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Fix the indent and whitespace to match LinuxBIOS standards 

Signed-off-by: Jordan Crouse <jordan.crouse@amd.com>
Acked-by: Stefan Reinauer <stepan@coresystems.de>



git-svn-id: svn://svn.coreboot.org/coreboot/trunk@2649 2b7e53f0-3cfb-0310-b3e9-8179ed1497e1
This commit is contained in:
Jordan Crouse 2007-05-10 18:16:03 +00:00 committed by Stefan Reinauer
parent 89d7cd2c83
commit f8030bd924
8 changed files with 606 additions and 594 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

3
src/northbridge/amd/lx/chip.h
View File

@ -18,8 +18,7 @@
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
struct northbridge_amd_lx_config
{
struct northbridge_amd_lx_config {
};

6
src/northbridge/amd/lx/grphinit.c
View File

@ -23,7 +23,6 @@
#include <cpu/amd/vr.h>
#include <console/console.h>
/*
* This function mirrors the Graphics_Init routine in GeodeROM.
*/
@ -54,11 +53,10 @@ void graphics_init(void)
* so we can add the real value in megabytes
*/
wData = VG_CFG_DRIVER | VG_CFG_PRIORITY | VG_CFG_DSCRT | (CONFIG_VIDEO_MB & VG_MEM_MASK);
wData = VG_CFG_DRIVER | VG_CFG_PRIORITY |
VG_CFG_DSCRT | (CONFIG_VIDEO_MB & VG_MEM_MASK);
vrWrite(wClassIndex, wData);
res = vrRead(wClassIndex);
printk_debug("VRC_VG value: 0x%04x\n", res);
}

57
src/northbridge/amd/lx/northbridge.c
View File

@ -35,7 +35,6 @@
#include "chip.h"
#include "northbridge.h"
/* here is programming for the various MSRs.*/
#define IM_QWAIT 0x100000
@ -87,9 +86,13 @@ void do_vsmbios(void);
struct msr_defaults {
int msr_no;
msr_t msr;
} msr_defaults [] = {
{0x1700, {.hi = 0, .lo = IM_QWAIT}},
{0x1800, {.hi = DMCF_WRITE_SERIALIZE_REQUEST, .lo = DMCF_SERIAL_LOAD_MISSES}},
} msr_defaults[] = {
{
0x1700, {
.hi = 0,.lo = IM_QWAIT}}, {
0x1800, {
.hi = DMCF_WRITE_SERIALIZE_REQUEST,.lo =
DMCF_SERIAL_LOAD_MISSES}},
/* 1808 will be done down below, so we have to do 180a->1817 (well, 1813 really) */
/* for 180a, for now, we assume VSM will configure it */
/* 180b is left at reset value,a0000-bffff is non-cacheable */
@ -97,7 +100,6 @@ struct msr_defaults {
/* oops, 180c will be set by cpu bug handling in cpubug.c */
//{0x180c, {.hi = MSR_WS_CD_DEFAULT, .lo = MSR_WS_CD_DEFAULT}},
/* 180d is left at default, e0000-fffff is non-cached */
/* we will assume 180e, the ssm region configuration, is left at default or set by VSM */
/* we will not set 0x180f, the DMM,yet */
//{0x1810, {.hi=0xee7ff000, .lo=RRCF_LOW(0xee000000, WRITE_COMBINE|CACHE_DISABLE)}},
@ -112,8 +114,8 @@ struct msr_defaults {
/* GLIU1 */
P2D_BM(MSR_GLIU1_BASE1, 0x1, 0x0, 0x0, 0xfff80),
P2D_BM(MSR_GLIU1_BASE2, 0x1, 0x0, 0x80000, 0xfffe0),
P2D_SC(MSR_GLIU1_SHADOW, 0x1, 0x0, 0x0, 0xff03, 0xC0000),
{0}
P2D_SC(MSR_GLIU1_SHADOW, 0x1, 0x0, 0x0, 0xff03, 0xC0000), {
0}
};
/* todo: add a resource record. We don't do this here because this may be called when
@ -131,14 +133,14 @@ int sizeram(void)
/* dimm 0 */
dimm = msr.hi;
/* installed? */
if ((dimm & 7) != 7){
if ((dimm & 7) != 7) {
sizem = 4 << ((dimm >> 12) & 0x0F);
}
/* dimm 1*/
/* dimm 1 */
dimm = msr.hi >> 16;
/* installed? */
if ((dimm & 7) != 7){
if ((dimm & 7) != 7) {
sizem += 4 << ((dimm >> 12) & 0x0F);
}
@ -146,8 +148,6 @@ int sizeram(void)
return sizem;
}
static void enable_shadow(device_t dev)
{
}
@ -167,7 +167,6 @@ static void northbridge_init(device_t dev)
//msr.hi |= 0x3;
//msr.lo |= 0x30000;
//printk_debug("MSR 0x%08X is now 0x%08X:0x%08X\n", MSR_GLIU0_SHADOW, msr.hi, msr.lo);
//printk_debug("MSR 0x%08X is now 0x%08X:0x%08X\n", MSR_GLIU1_SHADOW, msr.hi, msr.lo);
}
@ -180,19 +179,20 @@ void northbridge_set_resources(struct device *dev)
last = &dev->resource[dev->resources];
for(resource = &dev->resource[0]; resource < last; resource++)
{
for (resource = &dev->resource[0]; resource < last; resource++) {
// andrei: do not change the base address, it will make the VSA virtual registers unusable
//pci_set_resource(dev, resource);
// FIXME: static allocation may conflict with dynamic mappings!
}
for(link = 0; link < dev->links; link++) {
for (link = 0; link < dev->links; link++) {
struct bus *bus;
bus = &dev->link[link];
if (bus->children) {
printk_debug("my_dev_set_resources: assign_resources %d\n", bus);
printk_debug
("my_dev_set_resources: assign_resources %d\n",
bus);
assign_resources(bus);
}
}
@ -230,21 +230,22 @@ static struct pci_driver northbridge_driver __pci_driver = {
.device = PCI_DEVICE_ID_AMD_LXBRIDGE,
};
static void pci_domain_read_resources(device_t dev)
{
struct resource *resource;
printk_spew(">> Entering northbridge.c: %s\n", __FUNCTION__);
/* Initialize the system wide io space constraints */
resource = new_resource(dev, IOINDEX_SUBTRACTIVE(0,0));
resource = new_resource(dev, IOINDEX_SUBTRACTIVE(0, 0));
resource->limit = 0xffffUL;
resource->flags = IORESOURCE_IO | IORESOURCE_SUBTRACTIVE | IORESOURCE_ASSIGNED;
resource->flags =
IORESOURCE_IO | IORESOURCE_SUBTRACTIVE | IORESOURCE_ASSIGNED;
/* Initialize the system wide memory resources constraints */
resource = new_resource(dev, IOINDEX_SUBTRACTIVE(1,0));
resource = new_resource(dev, IOINDEX_SUBTRACTIVE(1, 0));
resource->limit = 0xffffffffULL;
resource->flags = IORESOURCE_MEM | IORESOURCE_SUBTRACTIVE | IORESOURCE_ASSIGNED;
resource->flags =
IORESOURCE_MEM | IORESOURCE_SUBTRACTIVE | IORESOURCE_ASSIGNED;
}
static void ram_resource(device_t dev, unsigned long index,
@ -252,11 +253,12 @@ static void ram_resource(device_t dev, unsigned long index,
{
struct resource *resource;
if (!sizek) return;
if (!sizek)
return;
resource = new_resource(dev, index);
resource->base = ((resource_t)basek) << 10;
resource->size = ((resource_t)sizek) << 10;
resource->base = ((resource_t) basek) << 10;
resource->size = ((resource_t) sizek) << 10;
resource->flags = IORESOURCE_MEM | IORESOURCE_CACHEABLE |
IORESOURCE_FIXED | IORESOURCE_STORED | IORESOURCE_ASSIGNED;
}
@ -269,12 +271,11 @@ static void pci_domain_set_resources(device_t dev)
printk_spew(">> Entering northbridge.c: %s\n", __FUNCTION__);
mc_dev = dev->link[0].children;
if (mc_dev)
{
if (mc_dev) {
/* Report the memory regions */
idx = 10;
ram_resource(dev, idx++, 0, 640);
ram_resource(dev, idx++, 1024, (get_systop()- 0x100000)/1024 ); // Systop - 1 MB -> KB
ram_resource(dev, idx++, 1024, (get_systop() - 0x100000) / 1024); // Systop - 1 MB -> KB
}
assign_resources(&dev->link[0]);

