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/**
* Copyright (c) 2018 YADRO
*
* 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 <device.h>
#include <console.h>
#include <chip.h>
#include <ipmi.h>
#include <pci.h>
#include <pci-cfg.h>
#include "astbmc.h"
#define CHIP_ID_CPU0 0x00
#define CHIP_ID_CPU1 0x08
#define CHIP_ID_CPU2 0x10
#define CHIP_ID_CPU3 0x18
/* IPMI message code for PCI inventory (OEM). */
#define PCIINV_IPMI_CODE IPMI_CODE(0x2e, 0x2a)
/* IANA number used to identify IPMI OEM command group. */
#define PCIINV_OEM_IANA 49769 /* YADRO */
/**
* struct pciinv_device - PCI device inventory description.
* @domain_num: Domain number.
* @bus_num: Bus number.
* @device_num: Device number.
* @func_num: Function number.
* @vendor_id: Vendor Id.
* @device_id: Device Id.
* @class_code: Device class code.
* @revision: Revision number.
*
* All fields have Big Endian byte order.
*/
struct pciinv_device {
uint16_t domain_num;
uint8_t bus_num;
uint8_t device_num;
uint8_t func_num;
uint16_t vendor_id;
uint16_t device_id;
uint32_t class_code;
uint8_t revision;
} __packed;
/**
* struct pciinv_message - IPMI message packet data.
* @iana: IANA id for OEM message, must be set to PCIINV_OEM_IANA.
* @reset: Reset flag.
* @device: PCI device description.
*/
struct pciinv_message {
uint8_t iana[3];
uint8_t reset;
struct pciinv_device device;
} __packed;
static const struct slot_table_entry vesnin_phb0_0_slot[] = {
{
.etype = st_pluggable_slot,
.location = ST_LOC_DEVFN(0,0),
.name = "AUX connector00",
},
{ .etype = st_end }
};
static const struct slot_table_entry vesnin_plx_slots[] = {
{
.etype = st_builtin_dev,
.location = ST_LOC_DEVFN(0x01,0),
.name = "Backplane SSD0",
},
{
.etype = st_builtin_dev,
.location = ST_LOC_DEVFN(0x02,0),
.name = "Backplane SSD1",
},
{
.etype = st_builtin_dev,
.location = ST_LOC_DEVFN(0x03,0),
.name = "Backplane LAN",
},
{
.etype = st_builtin_dev,
.location = ST_LOC_DEVFN(0x04,0),
.name = "Backplane BMC",
},
{
.etype = st_builtin_dev,
.location = ST_LOC_DEVFN(0x05,0),
.name = "Backplane USB",
},
{ .etype = st_end }
};
static const struct slot_table_entry vesnin_plx_up[] = {
{
.etype = st_builtin_dev,
.location = ST_LOC_DEVFN(0,0),
.children = vesnin_plx_slots,
},
{ .etype = st_end }
};
static const struct slot_table_entry vesnin_phb0_1_slot[] = {
{
.etype = st_builtin_dev,
.location = ST_LOC_DEVFN(0,0),
.name = "Backplane PLX",
.children = vesnin_plx_up,
},
{ .etype = st_end }
};
static const struct slot_table_entry vesnin_phb0_2_slot[] = {
{
.etype = st_pluggable_slot,
.location = ST_LOC_DEVFN(0,0),
.name = "PCIE0_x8_CPU0",
},
{ .etype = st_end }
};
static const struct slot_table_entry vesnin_phb8_0_slot[] = {
{
.etype = st_pluggable_slot,
.location = ST_LOC_DEVFN(0,0),
.name = "PCIE1_x16_CPU1",
},
{ .etype = st_end }
};
static const struct slot_table_entry vesnin_phb8_1_slot[] = {
{
.etype = st_pluggable_slot,
.location = ST_LOC_DEVFN(0,0),
.name = "AUX connector10",
},
{ .etype = st_end }
};
static const struct slot_table_entry vesnin_phb9_0_slot[] = {
{
.etype = st_pluggable_slot,
.location = ST_LOC_DEVFN(0,0),
.name = "AUX connector30",
},
{ .etype = st_end }
};
static const struct slot_table_entry vesnin_phb9_1_slot[] = {
{
.etype = st_pluggable_slot,
.location = ST_LOC_DEVFN(0,0),
.name = "PCIE3_x8_CPU2",
},
{ .etype = st_end }
};
static const struct slot_table_entry vesnin_phb9_2_slot[] = {
{
.etype = st_pluggable_slot,
.location = ST_LOC_DEVFN(0,0),
.name = "PCIE2_x8_CPU2",
},
{ .etype = st_end }
};
static const struct slot_table_entry vesnin_phbA_0_slot[] = {
{
.etype = st_pluggable_slot,
.location = ST_LOC_DEVFN(0,0),
.name = "PCIE4_x16_CPU3",
},
{ .etype = st_end }
};
static const struct slot_table_entry vesnin_phbA_1_slot[] = {
{
.etype = st_pluggable_slot,
.location = ST_LOC_DEVFN(0,0),
