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|
/*
* This file is part of the coreboot project.
*
* Copyright (C) 2003-2004 Linux Networx
* (Written by Eric Biederman <ebiederman@lnxi.com> for Linux Networx)
* Copyright (C) 2004 David Hendricks <sc@flagen.com>
* Copyright (C) 2004 Li-Ta Lo <ollie@lanl.gov>
* Copyright (C) 2005-2006 Tyan
* (Written by Yinghai Lu <yhlu@tyan.com> for Tyan)
* Copyright (C) 2005-2006 Stefan Reinauer <stepan@openbios.org>
*
* 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.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
/*
2005.11 yhlu add let the real sb to use small uintid
*/
#include <bitops.h>
#include <console/console.h>
#include <device/device.h>
#include <device/path.h>
#include <device/pci.h>
#include <device/pci_ids.h>
#include <device/hypertransport.h>
#include <part/hard_reset.h>
#include <part/fallback_boot.h>
/* The hypertransport link is already optimized in pre-ram code
* so don't do it again
*/
#define OPT_HT_LINK 0
#if OPT_HT_LINK == 1
#include <cpu/amd/model_fxx_rev.h>
#endif
static device_t ht_scan_get_devs(device_t *old_devices)
{
device_t first, last;
first = *old_devices;
last = first;
/* Extract the chain of devices to (first through last)
* for the next hypertransport device.
*/
while(last && last->sibling &&
(last->sibling->path.type == DEVICE_PATH_PCI) &&
(last->sibling->path.u.pci.devfn > last->path.u.pci.devfn))
{
last = last->sibling;
}
if (first) {
device_t child;
/* Unlink the chain from the list of old devices */
*old_devices = last->sibling;
last->sibling = 0;
/* Now add the device to the list of devices on the bus.
*/
/* Find the last child of our parent */
for(child = first->bus->children; child && child->sibling; ) {
child = child->sibling;
}
/* Place the chain on the list of children of their parent. */
if (child) {
child->sibling = first;
} else {
first->bus->children = first;
}
}
return first;
}
#if OPT_HT_LINK == 1
static unsigned ht_read_freq_cap(device_t dev, unsigned pos)
{
/* Handle bugs in valid hypertransport frequency reporting */
unsigned freq_cap;
freq_cap = pci_read_config16(dev, pos);
freq_cap &= ~(1 << HT_FREQ_VENDOR); /* Ignore Vendor HT frequencies */
/* AMD 8131 Errata 48 */
if ((dev->vendor == PCI_VENDOR_ID_AMD) &&
(dev->device == PCI_DEVICE_ID_AMD_8131_PCIX)) {
freq_cap &= ~(1 << HT_FREQ_800Mhz);
}
/* AMD 8151 Errata 23 */
if ((dev->vendor == PCI_VENDOR_ID_AMD) &&
(dev->device == PCI_DEVICE_ID_AMD_8151_SYSCTRL)) {
freq_cap &= ~(1 << HT_FREQ_800Mhz);
}
/* AMD K8 Unsupported 1Ghz? */
if ((dev->vendor == PCI_VENDOR_ID_AMD) && (dev->device == 0x1100)) {
#if K8_HT_FREQ_1G_SUPPORT == 1
#if K8_REV_F_SUPPORT == 0
if (is_cpu_pre_e0()) { // only e0 later suupport 1GHz HT
freq_cap &= ~(1 << HT_FREQ_1000Mhz);
}
#endif
#else
freq_cap &= ~(1 << HT_FREQ_1000Mhz);
#endif
}
return freq_cap;
}
#endif
struct ht_link {
struct device *dev;
unsigned pos;
unsigned char ctrl_off, config_off, freq_off, freq_cap_off;
};
static int ht_setup_link(struct ht_link *prev, device_t dev, unsigned pos)
{
#if OPT_HT_LINK == 1
static const uint8_t link_width_to_pow2[]= { 3, 4, 0, 5, 1, 2, 0, 0 };
static const uint8_t pow2_to_link_width[] = { 0x7, 4, 5, 0, 1, 3 };
unsigned present_width_cap, upstream_width_cap;
unsigned present_freq_cap, upstream_freq_cap;
unsigned ln_present_width_in, ln_upstream_width_in;
unsigned ln_present_width_out, ln_upstream_width_out;
unsigned freq, old_freq;
unsigned present_width, upstream_width, old_width;
#endif
struct ht_link cur[1];
int reset_needed;
int linkb_to_host;
/* Set the hypertransport link width and frequency */
reset_needed = 0;
/* See which side of the device our previous write to
* set the unitid came from.
