2018-02-20 20:30:22 +07:00
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// SPDX-License-Identifier: GPL-2.0+
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2017-06-10 09:19:52 +07:00
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/*
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* A hack to create a platform device from a DMI entry. This will
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* allow autoloading of the IPMI drive based on SMBIOS entries.
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*/
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2018-06-22 03:25:21 +07:00
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#define pr_fmt(fmt) "%s" fmt, "ipmi:dmi: "
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#define dev_fmt pr_fmt
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2017-06-10 09:19:52 +07:00
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#include <linux/ipmi.h>
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#include <linux/init.h>
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#include <linux/dmi.h>
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#include <linux/platform_device.h>
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#include <linux/property.h>
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2017-09-19 00:38:17 +07:00
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#include "ipmi_si_sm.h"
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2017-06-10 09:19:52 +07:00
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#include "ipmi_dmi.h"
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2019-02-22 03:21:17 +07:00
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#include "ipmi_plat_data.h"
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2017-06-10 09:19:52 +07:00
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2017-09-19 00:38:17 +07:00
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#define IPMI_DMI_TYPE_KCS 0x01
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#define IPMI_DMI_TYPE_SMIC 0x02
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#define IPMI_DMI_TYPE_BT 0x03
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#define IPMI_DMI_TYPE_SSIF 0x04
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2017-06-10 09:19:52 +07:00
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struct ipmi_dmi_info {
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enum si_type si_type;
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unsigned int space; /* addr space for si, intf# for ssif */
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unsigned long addr;
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u8 slave_addr;
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struct ipmi_dmi_info *next;
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};
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static struct ipmi_dmi_info *ipmi_dmi_infos;
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static int ipmi_dmi_nr __initdata;
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static void __init dmi_add_platform_ipmi(unsigned long base_addr,
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unsigned int space,
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u8 slave_addr,
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int irq,
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int offset,
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int type)
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{
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const char *name;
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struct ipmi_dmi_info *info;
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struct ipmi_plat_data p;
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memset(&p, 0, sizeof(p));
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name = "dmi-ipmi-si";
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2019-04-24 20:32:02 +07:00
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p.iftype = IPMI_PLAT_IF_SI;
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switch (type) {
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case IPMI_DMI_TYPE_SSIF:
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name = "dmi-ipmi-ssif";
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p.iftype = IPMI_PLAT_IF_SSIF;
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p.type = SI_TYPE_INVALID;
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break;
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case IPMI_DMI_TYPE_BT:
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p.type = SI_BT;
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break;
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case IPMI_DMI_TYPE_KCS:
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p.type = SI_KCS;
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break;
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case IPMI_DMI_TYPE_SMIC:
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p.type = SI_SMIC;
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break;
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default:
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pr_err("Invalid IPMI type: %d\n", type);
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return;
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}
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2019-02-22 03:21:17 +07:00
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p.addr = base_addr;
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p.space = space;
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p.regspacing = offset;
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p.irq = irq;
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p.slave_addr = slave_addr;
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p.addr_source = SI_SMBIOS;
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info = kmalloc(sizeof(*info), GFP_KERNEL);
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if (!info) {
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pr_warn("Could not allocate dmi info\n");
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} else {
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info->si_type = p.type;
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info->space = space;
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info->addr = base_addr;
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info->slave_addr = slave_addr;
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info->next = ipmi_dmi_infos;
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ipmi_dmi_infos = info;
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}
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2019-02-22 03:21:17 +07:00
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if (ipmi_platform_add(name, ipmi_dmi_nr, &p))
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ipmi_dmi_nr++;
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}
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/*
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* Look up the slave address for a given interface. This is here
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* because ACPI doesn't have a slave address while SMBIOS does, but we
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* prefer using ACPI so the ACPI code can use the IPMI namespace.
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* This function allows an ACPI-specified IPMI device to look up the
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* slave address from the DMI table.
