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|
/*
* This file is part of the coreboot project.
*
* Copyright (C) 2010 Advanced Micro Devices, Inc.
* Copyright (C) 2015 Timothy Pearson <tpearson@raptorengineeringinc.com>, Raptor Engineering
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#include <console/console.h>
#include <arch/io.h>
#include <device/device.h>
#include <device/pci.h>
#include <device/pci_ids.h>
#include <device/pci_ops.h>
#include <cpu/x86/msr.h>
#include <cpu/amd/mtrr.h>
#include <stdlib.h>
#include <delay.h>
#include <option.h>
#include "sr5650.h"
#include "cmn.h"
/*
* extern function declaration
*/
extern void set_pcie_dereset(void);
extern void set_pcie_reset(void);
struct resource * sr5650_retrieve_cpu_mmio_resource() {
device_t domain;
struct resource *res;
for (domain = all_devices; domain; domain = domain->next) {
if (domain->bus->dev->path.type != DEVICE_PATH_DOMAIN)
continue;
res = probe_resource(domain->bus->dev, 0xc0010058);
if (res)
return res;
}
return NULL;
}
/* extension registers */
u32 pci_ext_read_config32(device_t nb_dev, device_t dev, u32 reg)
{
/*get BAR3 base address for nbcfg0x1c */
u32 addr = pci_read_config32(nb_dev, 0x1c) & ~0xF;
printk(BIOS_DEBUG, "addr=%x,bus=%x,devfn=%x\n", addr, dev->bus->secondary,
dev->path.pci.devfn);
addr |= dev->bus->secondary << 20 | /* bus num */
dev->path.pci.devfn << 12 | reg;
return *((u32 *) addr);
}
void pci_ext_write_config32(device_t nb_dev, device_t dev, u32 reg_pos, u32 mask, u32 val)
{
u32 reg_old, reg;
/*get BAR3 base address for nbcfg0x1c */
u32 addr = pci_read_config32(nb_dev, 0x1c) & ~0xF;
/*printk(BIOS_DEBUG, "write: addr=%x,bus=%x,devfn=%x\n", addr, dev->bus->secondary,
dev->path.pci.devfn);*/
addr |= dev->bus->secondary << 20 | /* bus num */
dev->path.pci.devfn << 12 | reg_pos;
reg = reg_old = *((u32 *) addr);
reg &= ~mask;
reg |= val;
if (reg != reg_old) {
*((u32 *) addr) = reg;
}
}
u32 nbpcie_p_read_index(device_t dev, u32 index)
{
return nb_read_index((dev), NBPCIE_INDEX, (index));
}
void nbpcie_p_write_index(device_t dev, u32 index, u32 data)
{
nb_write_index((dev), NBPCIE_INDEX, (index), (data));
}
u32 nbpcie_ind_read_index(device_t nb_dev, u32 index)
{
return nb_read_index((nb_dev), NBPCIE_INDEX, (index));
}
void nbpcie_ind_write_index(device_t nb_dev, u32 index, u32 data)
{
nb_write_index((nb_dev), NBPCIE_INDEX, (index), (data));
}
uint32_t l2cfg_ind_read_index(device_t nb_dev, uint32_t index)
{
return nb_read_index((nb_dev), L2CFG_INDEX, (index));
}
void l2cfg_ind_write_index(device_t nb_dev, uint32_t index, uint32_t data)
{
nb_write_index((nb_dev), L2CFG_INDEX | (0x1 << 8), (index), (data));
}
uint32_t l1cfg_ind_read_index(device_t nb_dev, uint32_t index)
{
return nb_read_index((nb_dev), L1CFG_INDEX, (index));
}
void l1cfg_ind_write_index(device_t nb_dev, uint32_t index, uint32_t data)
{
nb_write_index((nb_dev), L1CFG_INDEX | (0x1 << 31), (index), (data));
}
/***********************************************************
* To access bar3 we need to program PCI MMIO 7 in K8.