*/
cur->dev = dev;
cur->pos = pos;
linkb_to_host = (pci_read_config16(cur->dev, cur->pos + PCI_CAP_FLAGS) >> 10) & 1;
if (!linkb_to_host) {
cur->ctrl_off = PCI_HT_CAP_SLAVE_CTRL0;
cur->config_off = PCI_HT_CAP_SLAVE_WIDTH0;
cur->freq_off = PCI_HT_CAP_SLAVE_FREQ0;
cur->freq_cap_off = PCI_HT_CAP_SLAVE_FREQ_CAP0;
}
else {
cur->ctrl_off = PCI_HT_CAP_SLAVE_CTRL1;
cur->config_off = PCI_HT_CAP_SLAVE_WIDTH1;
cur->freq_off = PCI_HT_CAP_SLAVE_FREQ1;
cur->freq_cap_off = PCI_HT_CAP_SLAVE_FREQ_CAP1;
}
#if OPT_HT_LINK == 1
/* Read the capabilities */
present_freq_cap = ht_read_freq_cap(cur->dev, cur->pos + cur->freq_cap_off);
upstream_freq_cap = ht_read_freq_cap(prev->dev, prev->pos + prev->freq_cap_off);
present_width_cap = pci_read_config8(cur->dev, cur->pos + cur->config_off);
upstream_width_cap = pci_read_config8(prev->dev, prev->pos + prev->config_off);
/* Calculate the highest useable frequency */
freq = log2(present_freq_cap & upstream_freq_cap);
/* Calculate the highest width */
ln_upstream_width_in = link_width_to_pow2[upstream_width_cap & 7];
ln_present_width_out = link_width_to_pow2[(present_width_cap >> 4) & 7];
if (ln_upstream_width_in > ln_present_width_out) {
ln_upstream_width_in = ln_present_width_out;
}
upstream_width = pow2_to_link_width[ln_upstream_width_in];
present_width = pow2_to_link_width[ln_upstream_width_in] << 4;
ln_upstream_width_out = link_width_to_pow2[(upstream_width_cap >> 4) & 7];
ln_present_width_in = link_width_to_pow2[present_width_cap & 7];
if (ln_upstream_width_out > ln_present_width_in) {
ln_upstream_width_out = ln_present_width_in;
}
upstream_width |= pow2_to_link_width[ln_upstream_width_out] << 4;
present_width |= pow2_to_link_width[ln_upstream_width_out];
/* Set the current device */
old_freq = pci_read_config8(cur->dev, cur->pos + cur->freq_off);
old_freq &= 0x0f;
if (freq != old_freq) {
unsigned new_freq;
pci_write_config8(cur->dev, cur->pos + cur->freq_off, freq);
reset_needed = 1;
printk_spew("HyperT FreqP old %x new %x\n",old_freq,freq);
new_freq = pci_read_config8(cur->dev, cur->pos + cur->freq_off);
new_freq &= 0x0f;
if (new_freq != freq) {
printk_err("%s Hypertransport frequency would not set wanted: %x got: %x\n",
dev_path(dev), freq, new_freq);
}
}
old_width = pci_read_config8(cur->dev, cur->pos + cur->config_off + 1);
if (present_width != old_width) {
unsigned new_width;
pci_write_config8(cur->dev, cur->pos + cur->config_off + 1,
present_width);
reset_needed = 1;
printk_spew("HyperT widthP old %x new %x\n",old_width, present_width);
new_width = pci_read_config8(cur->dev, cur->pos + cur->config_off + 1);
if (new_width != present_width) {
printk_err("%s Hypertransport width would not set wanted: %x got: %x\n",
dev_path(dev), present_width, new_width);