.name = "AUX connector40",
},
{ .etype = st_end }
};
static const struct slot_table_entry vesnin_phb_table[] = {
{
.etype = st_phb,
.location = ST_LOC_PHB(CHIP_ID_CPU0,0),
.children = vesnin_phb0_0_slot,
},
{
.etype = st_phb,
.location = ST_LOC_PHB(CHIP_ID_CPU0,1),
.children = vesnin_phb0_1_slot,
},
{
.etype = st_phb,
.location = ST_LOC_PHB(CHIP_ID_CPU0,2),
.children = vesnin_phb0_2_slot,
},
{
.etype = st_phb,
.location = ST_LOC_PHB(CHIP_ID_CPU1,0),
.children = vesnin_phb8_0_slot,
},
{
.etype = st_phb,
.location = ST_LOC_PHB(CHIP_ID_CPU1,1),
.children = vesnin_phb8_1_slot,
},
{
.etype = st_phb,
.location = ST_LOC_PHB(CHIP_ID_CPU2,0),
.children = vesnin_phb9_0_slot,
},
{
.etype = st_phb,
.location = ST_LOC_PHB(CHIP_ID_CPU2,1),
.children = vesnin_phb9_1_slot,
},
{
.etype = st_phb,
.location = ST_LOC_PHB(CHIP_ID_CPU2,2),
.children = vesnin_phb9_2_slot,
},
{
.etype = st_phb,
.location = ST_LOC_PHB(CHIP_ID_CPU3,0),
.children = vesnin_phbA_0_slot,
},
{
.etype = st_phb,
.location = ST_LOC_PHB(CHIP_ID_CPU3,1),
.children = vesnin_phbA_1_slot,
},
{ .etype = st_end }
};
/**
* pciinv_walk() - Callback from PCI enumerator, see :c:func:`pci_walk_dev`.
* User data parameter is interpreted as a pointer to pciinv_message structure.
*/
static int pciinv_walk(struct phb *phb, struct pci_device *pd, void *data)
{
struct ipmi_msg *msg;
struct pciinv_message* pack = (struct pciinv_message*)data;
/* PCI device filter: Skip non-EP devices */
if (pci_has_cap(pd, PCI_CFG_CAP_ID_EXP, false)) {
if (pd->dev_type != PCIE_TYPE_ENDPOINT)
return OPAL_SUCCESS;
}
else if (pd->is_bridge)
return OPAL_SUCCESS;
/* Fill the PCI device inventory description */
pack->device.domain_num = cpu_to_be16(phb->opal_id & 0xffff);
pack->device.bus_num = (pd->bdfn >> 8) & 0xff;
pack->device.device_num = (pd->bdfn >> 3) & 0x1f;
pack->device.func_num = pd->bdfn & 0x7;
pack->device.vendor_id = cpu_to_be16(PCI_VENDOR_ID(pd->vdid));
pack->device.device_id = cpu_to_be16(PCI_DEVICE_ID(pd->vdid));
pack->device.class_code = cpu_to_be32(pd->class & 0xffffff);
pci_cfg_read8(phb, pd->bdfn, PCI_CFG_REV_ID, &pack->device.revision);
msg = ipmi_mkmsg_simple(PCIINV_IPMI_CODE, pack, sizeof(*pack));
if (!msg)
return OPAL_HARDWARE;
ipmi_queue_msg(msg);
/* Disable reset flag for further messages in the current session. */
pack->reset = 0;
return OPAL_SUCCESS;
}
static void vesnin_pci_probe_complete(void)
{
struct phb *phb;
/* IPMI message packet instance.
* PCI device description will be filled in the PCI enumerator, see
* `pciinv_walk()` function.
* For each first message in a session, the Reset flag is turned on,
* this indicates that the list of existing PCI devices must be
* cleaned. */
struct pciinv_message pack = {
.iana = {
PCIINV_OEM_IANA & 0xff,
(PCIINV_OEM_IANA >> 8) & 0xff,
(PCIINV_OEM_IANA >> 16) & 0xff
},
.reset = 1
};
check_all_slot_table();
/* Send PCI device list to the BMC */
prlog(PR_INFO, "Send PCI device list\n");
for_each_phb(phb) {
pci_walk_dev(phb, NULL, &pciinv_walk, &pack);
}
}
static bool vesnin_probe(void)
{
if (!dt_node_is_compatible(dt_root, "YADRO,vesnin"))
return false;
/* Lot of common early inits here */
astbmc_early_init();
slot_table_init(vesnin_phb_table);
return true;
}
DECLARE_PLATFORM(vesnin) = {
.name = "vesnin",
.bmc = &bmc_plat_ast2400_ami,
.probe = vesnin_probe,
.init = astbmc_init,
.pci_get_slot_info = slot_table_get_slot_info,
.pci_probe_complete = vesnin_pci_probe_complete,
.external_irq = astbmc_ext_irq_serirq_cpld,
.cec_power_down = astbmc_ipmi_power_down,
.cec_reboot = astbmc_ipmi_reboot,
.elog_commit = ipmi_elog_commit,
.start_preload_resource = flash_start_preload_resource,
.resource_loaded = flash_resource_loaded,
.exit = ipmi_wdt_final_reset,
.terminate = ipmi_terminate,
.op_display = op_display_lpc,
};
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