* in_out:
* 1: enable/enter k8 temp mmio base
* 0: disable/restore
***********************************************************/
void ProgK8TempMmioBase(u8 in_out, u32 pcie_base_add, u32 mmio_base_add)
{
/* K8 Function1 is address map */
device_t k8_f1 = dev_find_slot(0, PCI_DEVFN(0x18, 1));
device_t k8_f0 = dev_find_slot(0, PCI_DEVFN(0x18, 0));
if (in_out) {
u32 dword, sblk;
/* Get SBLink value (HyperTransport I/O Hub Link ID). */
dword = pci_read_config32(k8_f0, 0x64);
sblk = (dword >> 8) & 0x3;
/* Fill MMIO limit/base pair. */
pci_write_config32(k8_f1, 0xbc,
(((pcie_base_add + 0x10000000 -
1) >> 8) & 0xffffff00) | 0x80 | (sblk << 4));
pci_write_config32(k8_f1, 0xb8, (pcie_base_add >> 8) | 0x3);
pci_write_config32(k8_f1, 0xb4,
(((mmio_base_add + 0x10000000 -
1) >> 8) & 0xffffff00) | (sblk << 4));
pci_write_config32(k8_f1, 0xb0, (mmio_base_add >> 8) | 0x3);
} else {
pci_write_config32(k8_f1, 0xb8, 0);
pci_write_config32(k8_f1, 0xbc, 0);
pci_write_config32(k8_f1, 0xb0, 0);
pci_write_config32(k8_f1, 0xb4, 0);
}
}
void PcieReleasePortTraining(device_t nb_dev, device_t dev, u32 port)
{
switch (port) {
case 2: /* GPP1, bit4-5 */
case 3:
set_nbmisc_enable_bits(nb_dev, PCIE_LINK_CFG,
1 << (port + 2), 0 << (port + 2));
break;
case 4: /* GPP3a, bit20-24 */
case 5:
case 6:
case 7:
set_nbmisc_enable_bits(nb_dev, PCIE_LINK_CFG,
1 << (port + 17), 0 << (port + 17));
break;
case 9: /* GPP3a, bit25,26 */
case 10:
set_nbmisc_enable_bits(nb_dev, PCIE_LINK_CFG,
1 << (port + 16), 0 << (port + 16));
break;
case 11: /* GPP2, bit6-7 */
case 12:
set_nbmisc_enable_bits(nb_dev, PCIE_LINK_CFG,
1 << (port - 5), 0 << (port - 5));
break;
case 13: /* GPP3b, bit4 of NBMISCIND:0x2A */
set_nbmisc_enable_bits(nb_dev, 0x2A,
1 << 4, 0 << 4);
break;
}
}
/********************************************************************************************************
* Output:
* 0: no device is present.
* 1: device is present and is trained.
********************************************************************************************************/
u8 PcieTrainPort(device_t nb_dev, device_t dev, u32 port)
{
u16 count = 5000;
u32 lc_state, reg, current_link_width, lane_mask;
u8 current, res = 0;
u32 gpp_sb_sel = 0;
switch (port) {
case 2:
case 3:
gpp_sb_sel = PCIE_CORE_INDEX_GPP1;
break;
case 4 ... 7:
case 9:
case 10:
gpp_sb_sel = PCIE_CORE_INDEX_GPP3a;
break;
case 11:
case 12:
gpp_sb_sel = PCIE_CORE_INDEX_GPP2;
break;
case 13:
gpp_sb_sel = PCIE_CORE_INDEX_GPP3b;
break;
}
while (count--) {
udelay(40200);
lc_state = nbpcie_p_read_index(dev, 0xa5); /* lc_state */
printk(BIOS_DEBUG, "PcieLinkTraining port=%x:lc current state=%x\n",
port, lc_state);
current = lc_state & 0x3f; /* get LC_CURRENT_STATE, bit0-5 */
switch (current) {
/* 0x00-0x04 means no device is present */
case 0x06:
/* read back current link width [6:4]. */
current_link_width = (nbpcie_p_read_index(dev, 0xA2) >> 4) & 0x7;
/* 4 means 7:4 and 15:12
* 3 means 7:2 and 15:10
* 2 means 7:1 and 15:9
* ignoring the reversal case
*/
lane_mask = (0xFF << (current_link_width - 2) * 2) & 0xFF;
reg = nbpcie_ind_read_index(nb_dev, 0x65 | gpp_sb_sel);
reg |= lane_mask << 8 | lane_mask;
/* NOTE: See the comments in rs780_pcie.c
* switching_gppsb_configurations
* In CIMx 4.5.0 and RPR, 4c is done before 5 & 6.
* But in this way, a x4 device in port B (dev 4) of
* Configuration B can only be detected as x1, instead
* of x4. When the port B is being trained, the
* LC_CURRENT_STATE is 6 and the LC_LINK_WIDTH_RD is 1.
* We have to set the PCIEIND:0x65 as 0xE0E0 and reset
* the slot. Then the card seems to work in x1 mode.
