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/* SPDX-License-Identifier: GPL-2.0-only */
#include <acpi/acpi.h>
#include <arch/ioapic.h>
#include <arch/smp/mpspec.h>
#include <console/console.h>
#include <cpu/cpu.h>
#include <cpu/x86/lapic.h>
#include <device/device.h>
#include <device/path.h>
#include <device/pci_def.h>
#include <device/pci_ids.h>
#include <identity.h>
#include <stdint.h>
#include <string.h>
#if CONFIG(ECAM_MMCONF_SUPPORT) && PCI_SEGMENT_GROUP_COUNT > 1
#error "MPTable doesn't support systems with multiple PCI segment groups"
#endif
/* Initialize the specified "mc" struct with initial values. */
void mptable_init(struct mp_config_table *mc)
{
int i;
u32 lapic_addr = cpu_get_lapic_addr();
memset(mc, 0, sizeof(*mc));
memcpy(mc->mpc_signature, MPC_SIGNATURE, 4);
mc->mpc_length = sizeof(*mc); /* Initially just the header size. */
mc->mpc_spec = 0x04; /* MultiProcessor specification 1.4 */
mc->mpc_checksum = 0; /* Not yet computed. */
mc->mpc_oemptr = 0;
mc->mpc_oemsize = 0;
mc->mpc_entry_count = 0; /* No entries yet... */
mc->mpc_lapic = lapic_addr;
mc->mpe_length = 0;
mc->mpe_checksum = 0;
mc->reserved = 0;
strncpy(mc->mpc_oem, mainboard_vendor, 8);
strncpy(mc->mpc_productid, mainboard_part_number, 12);
/*
* The oem/productid fields are exactly 8/12 bytes long. If the resp.
* entry is shorter, the remaining bytes are filled with spaces.
*/
for (i = MIN(strlen(mainboard_vendor), 8); i < 8; i++)
mc->mpc_oem[i] = ' ';
for (i = MIN(strlen(mainboard_part_number), 12); i < 12; i++)
mc->mpc_productid[i] = ' ';
}
static unsigned char smp_compute_checksum(void *v, int len)
{
unsigned char *bytes;
unsigned char checksum;
int i;
bytes = v;
checksum = 0;
for (i = 0; i < len; i++)
checksum -= bytes[i];
return checksum;
}
static void *smp_write_floating_table_physaddr(uintptr_t addr,
uintptr_t mpf_physptr, unsigned int virtualwire)
{
struct intel_mp_floating *mf;
void *v;
v = (void *)addr;
mf = v;
mf->mpf_signature[0] = '_';
mf->mpf_signature[1] = 'M';
mf->mpf_signature[2] = 'P';
mf->mpf_signature[3] = '_';
mf->mpf_physptr = mpf_physptr;
mf->mpf_length = 1;
mf->mpf_specification = 4;
mf->mpf_checksum = 0;
mf->mpf_feature1 = 0;
mf->mpf_feature2 = virtualwire?MP_FEATURE_PIC:MP_FEATURE_VIRTUALWIRE;
mf->mpf_feature3 = 0;
mf->mpf_feature4 = 0;
mf->mpf_feature5 = 0;
mf->mpf_checksum = smp_compute_checksum(mf, mf->mpf_length*16);
return v;
}
void *smp_write_floating_table(unsigned long addr, unsigned int virtualwire)
{
/* 16 byte align the table address */
addr = (addr + 0xf) & (~0xf);
return smp_write_floating_table_physaddr(addr, addr
+ SMP_FLOATING_TABLE_LEN, virtualwire);
}
void *smp_next_mpc_entry(struct mp_config_table *mc)
{
void *v;
v = (void *)(((char *)mc) + mc->mpc_length);
return v;
}
static void smp_add_mpc_entry(struct mp_config_table *mc, u16 length)
{