}
}
/* Set the upstream device */
old_freq = pci_read_config8(prev->dev, prev->pos + prev->freq_off);
old_freq &= 0x0f;
if (freq != old_freq) {
unsigned new_freq;
pci_write_config8(prev->dev, prev->pos + prev->freq_off, freq);
reset_needed = 1;
printk_spew("HyperT freqU old %x new %x\n", old_freq, freq);
new_freq = pci_read_config8(prev->dev, prev->pos + prev->freq_off);
new_freq &= 0x0f;
if (new_freq != freq) {
printk_err("%s Hypertransport frequency would not set wanted: %x got: %x\n",
dev_path(prev->dev), freq, new_freq);
}
}
old_width = pci_read_config8(prev->dev, prev->pos + prev->config_off + 1);
if (upstream_width != old_width) {
unsigned new_width;
pci_write_config8(prev->dev, prev->pos + prev->config_off + 1, upstream_width);
reset_needed = 1;
printk_spew("HyperT widthU old %x new %x\n", old_width, upstream_width);
new_width = pci_read_config8(prev->dev, prev->pos + prev->config_off + 1);
if (new_width != upstream_width) {
printk_err("%s Hypertransport width would not set wanted: %x got: %x\n",
dev_path(prev->dev), upstream_width, new_width);
}
}
#endif
/* Remember the current link as the previous link,
* But look at the other offsets.
*/
prev->dev = cur->dev;
prev->pos = cur->pos;
if (cur->ctrl_off == PCI_HT_CAP_SLAVE_CTRL0) {
prev->ctrl_off = PCI_HT_CAP_SLAVE_CTRL1;
prev->config_off = PCI_HT_CAP_SLAVE_WIDTH1;
prev->freq_off = PCI_HT_CAP_SLAVE_FREQ1;
prev->freq_cap_off = PCI_HT_CAP_SLAVE_FREQ_CAP1;
} else {
prev->ctrl_off = PCI_HT_CAP_SLAVE_CTRL0;
prev->config_off = PCI_HT_CAP_SLAVE_WIDTH0;
prev->freq_off = PCI_HT_CAP_SLAVE_FREQ0;
prev->freq_cap_off = PCI_HT_CAP_SLAVE_FREQ_CAP0;
}
return reset_needed;
}
static unsigned ht_lookup_slave_capability(struct device *dev)
{
unsigned pos;
pos = 0;
do {
pos = pci_find_next_capability(dev, PCI_CAP_ID_HT, pos);
if (pos) {
unsigned flags;
flags = pci_read_config16(dev, pos + PCI_CAP_FLAGS);
printk_spew("flags: 0x%04x\n", flags);
if ((flags >> 13) == 0) {
/* Entry is a Slave secondary, success... */
break;
}
}
} while(pos);
return pos;
}
static void ht_collapse_early_enumeration(struct bus *bus, unsigned offset_unitid)
{
unsigned int devfn;
struct ht_link prev;
unsigned ctrl;
/* Initialize the hypertransport enumeration state */
prev.dev = bus->dev;
prev.pos = bus->cap;
prev.ctrl_off = PCI_HT_CAP_HOST_CTRL;
prev.config_off = PCI_HT_CAP_HOST_WIDTH;
prev.freq_off = PCI_HT_CAP_HOST_FREQ;
prev.freq_cap_off = PCI_HT_CAP_HOST_FREQ_CAP;
/* Wait until the link initialization is complete */
do {
ctrl = pci_read_config16(prev.dev, prev.pos + prev.ctrl_off);
/* Is this the end of the hypertransport chain */
if (ctrl & (1 << 6)) {
return;
}
/* Has the link failed? */
if (ctrl & (1 << 4)) {
/*
* Either the link has failed, or we have
* a CRC error.