*/
reg = 0xE0E0; /*I think that the lane_mask calc above is wrong, and this can't be hardcoded because the configuration changes.*/
nbpcie_ind_write_index(nb_dev, 0x65 | gpp_sb_sel, reg);
printk(BIOS_DEBUG, "link_width=%x, lane_mask=%x",
current_link_width, lane_mask);
set_pcie_reset();
mdelay(1);
set_pcie_dereset();
break;
case 0x07: /* device is in compliance state (training sequence is done). Move to train the next device */
res = 1;
count = 0;
break;
case 0x10:
reg =
pci_ext_read_config32(nb_dev, dev,
PCIE_VC0_RESOURCE_STATUS);
printk(BIOS_DEBUG, "PcieTrainPort reg=0x%x\n", reg);
/* check bit1 */
if (reg & VC_NEGOTIATION_PENDING) { /* bit1=1 means the link needs to be re-trained. */
/* set bit8=1, bit0-2=bit4-6 */
u32 tmp;
reg = nbpcie_p_read_index(dev, PCIE_LC_LINK_WIDTH);
tmp = (reg >> 4) & 0x7; /* get bit4-6 */
reg &= 0xfff8; /* clear bit0-2 */
reg += tmp; /* merge */
reg |= 1 << 8;
nbpcie_p_write_index(dev, PCIE_LC_LINK_WIDTH, reg);
count++; /* CIM said "keep in loop"? */
} else {
res = 1;
count = 0;
}
break;
default:
/* CIMx Unknown Workaround - There is a device that won't train. Try to reset it. */
/* if there are no device resets and nothing works, CIMx does a cf9 system reset (yikes!) */
set_pcie_reset();
mdelay(1);
set_pcie_dereset();
res = 0;
count = 0; /* break loop */
break;
}
}
return res;
}
/*
* Set Top Of Memory below and above 4G.
*/
void sr5650_set_tom(device_t nb_dev)
{
msr_t sysmem;
/* The system top memory in SR56X0. */
sysmem = rdmsr(0xc001001A);
printk(BIOS_DEBUG, "Sysmem TOM = %x_%x\n", sysmem.hi, sysmem.lo);
pci_write_config32(nb_dev, 0x90, sysmem.lo);
sysmem = rdmsr(0xc001001D);
printk(BIOS_DEBUG, "Sysmem TOM2 = %x_%x\n", sysmem.hi, sysmem.lo);
htiu_write_index(nb_dev, 0x31, sysmem.hi);
htiu_write_index(nb_dev, 0x30, sysmem.lo | 1);
}
u32 get_vid_did(device_t dev)
{
return pci_read_config32(dev, 0);
}
void detect_and_enable_iommu(device_t iommu_dev) {
uint32_t dword;
uint8_t l1_target;
unsigned char iommu;
void * mmio_base;
iommu = 1;
get_option(&iommu, "iommu");
if (iommu) {
printk(BIOS_DEBUG, "Initializing IOMMU\n");
device_t nb_dev = dev_find_slot(0, PCI_DEVFN(0, 0));
if (!nb_dev) {
printk(BIOS_WARNING, "Unable to find SR5690 device! IOMMU NOT initialized\n");
return;
}
mmio_base = (void*)(pci_read_config32(iommu_dev, 0x44) & 0xffffc000);
// if (get_nb_rev(nb_dev) == REV_SR5650_A11) {
// dword = pci_read_config32(iommu_dev, 0x6c);
// dword &= ~(0x1 << 8);
// pci_write_config32(iommu_dev, 0x6c, dword);
// }
dword = pci_read_config32(iommu_dev, 0x50);
dword &= ~(0x1 << 22);
pci_write_config32(iommu_dev, 0x50, dword);
dword = pci_read_config32(iommu_dev, 0x44);
dword |= 0x1;
pci_write_config32(iommu_dev, 0x44, dword);
write32((void*)(mmio_base + 0x8), 0x0);
write32((void*)(mmio_base + 0xc), 0x08000000);
write32((void*)(mmio_base + 0x10), 0x0);
write32((void*)(mmio_base + 0x2008), 0x0);
write32((void*)(mmio_base + 0x2010), 0x0);
/* IOMMU L1 initialization */
for (l1_target = 0; l1_target < 6; l1_target++) {
dword = l1cfg_ind_read_index(nb_dev, (l1_target << 16) + 0xc);
dword |= (0x7 << 28);
l1cfg_ind_write_index(nb_dev, (l1_target << 16) + 0xc, dword);
dword = l1cfg_ind_read_index(nb_dev, (l1_target << 16) + 0x7);
dword |= (0x1 << 5);
l1cfg_ind_write_index(nb_dev, (l1_target << 16) + 0x7, dword);
}
/* IOMMU L2 initialization */
dword = l2cfg_ind_read_index(nb_dev, 0xc);