mc->mpc_length += length;
mc->mpc_entry_count++;
}
void *smp_next_mpe_entry(struct mp_config_table *mc)
{
void *v;
v = (void *)(((char *)mc) + mc->mpc_length + mc->mpe_length);
return v;
}
static void smp_add_mpe_entry(struct mp_config_table *mc, mpe_t mpe)
{
mc->mpe_length += mpe->mpe_length;
}
/*
* Type 0: Processor Entries:
* Entry Type, LAPIC ID, LAPIC Version, CPU Flags EN/BP,
* CPU Signature (Stepping, Model, Family), Feature Flags
*/
void smp_write_processor(struct mp_config_table *mc,
u8 apicid, u8 apicver, u8 cpuflag,
u32 cpufeature, u32 featureflag)
{
struct mpc_config_processor *mpc;
mpc = smp_next_mpc_entry(mc);
memset(mpc, '\0', sizeof(*mpc));
mpc->mpc_type = MP_PROCESSOR;
mpc->mpc_apicid = apicid;
mpc->mpc_apicver = apicver;
mpc->mpc_cpuflag = cpuflag;
mpc->mpc_cpufeature = cpufeature;
mpc->mpc_featureflag = featureflag;
smp_add_mpc_entry(mc, sizeof(*mpc));
}
/*
* If we assume a symmetric processor configuration we can
* get all of the information we need to write the processor
* entry from the bootstrap processor.
* Plus I don't think linux really even cares.
* Having the proper apicid's in the table so the non-bootstrap
* processors can be woken up should be enough.
*/
void smp_write_processors(struct mp_config_table *mc)
{
int boot_apic_id;
int order_id;
unsigned int apic_version;
unsigned int cpu_features;
unsigned int cpu_feature_flags;
struct device *cpu;
boot_apic_id = lapicid();
apic_version = lapic_read(LAPIC_LVR) & 0xff;
cpu_features = cpu_get_cpuid();
cpu_feature_flags = cpu_get_feature_flags_edx();
/* order the output of the cpus to fix a bug in kernel 2.6.11 */
for (order_id = 0; order_id < 256; order_id++) {
for (cpu = all_devices; cpu; cpu = cpu->next) {
unsigned long cpu_flag;
if (!is_enabled_cpu(cpu))
continue;
cpu_flag = MPC_CPU_ENABLED;
if (boot_apic_id == cpu->path.apic.apic_id)
cpu_flag = MPC_CPU_ENABLED
| MPC_CPU_BOOTPROCESSOR;
if (cpu->path.apic.apic_id == order_id) {
smp_write_processor(mc,
cpu->path.apic.apic_id, apic_version,
cpu_flag, cpu_features,
cpu_feature_flags
);
break;
}
}
}
}
/*
* Type 1: Bus Entries:
* Entry Type, Bus ID, Bus Type
*/
static void smp_write_bus(struct mp_config_table *mc,
u8 id, const char *bustype)
{
struct mpc_config_bus *mpc;
mpc = smp_next_mpc_entry(mc);
memset(mpc, '\0', sizeof(*mpc));
mpc->mpc_type = MP_BUS;
mpc->mpc_busid = id;
memcpy(mpc->mpc_bustype, bustype, sizeof(mpc->mpc_bustype));
smp_add_mpc_entry(mc, sizeof(*mpc));
}
/*
* Type 2: I/O APIC Entries:
* Entry Type, APIC ID, Version,
* APIC Flags:EN, Address
*/
void smp_write_ioapic(struct mp_config_table *mc,
u8 id, u8 ver, void *apicaddr)
{
struct mpc_config_ioapic *mpc;
mpc = smp_next_mpc_entry(mc);
memset(mpc, '\0', sizeof(*mpc));
mpc->mpc_type = MP_IOAPIC;
mpc->mpc_apicid = id;
mpc->mpc_apicver = ver;
mpc->mpc_flags = MPC_APIC_USABLE;
mpc->mpc_apicaddr = apicaddr;
