Author: hailfinger
Date: 2008-12-23 03:05:55 +0100 (Tue, 23 Dec 2008)
New Revision: 3836
Modified:
trunk/coreboot-v2/src/northbridge/amd/amdk8/incoherent_ht.c
Log:
Add verbose debugging output at SPEW level to noncoherent HyperTransport
initialization.
This patch has helped immensely to track down a bug in 690G ncHT init.
It depends on my earlier patch which enables CONFIG_USE_PRINTK_IN_CAR
for all boards using HT. Of course that means ROMCC is not an option
anymore for those boards, but I don't think that's a big problem.
Another way to solve this would be #defining printk_spew to nothing.
Signed-off-by: Carl-Daniel Hailfinger <c-d.hailfinger.devel.2006(a)gmx.net>
Marc says:
ROMCC doesn't make sense for k8 boards.
Acked-by: Marc Jones <marcj303(a)gmail.com>
Modified: trunk/coreboot-v2/src/northbridge/amd/amdk8/incoherent_ht.c
===================================================================
--- trunk/coreboot-v2/src/northbridge/amd/amdk8/incoherent_ht.c 2008-12-22 17:41:01 UTC (rev 3835)
+++ trunk/coreboot-v2/src/northbridge/amd/amdk8/incoherent_ht.c 2008-12-23 02:05:55 UTC (rev 3836)
@@ -24,13 +24,13 @@
#define K8_ALLOCATE_MMIO_RANGE 0
#endif
+#if CONFIG_USE_PRINTK_IN_CAR == 0
+#error This file needs CONFIG_USE_PRINTK_IN_CAR
+#endif
+
static inline void print_linkn_in (const char *strval, uint8_t byteval)
{
-#if CONFIG_USE_PRINTK_IN_CAR
printk_debug("%s%02x\r\n", strval, byteval);
-#else
- print_debug(strval); print_debug_hex8(byteval); print_debug("\r\n");
-#endif
}
static uint8_t ht_lookup_capability(device_t dev, uint16_t val)
@@ -131,6 +131,7 @@
uint32_t id;
freq_cap = pci_read_config16(dev, pos);
+ printk_spew("pos=0x%x, unfiltered freq_cap=0x%x\r\n", pos, freq_cap);
freq_cap &= ~(1 << HT_FREQ_VENDOR); /* Ignore Vendor HT frequencies */
id = pci_read_config32(dev, 0);
@@ -160,6 +161,9 @@
#endif
}
+ printk_spew("pos=0x%x, filtered freq_cap=0x%x\r\n", pos, freq_cap);
+ //printk_spew("capping to 800/600/400/200 MHz\r\n");
+ //freq_cap &= 0x3f;
return freq_cap;
}
@@ -220,12 +224,14 @@
int needs_reset;
/* Set link width and frequency */
+ printk_spew("entering ht_optimize_link\r\n");
/* Initially assume everything is already optimized and I don't need a reset */
needs_reset = 0;
/* Get the frequency capabilities */
freq_cap1 = ht_read_freq_cap(dev1, pos1 + LINK_FREQ_CAP(offs1));
freq_cap2 = ht_read_freq_cap(dev2, pos2 + LINK_FREQ_CAP(offs2));
+ printk_spew("freq_cap1=0x%x, freq_cap2=0x%x\r\n", freq_cap1, freq_cap2);
/* Calculate the highest possible frequency */
freq = log2(freq_cap1 & freq_cap2);
@@ -234,48 +240,58 @@
old_freq = pci_read_config8(dev1, pos1 + LINK_FREQ(offs1));
old_freq &= 0x0f;
needs_reset |= old_freq != freq;
+ printk_spew("dev1 old_freq=0x%x, freq=0x%x, needs_reset=0x%0x\r\n", old_freq, freq, needs_reset);
old_freq = pci_read_config8(dev2, pos2 + LINK_FREQ(offs2));
old_freq &= 0x0f;
needs_reset |= old_freq != freq;
+ printk_spew("dev2 old_freq=0x%x, freq=0x%x, needs_reset=0x%0x\r\n", old_freq, freq, needs_reset);
- /* Set the Calulcated link frequency */
+ /* Set the Calculated link frequency */
pci_write_config8(dev1, pos1 + LINK_FREQ(offs1), freq);
pci_write_config8(dev2, pos2 + LINK_FREQ(offs2), freq);
/* Get the width capabilities */
width_cap1 = ht_read_width_cap(dev1, pos1 + LINK_WIDTH(offs1));
width_cap2 = ht_read_width_cap(dev2, pos2 + LINK_WIDTH(offs2));
+ printk_spew("width_cap1=0x%x, width_cap2=0x%x\r\n", width_cap1, width_cap2);
/* Calculate dev1's input width */
ln_width1 = link_width_to_pow2[width_cap1 & 7];
ln_width2 = link_width_to_pow2[(width_cap2 >> 4) & 7];
+ printk_spew("dev1 input ln_width1=0x%x, ln_width2=0x%x\r\n", ln_width1, ln_width2);
if (ln_width1 > ln_width2) {
ln_width1 = ln_width2;
}
width = pow2_to_link_width[ln_width1];
+ printk_spew("dev1 input width=0x%x\r\n", width);
/* Calculate dev1's output width */
ln_width1 = link_width_to_pow2[(width_cap1 >> 4) & 7];
ln_width2 = link_width_to_pow2[width_cap2 & 7];
+ printk_spew("dev1 output ln_width1=0x%x, ln_width2=0x%x\r\n", ln_width1, ln_width2);
if (ln_width1 > ln_width2) {
ln_width1 = ln_width2;
}
width |= pow2_to_link_width[ln_width1] << 4;
+ printk_spew("dev1 input|output width=0x%x\r\n", width);
/* See if I am changing dev1's width */
old_width = pci_read_config8(dev1, pos1 + LINK_WIDTH(offs1) + 1);
old_width &= 0x77;
needs_reset |= old_width != width;
+ printk_spew("old dev1 input|output width=0x%x\r\n", width);
/* Set dev1's widths */
pci_write_config8(dev1, pos1 + LINK_WIDTH(offs1) + 1, width);
/* Calculate dev2's width */
width = ((width & 0x70) >> 4) | ((width & 0x7) << 4);
+ printk_spew("dev2 input|output width=0x%x\r\n", width);
/* See if I am changing dev2's width */
old_width = pci_read_config8(dev2, pos2 + LINK_WIDTH(offs2) + 1);
old_width &= 0x77;
needs_reset |= old_width != width;
+ printk_spew("old dev2 input|output width=0x%x\r\n", width);
/* Set dev2's widths */
pci_write_config8(dev2, pos2 + LINK_WIDTH(offs2) + 1, width);
@@ -966,12 +982,16 @@
unsigned link_pair_num = sysinfo->link_pair_num;
+ printk_spew("entering optimize_link_incoherent_ht\r\n");
+ printk_spew("sysinfo->link_pair_num=0x%x\r\n", link_pair_num);
for(i=0; i< link_pair_num; i++) {
struct link_pair_st *link_pair= &sysinfo->link_pair[i];
reset_needed |= ht_optimize_link(link_pair->udev, link_pair->upos, link_pair->uoffs, link_pair->dev, link_pair->pos, link_pair->offs);
+ printk_spew("after ht_optimize_link for link pair %d, reset_needed=0x%x\r\n", i, reset_needed);
}
reset_needed |= optimize_link_read_pointers_chain(sysinfo->ht_c_num);
+ printk_spew("after optimize_link_read_pointers_chain, reset_needed=0x%x\r\n", reset_needed);
return reset_needed;