* Sometimes this can happen due to link
* retrain, so lets knock it down and see
* if its transient
*/
ctrl |= ((1 << 4) | (1 <<8)); // Link fail + Crc
pci_write_config16(prev.dev, prev.pos + prev.ctrl_off, ctrl);
ctrl = pci_read_config16(prev.dev, prev.pos + prev.ctrl_off);
if (ctrl & ((1 << 4) | (1 << 8))) {
printk_alert("Detected error on Hypertransport Link\n");
return;
}
}
} while((ctrl & (1 << 5)) == 0);
//actually, only for one HT device HT chain, and unitid is 0
#if HT_CHAIN_UNITID_BASE == 0
if(offset_unitid) {
return;
}
#endif
/* Check if is already collapsed */
if((!offset_unitid)|| (offset_unitid && (!((HT_CHAIN_END_UNITID_BASE == 0) && (HT_CHAIN_END_UNITID_BASE <HT_CHAIN_UNITID_BASE))))) {
struct device dummy;
uint32_t id;
dummy.bus = bus;
dummy.path.type = DEVICE_PATH_PCI;
dummy.path.u.pci.devfn = PCI_DEVFN(0, 0);
id = pci_read_config32(&dummy, PCI_VENDOR_ID);
if ( ! ( (id == 0xffffffff) || (id == 0x00000000) ||
(id == 0x0000ffff) || (id == 0xffff0000) ) ) {
return;
}
}
/* Spin through the devices and collapse any early
* hypertransport enumeration.
*/
for(devfn = PCI_DEVFN(1, 0); devfn <= 0xff; devfn += 8) {
struct device dummy;
uint32_t id;
unsigned pos, flags;
dummy.bus = bus;
dummy.path.type = DEVICE_PATH_PCI;
dummy.path.u.pci.devfn = devfn;
id = pci_read_config32(&dummy, PCI_VENDOR_ID);
if ( (id == 0xffffffff) || (id == 0x00000000) ||
(id == 0x0000ffff) || (id == 0xffff0000)) {
continue;
}
dummy.vendor = id & 0xffff;
dummy.device = (id >> 16) & 0xffff;
dummy.hdr_type = pci_read_config8(&dummy, PCI_HEADER_TYPE);
pos = ht_lookup_slave_capability(&dummy);
if (!pos){
continue;
}
/* Clear the unitid */
flags = pci_read_config16(&dummy, pos + PCI_CAP_FLAGS);
flags &= ~0x1f;
pci_write_config16(&dummy, pos + PCI_CAP_FLAGS, flags);
printk_spew("Collapsing %s [%04x/%04x]\n",
dev_path(&dummy), dummy.vendor, dummy.device);
}
}
unsigned int hypertransport_scan_chain(struct bus *bus,
unsigned min_devfn, unsigned max_devfn, unsigned int max, unsigned *ht_unitid_base, unsigned offset_unitid)
{
//even HT_CHAIN_UNITID_BASE == 0, we still can go through this function, because of end_of_chain check, also We need it to optimize link
unsigned next_unitid, last_unitid;
device_t old_devices, dev, func;
unsigned min_unitid = (offset_unitid) ? HT_CHAIN_UNITID_BASE:1;
struct ht_link prev;
device_t last_func = 0;
int ht_dev_num = 0;
unsigned max_unitid;
#if HT_CHAIN_END_UNITID_BASE != 0x20
//let't record the device of last ht device, So we can set the Unitid to HT_CHAIN_END_UNITID_BASE
unsigned real_last_unitid;
uint8_t real_last_pos;
device_t real_last_dev;
unsigned end_used = 0;
#endif
/* Restore the hypertransport chain to it's unitialized state */
ht_collapse_early_enumeration(bus, offset_unitid);
/* See which static device nodes I have */
old_devices = bus->children;
bus->children = 0;
/* Initialize the hypertransport enumeration state */
prev.dev = bus->dev;
prev.pos = bus->cap;
prev.ctrl_off = PCI_HT_CAP_HOST_CTRL;
prev.config_off = PCI_HT_CAP_HOST_WIDTH;
prev.freq_off = PCI_HT_CAP_HOST_FREQ;
prev.freq_cap_off = PCI_HT_CAP_HOST_FREQ_CAP;
/* If present assign unitid to a hypertransport chain */
last_unitid = min_unitid -1;
max_unitid = next_unitid = min_unitid;
do {
uint8_t pos;
uint16_t flags;
unsigned count, static_count;
unsigned ctrl;
last_unitid = next_unitid;
/* Wait until the link initialization is complete */
do {
ctrl = pci_read_config16(prev.dev, prev.pos + prev.ctrl_off);
if (ctrl & (1 << 6))
goto end_of_chain; // End of chain
if (ctrl & ((1 << 4) | (1 << 8))) {
/*
* Either the link has failed, or we have
* a CRC error.