smp_add_mpc_entry(mc, sizeof(*mpc));
}
u8 smp_write_ioapic_from_hw(struct mp_config_table *mc, void *apicaddr)
{
u8 id = get_ioapic_id(apicaddr);
u8 ver = get_ioapic_version(apicaddr);
smp_write_ioapic(mc, id, ver, apicaddr);
return id;
}
/*
* Type 3: I/O Interrupt Table Entries:
* Entry Type, Int Type, Int Polarity, Int Level,
* Source Bus ID, Source Bus IRQ, Dest APIC ID, Dest PIN#
*/
void smp_write_intsrc(struct mp_config_table *mc,
u8 irqtype, u16 irqflag,
u8 srcbus, u8 srcbusirq,
u8 dstapic, u8 dstirq)
{
struct mpc_config_intsrc *mpc;
mpc = smp_next_mpc_entry(mc);
memset(mpc, '\0', sizeof(*mpc));
mpc->mpc_type = MP_INTSRC;
mpc->mpc_irqtype = irqtype;
mpc->mpc_irqflag = irqflag;
mpc->mpc_srcbus = srcbus;
mpc->mpc_srcbusirq = srcbusirq;
mpc->mpc_dstapic = dstapic;
mpc->mpc_dstirq = dstirq;
smp_add_mpc_entry(mc, sizeof(*mpc));
}
/*
* Type 3: I/O Interrupt Table Entries for PCI Devices:
* This has the same fields as 'Type 3: I/O Interrupt Table Entries'
* but the Source Bus IRQ field has a slightly different
* definition:
* Bits 1-0: PIRQ pin: INT_A# = 0, INT_B# = 1, INT_C# = 2, INT_D# = 3
* Bits 2-6: Originating PCI Device Number (Not its parent bridge device number)
* Bit 7: Reserved
*/
void smp_write_pci_intsrc(struct mp_config_table *mc,
u8 irqtype, u8 srcbus, u8 dev, u8 pirq,
u8 dstapic, u8 dstirq)
{
u8 srcbusirq = (dev << 2) | pirq;
printk(BIOS_SPEW,
"\tPCI srcbusirq = 0x%x from dev = 0x%x and pirq = %x\n",
srcbusirq, dev, pirq);
smp_write_intsrc(mc, irqtype, MP_IRQ_TRIGGER_LEVEL
| MP_IRQ_POLARITY_LOW, srcbus, srcbusirq, dstapic, dstirq);
}
void smp_write_intsrc_pci_bridge(struct mp_config_table *mc,
u8 irqtype, u16 irqflag, struct device *dev,
unsigned char dstapic, unsigned char *dstirq)
{
struct device *child;
int i;
int srcbus;
int slot;
struct bus *link;
unsigned char dstirq_x[4];
for (link = dev->link_list; link; link = link->next) {
child = link->children;
srcbus = link->secondary;
while (child) {
if (child->path.type != DEVICE_PATH_PCI)
goto next;
slot = (child->path.pci.devfn >> 3);
/* round pins */
for (i = 0; i < 4; i++)
dstirq_x[i] = dstirq[(i + slot) % 4];
if ((child->class >> 16) != PCI_BASE_CLASS_BRIDGE) {
/* pci device */
printk(BIOS_DEBUG, "route irq: %s\n",
dev_path(child));
for (i = 0; i < 4; i++)
smp_write_intsrc(mc, irqtype, irqflag,
srcbus, (slot<<2)|i, dstapic,
dstirq_x[i]);
goto next;
}
switch (child->class>>8) {
case PCI_CLASS_BRIDGE_PCI:
case PCI_CLASS_BRIDGE_PCMCIA:
case PCI_CLASS_BRIDGE_CARDBUS:
printk(BIOS_DEBUG, "route irq bridge: %s\n",
dev_path(child));
smp_write_intsrc_pci_bridge(mc, irqtype,
irqflag, child, dstapic, dstirq_x);
}
next:
child = child->sibling;
}
}
}
/*
* Type 4: Local Interrupt Assignment Entries:
* Entry Type, Int Type, Int Polarity, Int Level,
* Source Bus ID, Source Bus IRQ, Dest LAPIC ID,
* Dest LAPIC LINTIN#