dword |= (0x7 << 29);
l2cfg_ind_write_index(nb_dev, 0xc, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x10);
dword &= ~(0x3 << 8);
dword |= (0x2 << 8);
l2cfg_ind_write_index(nb_dev, 0x10, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x14);
dword &= ~(0x3 << 8);
dword |= (0x2 << 8);
l2cfg_ind_write_index(nb_dev, 0x14, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x18);
dword &= ~(0x3 << 8);
dword |= (0x2 << 8);
l2cfg_ind_write_index(nb_dev, 0x18, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x1c);
dword &= ~(0x3 << 8);
dword |= (0x2 << 8);
l2cfg_ind_write_index(nb_dev, 0x1c, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x50);
dword &= ~(0x3 << 8);
dword |= (0x2 << 8);
l2cfg_ind_write_index(nb_dev, 0x50, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x10);
dword |= (0x1 << 4);
l2cfg_ind_write_index(nb_dev, 0x10, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x14);
dword |= (0x1 << 4);
l2cfg_ind_write_index(nb_dev, 0x14, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x18);
dword |= (0x1 << 4);
l2cfg_ind_write_index(nb_dev, 0x18, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x1c);
dword |= (0x1 << 4);
l2cfg_ind_write_index(nb_dev, 0x1c, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x50);
dword |= (0x1 << 4);
l2cfg_ind_write_index(nb_dev, 0x50, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x6);
dword |= (0x1 << 7);
l2cfg_ind_write_index(nb_dev, 0x6, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x44);
dword |= (0x1 << 0);
l2cfg_ind_write_index(nb_dev, 0x44, dword);
// if (get_nb_rev(nb_dev) == REV_SR5650_A21) {
dword = l2cfg_ind_read_index(nb_dev, 0x7);
dword |= (0x1 << 1);
l2cfg_ind_write_index(nb_dev, 0x7, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x44);
dword |= (0x1 << 1);
l2cfg_ind_write_index(nb_dev, 0x44, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x7);
dword |= (0x1 << 2);
l2cfg_ind_write_index(nb_dev, 0x7, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x7);
dword |= (0x1 << 3);
l2cfg_ind_write_index(nb_dev, 0x7, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x44);
dword |= (0x1 << 3);
l2cfg_ind_write_index(nb_dev, 0x44, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x7);
dword |= (0x1 << 4);
l2cfg_ind_write_index(nb_dev, 0x7, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x6);
dword |= (0x1 << 5);
l2cfg_ind_write_index(nb_dev, 0x6, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x6);
dword |= (0x1 << 6);
l2cfg_ind_write_index(nb_dev, 0x6, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x7);
dword |= (0x1 << 5);
l2cfg_ind_write_index(nb_dev, 0x7, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x44);
dword |= (0x1 << 4);
l2cfg_ind_write_index(nb_dev, 0x44, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x7);
dword |= (0x1 << 6);
l2cfg_ind_write_index(nb_dev, 0x7, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x7);
dword |= (0x1 << 7);
l2cfg_ind_write_index(nb_dev, 0x7, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x6);
dword |= (0x1 << 8);
l2cfg_ind_write_index(nb_dev, 0x6, dword);
// }
l2cfg_ind_write_index(nb_dev, 0x52, 0xf0000002);
dword = l2cfg_ind_read_index(nb_dev, 0x80);
dword |= (0x1 << 0);
l2cfg_ind_write_index(nb_dev, 0x80, dword);
dword = l2cfg_ind_read_index(nb_dev, 0x30);
dword |= (0x1 << 0);
l2cfg_ind_write_index(nb_dev, 0x30, dword);
}
}