* Sometimes this can happen due to link
* retrain, so lets knock it down and see
* if its transient
*/
ctrl |= ((1 << 4) | (1 <<8)); // Link fail + Crc
pci_write_config16(prev.dev, prev.pos + prev.ctrl_off, ctrl);
ctrl = pci_read_config16(prev.dev, prev.pos + prev.ctrl_off);
if (ctrl & ((1 << 4) | (1 << 8))) {
printk_alert("Detected error on Hypertransport Link\n");
goto end_of_chain;
}
}
} while((ctrl & (1 << 5)) == 0);
/* Get and setup the device_structure */
dev = ht_scan_get_devs(&old_devices);
/* See if a device is present and setup the
* device structure.
*/
dev = pci_probe_dev(dev, bus, 0);
if (!dev || !dev->enabled) {
break;
}
/* Find the hypertransport link capability */
pos = ht_lookup_slave_capability(dev);
if (pos == 0) {
printk_err("%s Hypertransport link capability not found",
dev_path(dev));
break;
}
/* Update the Unitid of the current device */
flags = pci_read_config16(dev, pos + PCI_CAP_FLAGS);
/* If the devices has a unitid set and is at devfn 0 we are done.
* This can happen with shadow hypertransport devices,
* or if we have reached the bottom of a
* hypertransport device chain.
*/
if (flags & 0x1f) {
break;
}
flags &= ~0x1f; /* mask out base Unit ID */
count = (flags >> 5) & 0x1f; /* get unit count */
#if HT_CHAIN_END_UNITID_BASE != 0x20
if(offset_unitid) {
if(next_unitid > (max_devfn>>3)) { // max_devfn will be (0x17<<3)|7 or (0x1f<<3)|7
if(!end_used) {
next_unitid = HT_CHAIN_END_UNITID_BASE;
end_used = 1;
} else {
goto end_of_chain;
}
}
}
#endif
flags |= next_unitid & 0x1f;
pci_write_config16(dev, pos + PCI_CAP_FLAGS, flags);
/* Update the Unitd id in the device structure */
static_count = 1;
for(func = dev; func; func = func->sibling) {
func->path.u.pci.devfn += (next_unitid << 3);
static_count = (func->path.u.pci.devfn >> 3)
- (dev->path.u.pci.devfn >> 3) + 1;
last_func = func;
}
/* Compute the number of unitids consumed */
printk_spew("%s count: %04x static_count: %04x\n",
dev_path(dev), count, static_count);
if (count < static_count) {
count = static_count;
}
/* Update the Unitid of the next device */
ht_unitid_base[ht_dev_num] = next_unitid;
ht_dev_num++;
#if HT_CHAIN_END_UNITID_BASE != 0x20
if (offset_unitid) {
real_last_pos = pos;
real_last_unitid = next_unitid;
real_last_dev = dev;
}
#endif
next_unitid += count;
if (next_unitid > max_unitid) {
max_unitid = next_unitid;
}
/* Setup the hypetransport link */
bus->reset_needed |= ht_setup_link(&prev, dev, pos);
printk_debug("%s [%04x/%04x] %s next_unitid: %04x\n",
dev_path(dev),
dev->vendor, dev->device,
(dev->enabled? "enabled": "disabled"), next_unitid);
} while (last_unitid != next_unitid);
end_of_chain:
#if OPT_HT_LINK == 1
if(bus->reset_needed) {
printk_info("HyperT reset needed\n");
}
else {
printk_debug("HyperT reset not needed\n");
}
#endif