*/
void smp_write_lintsrc(struct mp_config_table *mc,
u8 irqtype, u16 irqflag,
u8 srcbusid, u8 srcbusirq,
u8 destapic, u8 destapiclint)
{
struct mpc_config_lintsrc *mpc;
mpc = smp_next_mpc_entry(mc);
memset(mpc, '\0', sizeof(*mpc));
mpc->mpc_type = MP_LINTSRC;
mpc->mpc_irqtype = irqtype;
mpc->mpc_irqflag = irqflag;
mpc->mpc_srcbusid = srcbusid;
mpc->mpc_srcbusirq = srcbusirq;
mpc->mpc_destapic = destapic;
mpc->mpc_destapiclint = destapiclint;
smp_add_mpc_entry(mc, sizeof(*mpc));
}
/*
* Type 128: System Address Space Mapping Entries
* Entry Type, Entry Length, Bus ID, Address Type,
* Address Base Lo/Hi, Address Length Lo/Hi
*/
void smp_write_address_space(struct mp_config_table *mc,
u8 busid, u8 address_type,
u32 address_base_low, u32 address_base_high,
u32 address_length_low, u32 address_length_high)
{
struct mp_exten_system_address_space *mpe;
mpe = smp_next_mpe_entry(mc);
memset(mpe, '\0', sizeof(*mpe));
mpe->mpe_type = MPE_SYSTEM_ADDRESS_SPACE;
mpe->mpe_length = sizeof(*mpe);
mpe->mpe_busid = busid;
mpe->mpe_address_type = address_type;
mpe->mpe_address_base_low = address_base_low;
mpe->mpe_address_base_high = address_base_high;
mpe->mpe_address_length_low = address_length_low;
mpe->mpe_address_length_high = address_length_high;
smp_add_mpe_entry(mc, (mpe_t)mpe);
}
/*
* Type 129: Bus Hierarchy Descriptor Entry
* Entry Type, Entry Length, Bus ID, Bus Info,
* Parent Bus ID
*/
void smp_write_bus_hierarchy(struct mp_config_table *mc,
u8 busid, u8 bus_info, u8 parent_busid)
{
struct mp_exten_bus_hierarchy *mpe;
mpe = smp_next_mpe_entry(mc);
memset(mpe, '\0', sizeof(*mpe));
mpe->mpe_type = MPE_BUS_HIERARCHY;
mpe->mpe_length = sizeof(*mpe);
mpe->mpe_busid = busid;
mpe->mpe_bus_info = bus_info;
mpe->mpe_parent_busid = parent_busid;
smp_add_mpe_entry(mc, (mpe_t)mpe);
}
/*
* Type 130: Compatibility Bus Address Space Modifier Entry
* Entry Type, Entry Length, Bus ID, Address Modifier
* Predefined Range List
*/
void smp_write_compatibility_address_space(struct mp_config_table *mc,
u8 busid, u8 address_modifier,
u32 range_list)
{
struct mp_exten_compatibility_address_space *mpe;
mpe = smp_next_mpe_entry(mc);
memset(mpe, '\0', sizeof(*mpe));
mpe->mpe_type = MPE_COMPATIBILITY_ADDRESS_SPACE;
mpe->mpe_length = sizeof(*mpe);
mpe->mpe_busid = busid;
mpe->mpe_address_modifier = address_modifier;
mpe->mpe_range_list = range_list;
smp_add_mpe_entry(mc, (mpe_t)mpe);
}
void mptable_lintsrc(struct mp_config_table *mc, unsigned long bus_isa)
{
smp_write_lintsrc(mc, mp_ExtINT, MP_IRQ_TRIGGER_EDGE
| MP_IRQ_POLARITY_HIGH, bus_isa, 0x0, MP_APIC_ALL, 0x0);
smp_write_lintsrc(mc, mp_NMI, MP_IRQ_TRIGGER_EDGE
| MP_IRQ_POLARITY_HIGH, bus_isa, 0x0, MP_APIC_ALL, 0x1);
}
void mptable_add_isa_interrupts(struct mp_config_table *mc,
unsigned long bus_isa, unsigned long apicid, int external_int2)
{