void sr5650_iommu_read_resources(device_t dev)
{
unsigned char iommu;
struct resource *res;
iommu = 1;
get_option(&iommu, "iommu");
/* Get the normal pci resources of this device */
pci_dev_read_resources(dev);
if (iommu) {
/* Request MMIO range allocation */
res = new_resource(dev, 0x44); /* IOMMU */
res->base = 0x0;
res->size = 0x4000;
res->limit = 0xFFFFFFFFUL; /* res->base + res->size -1; */
res->align = 14; /* 16k alignment */
res->gran = 14;
res->flags = IORESOURCE_MEM | IORESOURCE_RESERVE;
}
compact_resources(dev);
}
void sr5650_iommu_set_resources(device_t dev)
{
unsigned char iommu;
struct resource *res;
iommu = 1;
get_option(&iommu, "iommu");
/* Get the normal pci resources of this device */
pci_dev_read_resources(dev);
if (iommu) {
/* Get the allocated range */
res = find_resource(dev, 0x44);
if (res->base == 0) {
printk(BIOS_WARNING, "Unable to allocate MMIO range to IOMMU\n");
}
/* Assign the range to hardware */
pci_write_config32(dev, 0x44, res->base & 0xffffc000);
pci_write_config32(dev, 0x48, 0x0);
}
/* Run standard resource set routine */
pci_dev_set_resources(dev);
}
void sr5650_iommu_enable_resources(device_t dev)
{
detect_and_enable_iommu(dev);
}
void sr5650_nb_pci_table(device_t nb_dev)
{ /* NBPOR_InitPOR function. */
u8 temp8;
u16 temp16;
u32 temp32;
/* Program NB PCI table. */
temp16 = pci_read_config16(nb_dev, 0x04);
printk(BIOS_DEBUG, "NB_PCI_REG04 = %x.\n", temp16);
temp32 = pci_read_config32(nb_dev, 0x84);
printk(BIOS_DEBUG, "NB_PCI_REG84 = %x.\n", temp32);
//Reg4Ch[1]=1 (APIC_ENABLE) force cpu request with address 0xFECx_xxxx to south-bridge
//Reg4Ch[6]=1 (BMMsgEn) enable BM_Set message generation
pci_write_config8(nb_dev, 0x4c, 0x42);
temp8 = pci_read_config8(nb_dev, 0x4e);
temp8 |= 0x05; /* BAR1_ENABLE */
pci_write_config8(nb_dev, 0x4e, temp8);
temp32 = pci_read_config32(nb_dev, 0x4c);
printk(BIOS_DEBUG, "NB_PCI_REG4C = %x.\n", temp32);
/* disable GFX debug. */
temp8 = pci_read_config8(nb_dev, 0x8d);
temp8 &= ~(1<<1);
pci_write_config8(nb_dev, 0x8d, temp8);
/* The system top memory in SR56X0. */
sr5650_set_tom(nb_dev);
/* Program NB HTIU table. */
//set_htiu_enable_bits(nb_dev, 0x05, 1<<10 | 1<<9, 1<<10|1<<9);
set_htiu_enable_bits(nb_dev, 0x06, 1, 0x4203a202);
//set_htiu_enable_bits(nb_dev, 0x07, 1<<1 | 1<<2, 0x8001);
set_htiu_enable_bits(nb_dev, 0x15, 0, 1<<31 | 1<<30 | 1<<27);
set_htiu_enable_bits(nb_dev, 0x1c, 0, 0xfffe0000);
set_htiu_enable_bits(nb_dev, 0x0c, 0x3f, 1 | 1<<3);
set_htiu_enable_bits(nb_dev, 0x19, 0xfffff+(1<<31), 0x186a0+(1<<31));
set_htiu_enable_bits(nb_dev, 0x16, 0x3f<<10, 0x7<<10);
set_htiu_enable_bits(nb_dev, 0x23, 0, 1<<28);
}
/***********************************************
* 0:00.0 NBCFG :
* 0:00.1 CLK : bit 0 of nb_cfg 0x4c : 0 - disable, default
* 0:01.0 P2P Internal:
* 0:02.0 P2P : bit 2 of nbmiscind 0x0c : 0 - enable, default + 32 * 2
* 0:03.0 P2P : bit 3 of nbmiscind 0x0c : 0 - enable, default + 32 * 2
* 0:04.0 P2P : bit 4 of nbmiscind 0x0c : 0 - enable, default + 32 * 2
* 0:05.0 P2P : bit 5 of nbmiscind 0x0c : 0 - enable, default + 32 * 2
* 0:06.0 P2P : bit 6 of nbmiscind 0x0c : 0 - enable, default + 32 * 2
* 0:07.0 P2P : bit 7 of nbmiscind 0x0c : 0 - enable, default + 32 * 2
* 0:08.0 NB2SB : bit 6 of nbmiscind 0x00 : 0 - disable, default + 32 * 1
* case 0 will be called twice, one is by cpu in hypertransport.c line458,
* the other is by sr5650.