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*/
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int ipmi_dmi_get_slave_addr(enum si_type si_type, unsigned int space,
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unsigned long base_addr)
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{
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struct ipmi_dmi_info *info = ipmi_dmi_infos;
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while (info) {
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if (info->si_type == si_type &&
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info->space == space &&
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info->addr == base_addr)
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return info->slave_addr;
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info = info->next;
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}
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return 0;
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}
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EXPORT_SYMBOL(ipmi_dmi_get_slave_addr);
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#define DMI_IPMI_MIN_LENGTH 0x10
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#define DMI_IPMI_VER2_LENGTH 0x12
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#define DMI_IPMI_TYPE 4
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#define DMI_IPMI_SLAVEADDR 6
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#define DMI_IPMI_ADDR 8
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#define DMI_IPMI_ACCESS 0x10
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#define DMI_IPMI_IRQ 0x11
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#define DMI_IPMI_IO_MASK 0xfffe
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static void __init dmi_decode_ipmi(const struct dmi_header *dm)
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{
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const u8 *data = (const u8 *) dm;
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int space = IPMI_IO_ADDR_SPACE;
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unsigned long base_addr;
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u8 len = dm->length;
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u8 slave_addr;
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int irq = 0, offset = 0;
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int type;
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if (len < DMI_IPMI_MIN_LENGTH)
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return;
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type = data[DMI_IPMI_TYPE];
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slave_addr = data[DMI_IPMI_SLAVEADDR];
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memcpy(&base_addr, data + DMI_IPMI_ADDR, sizeof(unsigned long));
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2018-06-22 03:32:48 +07:00
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if (!base_addr) {
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pr_err("Base address is zero, assuming no IPMI interface\n");
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return;
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}
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if (len >= DMI_IPMI_VER2_LENGTH) {
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if (type == IPMI_DMI_TYPE_SSIF) {
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space = 0; /* Match I2C interface 0. */
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base_addr = data[DMI_IPMI_ADDR] >> 1;
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if (base_addr == 0) {
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/*
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* Some broken systems put the I2C address in
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* the slave address field. We try to
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* accommodate them here.
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*/
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base_addr = data[DMI_IPMI_SLAVEADDR] >> 1;
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slave_addr = 0;
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}
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} else {
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if (base_addr & 1) {
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/* I/O */
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base_addr &= DMI_IPMI_IO_MASK;
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} else {
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/* Memory */
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space = IPMI_MEM_ADDR_SPACE;
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}
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/*
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* If bit 4 of byte 0x10 is set, then the lsb
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* for the address is odd.
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*/
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base_addr |= (data[DMI_IPMI_ACCESS] >> 4) & 1;
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irq = data[DMI_IPMI_IRQ];
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/*
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* The top two bits of byte 0x10 hold the
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* register spacing.
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*/
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switch ((data[DMI_IPMI_ACCESS] >> 6) & 3) {
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case 0: /* Byte boundaries */
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offset = 1;
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break;
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case 1: /* 32-bit boundaries */
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offset = 4;
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break;
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case 2: /* 16-byte boundaries */
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offset = 16;
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break;
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default:
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2018-06-22 03:25:21 +07:00
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pr_err("Invalid offset: 0\n");
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return;
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}
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}
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} else {
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/* Old DMI spec. */
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/*
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* Note that technically, the lower bit of the base
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* address should be 1 if the address is I/O and 0 if
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* the address is in memory. So many systems get that
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* wrong (and all that I have seen are I/O) so we just
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* ignore that bit and assume I/O. Systems that use
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* memory should use the newer spec, anyway.
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*/
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base_addr = base_addr & DMI_IPMI_IO_MASK;
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offset = 1;
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}
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2019-02-22 03:21:17 +07:00
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dmi_add_platform_ipmi(base_addr, space, slave_addr, irq,
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2017-06-10 09:19:52 +07:00
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offset, type);
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}
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static int __init scan_for_dmi_ipmi(void)
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{
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const struct dmi_device *dev = NULL;
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while ((dev = dmi_find_device(DMI_DEV_TYPE_IPMI, NULL, dev)))
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dmi_decode_ipmi((const struct dmi_header *) dev->device_data);
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return 0;
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}
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subsys_initcall(scan_for_dmi_ipmi);
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