#if HT_CHAIN_END_UNITID_BASE != 0x20
if(offset_unitid && (ht_dev_num>1) && (real_last_unitid != HT_CHAIN_END_UNITID_BASE) && !end_used) {
uint16_t flags;
int i;
device_t last_func = 0;
flags = pci_read_config16(real_last_dev, real_last_pos + PCI_CAP_FLAGS);
flags &= ~0x1f;
flags |= HT_CHAIN_END_UNITID_BASE & 0x1f;
pci_write_config16(real_last_dev, real_last_pos + PCI_CAP_FLAGS, flags);
for(func = real_last_dev; func; func = func->sibling) {
func->path.u.pci.devfn -= ((real_last_unitid - HT_CHAIN_END_UNITID_BASE) << 3);
last_func = func;
}
ht_unitid_base[ht_dev_num-1] = HT_CHAIN_END_UNITID_BASE; // update last one
printk_debug(" unitid: %04x --> %04x\n",
real_last_unitid, HT_CHAIN_END_UNITID_BASE);
}
#endif
next_unitid = max_unitid;
if (next_unitid > 0x20) {
next_unitid = 0x20;
}
if( (bus->secondary == 0) && (next_unitid > 0x18)) {
next_unitid = 0x18; /* avoid K8 on bus 0 */
}
/* Die if any leftover Static devices are are found.
* There's probably a problem in the Config.lb.
*/
if(old_devices) {
device_t left;
for(left = old_devices; left; left = left->sibling) {
printk_debug("%s\n", dev_path(left));
}
printk_err("HT: Left over static devices. Check your Config.lb\n");
if(last_func && !last_func->sibling) // put back the left over static device, and let pci_scan_bus disable it
last_func->sibling = old_devices;
}
/* Now that nothing is overlapping it is safe to scan the
* children.
*/
max = pci_scan_bus(bus, 0x00, ((next_unitid-1) << 3)|7, max);
return max;
}
/**
* @brief Scan a PCI bridge and the buses behind the bridge.
*
* Determine the existence of buses behind the bridge. Set up the bridge
* according to the result of the scan.
*
* This function is the default scan_bus() method for PCI bridge devices.
*
* @param dev pointer to the bridge device
* @param max the highest bus number assgined up to now
*
* @return The maximum bus number found, after scanning all subordinate busses
*/
unsigned int hypertransport_scan_chain_x(struct bus *bus,
unsigned min_devfn, unsigned max_devfn, unsigned int max)
{
unsigned ht_unitid_base[4];
unsigned offset_unitid = 1;
return hypertransport_scan_chain(bus, min_devfn, max_devfn, max, ht_unitid_base, offset_unitid);
}
unsigned int ht_scan_bridge(struct device *dev, unsigned int max)
{
return do_pci_scan_bridge(dev, max, hypertransport_scan_chain_x);
}
/** Default device operations for hypertransport bridges */
static struct pci_operations ht_bus_ops_pci = {
.set_subsystem = 0,
};
struct device_operations default_ht_ops_bus = {
.read_resources = pci_bus_read_resources,
.set_resources = pci_dev_set_resources,
.enable_resources = pci_bus_enable_resources,
.init = 0,
.scan_bus = ht_scan_bridge,
.enable = 0,
.reset_bus = pci_bus_reset,
.ops_pci = &ht_bus_ops_pci,
};
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