***********************************************/
void sr5650_enable(device_t dev)
{
device_t nb_dev = 0, sb_dev = 0;
int dev_ind;
struct southbridge_amd_sr5650_config *cfg;
printk(BIOS_INFO, "sr5650_enable: dev=%p, VID_DID=0x%x\n", dev, get_vid_did(dev));
nb_dev = dev_find_slot(0, PCI_DEVFN(0, 0));
if (!nb_dev) {
die("sr5650_enable: CAN NOT FIND SR5650 DEVICE, HALT!\n");
/* NOT REACHED */
}
cfg = (struct southbridge_amd_sr5650_config *)nb_dev->chip_info;
/* sb_dev (dev 8) is a bridge that links to southbridge. */
sb_dev = dev_find_slot(0, PCI_DEVFN(8, 0));
if (!sb_dev) {
die("sr5650_enable: CAN NOT FIND SB bridge, HALT!\n");
/* NOT REACHED */
}
dev_ind = dev->path.pci.devfn >> 3;
switch (dev_ind) {
case 0: /* bus0, dev0, fun0; */
switch (dev->path.pci.devfn & 0x7) {
case 0:
printk(BIOS_INFO, "Bus-0, Dev-0, Fun-0.\n");
enable_pcie_bar3(nb_dev); /* PCIEMiscInit */
config_gpp_core(nb_dev, sb_dev);
sr5650_gpp_sb_init(nb_dev, sb_dev, 8);
sr5650_nb_pci_table(nb_dev);
break;
case 1:
printk(BIOS_INFO, "Bus-0, Dev-0, Fun-1.\n");
break;
case 2:
printk(BIOS_INFO, "Bus-0, Dev-0, Fun-2.\n");
break;
}
break;
case 2: /* bus0, dev2,3 GPP1 */
case 3:
printk(BIOS_INFO, "Bus-0, Dev-2,3, Fun-0. enable=%d\n", dev->enabled);
set_nbmisc_enable_bits(nb_dev, 0x0c, 1 << dev_ind,
(dev->enabled ? 0 : 1) << dev_ind);
if (dev->enabled)
sr5650_gpp_sb_init(nb_dev, dev, dev_ind); /* Note, dev 2,3 are generic PCIe ports. */
break;
case 4: /* bus0, dev4-7, four GPP3a */
case 5:
case 6:
case 7:
enable_pcie_bar3(nb_dev); /* PCIEMiscInit */
printk(BIOS_INFO, "Bus-0, Dev-4,5,6,7, Fun-0. enable=%d\n",
dev->enabled);
set_nbmisc_enable_bits(nb_dev, 0x0c, 1 << dev_ind,
(dev->enabled ? 0 : 1) << dev_ind);
if (dev->enabled)
sr5650_gpp_sb_init(nb_dev, dev, dev_ind);
break;
case 8: /* bus0, dev8, SB */
printk(BIOS_INFO, "Bus-0, Dev-8, Fun-0. enable=%d\n", dev->enabled);
set_nbmisc_enable_bits(nb_dev, 0x00, 1 << 6,
(dev->enabled ? 1 : 0) << 6);
if (dev->enabled)
sr5650_gpp_sb_init(nb_dev, dev, dev_ind);
disable_pcie_bar3(nb_dev);
break;
case 9: /* bus 0, dev 9,10, GPP3a */
case 10:
printk(BIOS_INFO, "Bus-0, Dev-9, 10, Fun-0. enable=%d\n",
dev->enabled);
enable_pcie_bar3(nb_dev); /* PCIEMiscInit */
set_nbmisc_enable_bits(nb_dev, 0x0c, 1 << (7 + dev_ind),
(dev->enabled ? 0 : 1) << (7 + dev_ind));
if (dev->enabled)
sr5650_gpp_sb_init(nb_dev, dev, dev_ind);
/* Don't call disable_pcie_bar3(nb_dev) here, otherwise the screen will crash. */
break;
case 11:
case 12: /* bus 0, dev 11,12, GPP2 */
printk(BIOS_INFO, "Bus-0, Dev-11,12, Fun-0. enable=%d\n", dev->enabled);
set_nbmisc_enable_bits(nb_dev, 0x0c, 1 << (7 + dev_ind),
(dev->enabled ? 0 : 1) << (7 + dev_ind));
if (dev->enabled)
sr5650_gpp_sb_init(nb_dev, dev, dev_ind);
break;
case 13: /* bus 0, dev 12, GPP3b */
set_nbmisc_enable_bits(nb_dev, 0x0c, 1 << (7 + dev_ind),
(dev->enabled ? 0 : 1) << (7 + dev_ind));
if (dev->enabled)
sr5650_gpp_sb_init(nb_dev, dev, dev_ind);
break;
default:
printk(BIOS_DEBUG, "unknown dev: %s\n", dev_path(dev));
}
/* Lock HWInit Register after the last device was done */
