iohubs);
break;
default:
prlog(PR_ERR, "CEC: Hub ID 0x%04x unsupported !\n",
hub_id);
}
chip_id = pcid_to_chip_id(be32_to_cpu(hub->proc_chip_id));
/* parse the slot map if we have one */
io_parse_slots(sp_iohubs, chip_id);
}
if (proc_gen == proc_gen_p8 || proc_gen == proc_gen_p9)
io_add_p8_cec_vpd(sp_iohubs);
}
void io_parse(void)
{
const struct HDIF_common_hdr *sp_iohubs;
unsigned int i, size;
/* Look for IO Hubs */
if (!get_hdif(&spira.ntuples.cec_iohub_fru, "IO HUB")) {
prerror("CEC: Cannot locate IO Hub FRU data !\n");
return;
}
/*
* Note about LXRn numbering ...
*
* I can't completely make sense of what that is supposed to be, so
* for now, what we do is look for the first one we can find and
* increment it for each chip. Works for the machines I have here
*/
for_each_ntuple_idx(&spira.ntuples.cec_iohub_fru, sp_iohubs, i,
CECHUB_FRU_HDIF_SIG) {
const struct cechub_hub_fru_id *fru_id_data;
unsigned int type;
static const char *typestr[] = {
"Reservation",
"Card",
"CPU Card",
"Backplane",
"Backplane Extension"
};
fru_id_data = HDIF_get_idata(sp_iohubs, CECHUB_FRU_ID_DATA_AREA,
&size);
if (!fru_id_data || size < sizeof(struct cechub_hub_fru_id)) {
prerror("CEC: IO-HUB FRU %d, bad ID data\n", i);
continue;
}
type = be32_to_cpu(fru_id_data->card_type);
prlog(PR_INFO, "CEC: HUB FRU %d is %s\n",
i, type > 4 ? "Unknown" : typestr[type]);
/*
* We currently only handle the backplane (Juno) and
* processor FRU (P8 machines)
*/
if (type != CECHUB_FRU_TYPE_CEC_BKPLANE &&
type != CECHUB_FRU_TYPE_CPU_CARD) {
prerror("CEC: Unsupported type\n");
continue;
}
/* We don't support Hubs connected to pass-through ports */
if (fru_id_data->flags & (CECHUB_FRU_FLAG_HEADLESS |
CECHUB_FRU_FLAG_PASSTHROUGH)) {
prerror("CEC: Headless or Passthrough unsupported\n");
continue;
}
/* Ok, we have a reasonable candidate */
io_parse_fru(sp_iohubs);
}
}
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