/*I/O Ints: Type Trigger Polarity
* Bus ID IRQ APIC ID PIN# */
smp_write_intsrc(mc, external_int2?mp_INT:mp_ExtINT,
MP_IRQ_TRIGGER_EDGE | MP_IRQ_POLARITY_HIGH,
bus_isa, 0x0, apicid, 0x0);
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_EDGE | MP_IRQ_POLARITY_HIGH,
bus_isa, 0x1, apicid, 0x1);
smp_write_intsrc(mc, external_int2?mp_ExtINT:mp_INT,
MP_IRQ_TRIGGER_EDGE | MP_IRQ_POLARITY_HIGH,
bus_isa, 0x0, apicid, 0x2);
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_EDGE | MP_IRQ_POLARITY_HIGH,
bus_isa, 0x3, apicid, 0x3);
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_EDGE | MP_IRQ_POLARITY_HIGH,
bus_isa, 0x4, apicid, 0x4);
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_EDGE | MP_IRQ_POLARITY_HIGH,
bus_isa, 0x6, apicid, 0x6);
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_EDGE | MP_IRQ_POLARITY_HIGH,
bus_isa, 0x7, apicid, 0x7);
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_EDGE | MP_IRQ_POLARITY_HIGH,
bus_isa, 0x8, apicid, 0x8);
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_EDGE | MP_IRQ_POLARITY_HIGH,
bus_isa, 0x9, apicid, 0x9);
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_EDGE | MP_IRQ_POLARITY_HIGH,
bus_isa, 0xa, apicid, 0xa);
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_EDGE | MP_IRQ_POLARITY_HIGH,
bus_isa, 0xb, apicid, 0xb);
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_EDGE | MP_IRQ_POLARITY_HIGH,
bus_isa, 0xc, apicid, 0xc);
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_EDGE | MP_IRQ_POLARITY_HIGH,
bus_isa, 0xd, apicid, 0xd);
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_EDGE | MP_IRQ_POLARITY_HIGH,
bus_isa, 0xe, apicid, 0xe);
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_EDGE | MP_IRQ_POLARITY_HIGH,
bus_isa, 0xf, apicid, 0xf);
}
void mptable_write_buses(struct mp_config_table *mc, int *max_pci_bus,
int *isa_bus)
{
int dummy, i, highest;
char buses[256];
struct device *dev;
if (!max_pci_bus)
max_pci_bus = &dummy;
if (!isa_bus)
isa_bus = &dummy;
*max_pci_bus = 0;
highest = 0;
memset(buses, 0, sizeof(buses));
for (dev = all_devices; dev; dev = dev->next) {
struct bus *bus;
for (bus = dev->link_list; bus; bus = bus->next) {
if (bus->secondary > 255) {
printk(BIOS_ERR,
"A bus claims to have a bus ID > 255?!? Aborting");
return;
}
buses[bus->secondary] = 1;
if (highest < bus->secondary)
highest = bus->secondary;
}
}
for (i = 0; i <= highest; i++) {
if (buses[i]) {
smp_write_bus(mc, i, "PCI ");
*max_pci_bus = i;
}
}
*isa_bus = *max_pci_bus + 1;
smp_write_bus(mc, *isa_bus, "ISA ");
}
void *mptable_finalize(struct mp_config_table *mc)
{
mc->mpe_checksum = smp_compute_checksum(smp_next_mpc_entry(mc),
mc->mpe_length);
mc->mpc_checksum = smp_compute_checksum(mc, mc->mpc_length);
printk(BIOS_DEBUG, "Wrote the mp table end at: %p - %p\n",
mc, smp_next_mpe_entry(mc));
return smp_next_mpe_entry(mc);
}
|