if (dev_ind == 13) {
sr56x0_lock_hwinitreg();
udelay(cfg->pcie_settling_time);
}
}
static void add_ivrs_device_entries(struct device *parent, struct device *dev, int depth, int linknum, int8_t *root_level, unsigned long *current, uint16_t *length)
{
uint8_t *p;
struct device *sibling;
struct bus *link;
if (!root_level) {
root_level = malloc(sizeof(int8_t));
*root_level = -1;
}
if (dev->path.type == DEVICE_PATH_PCI) {
if ((dev->bus->secondary == 0x0) && (dev->path.pci.devfn == 0x0))
*root_level = depth;
if (*root_level != -1) {
if (depth >= *root_level) {
if (dev->enabled) {
if (depth == *root_level) {
if (dev->path.pci.devfn < (0x1 << 3)) {
/* SR5690 control device */
} else if ((dev->path.pci.devfn >= (0x1 << 3)) && (dev->path.pci.devfn < (0xe << 3))) {
/* SR5690 PCIe bridge device */
} else {
if (dev->path.pci.devfn == (0x14 << 3)) {
/* SMBUS controller */
p = (uint8_t *) *current;
p[0] = 0x2; /* Entry type */
p[1] = dev->path.pci.devfn; /* Device */
p[2] = dev->bus->secondary; /* Bus */
p[3] = 0x97; /* Data */
p[4] = 0x0; /* Padding */
p[5] = 0x0; /* Padding */
p[6] = 0x0; /* Padding */
p[7] = 0x0; /* Padding */
*length += 8;
*current += 8;
} else {
/* Other southbridge device */
p = (uint8_t *) *current;
p[0] = 0x2; /* Entry type */
p[1] = dev->path.pci.devfn; /* Device */
p[2] = dev->bus->secondary; /* Bus */
p[3] = 0x0; /* Data */
p[4] = 0x0; /* Padding */
p[5] = 0x0; /* Padding */
p[6] = 0x0; /* Padding */
p[7] = 0x0; /* Padding */
*length += 8;
*current += 8;
}
}
} else {
if ((dev->hdr_type & 0x7f) == PCI_HEADER_TYPE_NORMAL) {
/* Device behind bridge */
if (pci_find_capability(dev, PCI_CAP_ID_PCIE)) {
/* Device is PCIe */
p = (uint8_t *) *current;
p[0] = 0x2; /* Entry type */
p[1] = dev->path.pci.devfn; /* Device */
p[2] = dev->bus->secondary; /* Bus */
p[3] = 0x0; /* Data */
p[4] = 0x0; /* Padding */
p[5] = 0x0; /* Padding */
p[6] = 0x0; /* Padding */
p[7] = 0x0; /* Padding */
*length += 8;
*current += 8;
} else {
/* Device is legacy PCI or PCI-X */
p = (uint8_t *) *current;
p[0] = 0x42; /* Entry type */
p[1] = dev->path.pci.devfn; /* Device */
p[2] = dev->bus->secondary; /* Bus */
p[3] = 0x0; /* Data */
p[4] = 0x0; /* Reserved */
p[5] = parent->path.pci.devfn; /* Device */
p[6] = parent->bus->secondary; /* Bus */
p[7] = 0x0; /* Reserved */
*length += 8;
*current += 8;
}
}
}
}
}
}
}
for (link = dev->link_list; link; link = link->next)
for (sibling = link->children; sibling; sibling = sibling->sibling)
add_ivrs_device_entries(dev, sibling, depth + 1, depth, root_level, current, length);
free(root_level);
}
unsigned long acpi_fill_mcfg(unsigned long current)
{
struct resource *res;
resource_t mmconf_base = EXT_CONF_BASE_ADDRESS;
if (IS_ENABLED(CONFIG_EXT_CONF_SUPPORT)) {
res = sr5650_retrieve_cpu_mmio_resource();
if (res)
mmconf_base = res->base;
current += acpi_create_mcfg_mmconfig((acpi_mcfg_mmconfig_t *)current, mmconf_base, 0x0, 0x0, 0x1f);
}
return current;
}
static unsigned long acpi_fill_ivrs(acpi_ivrs_t* ivrs, unsigned long current)
{
uint8_t *p;
device_t nb_dev = dev_find_slot(0, PCI_DEVFN(0, 0));
if (!nb_dev) {
printk(BIOS_WARNING, "acpi_fill_ivrs: Unable to locate SR5650 device! IVRS table not generated...\n");
return (unsigned long)ivrs;
}
device_t iommu_dev = dev_find_slot(0, PCI_DEVFN(0, 2));
if (!iommu_dev) {
printk(BIOS_WARNING, "acpi_fill_ivrs: Unable to locate SR5650 IOMMU device! IVRS table not generated...\n");
return (unsigned long)ivrs;
}
ivrs->iv_info = 0x0;
ivrs->iv_info |= (0x40 << 15); /* Maximum supported virtual address size */
ivrs->iv_info |= (0x34 << 8); /* Maximum supported physical address size */
ivrs->ivhd.type = 0x10;
ivrs->ivhd.flags = 0x0e;
// if (get_nb_rev(nb_dev) != REV_SR5650_A11) {
ivrs->ivhd.flags |= 0x10; /* Enable ATS support on all revisions except A11 */
// }
ivrs->ivhd.length = sizeof(struct acpi_ivrs_ivhd);
ivrs->ivhd.device_id = 0x2 | (nb_dev->bus->secondary << 8); /* BDF <bus>:00.2 */
ivrs->ivhd.capability_offset = 0x40; /* Capability block 0x40 (type 0xf, "Secure device") */
ivrs->ivhd.iommu_base_low = pci_read_config32(iommu_dev, 0x44) & 0xffffc000;
ivrs->ivhd.iommu_base_high = pci_read_config32(iommu_dev, 0x48);
ivrs->ivhd.pci_segment_group = 0x0;
ivrs->ivhd.iommu_info = 0x0;
ivrs->ivhd.iommu_info |= (0x14 << 8);
ivrs->ivhd.efr = 0x0;
/* Describe HPET */
p = (uint8_t *)current;
p[0] = 0x48; /* Entry type */
p[1] = 0; /* Device */
p[2] = 0; /* Bus */
p[3] = 0xd7; /* Data */
p[4] = 0x0; /* HPET number */
p[5] = 0x14 << 3; /* HPET device */
p[6] = nb_dev->bus->secondary; /* HPET bus */
p[7] = 0x2; /* Variety */
ivrs->ivhd.length += 8;
current += 8;
/* Describe PCI devices */
add_ivrs_device_entries(NULL, all_devices, 0, -1, NULL, ¤t, &ivrs->ivhd.length);
/* Describe IOAPICs */
unsigned long prev_current = current;
current = acpi_fill_ivrs_ioapic(ivrs, current);
ivrs->ivhd.length += (current - prev_current);
return current;
}
unsigned long southbridge_write_acpi_tables(device_t device,
unsigned long current,
struct acpi_rsdp *rsdp)
{
unsigned char iommu;
iommu = 1;
get_option(&iommu, "iommu");
if (iommu) {
acpi_ivrs_t *ivrs;
/* IVRS */
current = ALIGN(current, 8);
printk(BIOS_DEBUG, "ACPI: * IVRS at %lx\n", current);
ivrs = (acpi_ivrs_t *) current;
acpi_create_ivrs(ivrs, acpi_fill_ivrs);
current += ivrs->header.length;
acpi_add_table(rsdp, ivrs);
}
return current;
}
static struct pci_operations iommu_ops_pci = {
.set_subsystem = pci_dev_set_subsystem,
};
static struct device_operations iommu_ops = {
.read_resources = sr5650_iommu_read_resources,
.set_resources = sr5650_iommu_set_resources,
.enable_resources = sr5650_iommu_enable_resources,
.write_acpi_tables = southbridge_write_acpi_tables,
.init = 0,
.scan_bus = 0,
.ops_pci = &iommu_ops_pci,
};
static const struct pci_driver ht_driver_sr5690 __pci_driver = {
.ops = &iommu_ops,
.vendor = PCI_VENDOR_ID_ATI,
.device = PCI_DEVICE_ID_AMD_SR5650_IOMMU,
};
struct chip_operations southbridge_amd_sr5650_ops = {
CHIP_NAME("ATI SR5650")
.enable_dev = sr5650_enable,
};
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