351
src/northbridge/amd/lx/northbridgeinit.c
View File

@ -33,7 +33,6 @@
#include <cpu/x86/msr.h>
#include <cpu/x86/cache.h>
struct gliutable {
unsigned long desc_name;
unsigned short desc_type;
@ -41,68 +40,69 @@ struct gliutable {
};
struct gliutable gliu0table[] = {
{.desc_name=MSR_GLIU0_BASE1, .desc_type= BM,.hi= MSR_MC + 0x0,.lo= 0x0FFF80}, /* 0-7FFFF to MC*/
{.desc_name=MSR_GLIU0_BASE2, .desc_type= BM,.hi= MSR_MC + 0x0,.lo=(0x80 << 20) + 0x0FFFE0}, /* 80000-9ffff to Mc*/
{.desc_name=MSR_GLIU0_SHADOW, .desc_type= SC_SHADOW,.hi= MSR_MC + 0x0,.lo= 0x03}, /* C0000-Fffff split to MC and PCI (sub decode) A0000-Bffff handled by SoftVideo*/
{.desc_name=MSR_GLIU0_SYSMEM, .desc_type= R_SYSMEM,.hi= MSR_MC,.lo= 0x0}, /* Catch and fix dynamicly.*/
{.desc_name=MSR_GLIU0_SMM, .desc_type= BMO_SMM,.hi= MSR_MC,.lo= 0x0}, /* Catch and fix dynamicly.*/
{.desc_name=GLIU0_GLD_MSR_COH,.desc_type= OTHER,.hi= 0x0,.lo= GL0_CPU},
{.desc_name=GL_END, .desc_type= GL_END,.hi= 0x0,.lo= 0x0},
{.desc_name = MSR_GLIU0_BASE1,.desc_type = BM,.hi = MSR_MC + 0x0,.lo = 0x0FFF80}, /* 0-7FFFF to MC */
{.desc_name = MSR_GLIU0_BASE2,.desc_type = BM,.hi = MSR_MC + 0x0,.lo = (0x80 << 20) + 0x0FFFE0}, /* 80000-9ffff to Mc */
{.desc_name = MSR_GLIU0_SHADOW,.desc_type = SC_SHADOW,.hi = MSR_MC + 0x0,.lo = 0x03}, /* C0000-Fffff split to MC and PCI (sub decode) A0000-Bffff handled by SoftVideo */
{.desc_name = MSR_GLIU0_SYSMEM,.desc_type = R_SYSMEM,.hi = MSR_MC,.lo = 0x0}, /* Catch and fix dynamicly. */
{.desc_name = MSR_GLIU0_SMM,.desc_type = BMO_SMM,.hi = MSR_MC,.lo = 0x0}, /* Catch and fix dynamicly. */
{.desc_name = GLIU0_GLD_MSR_COH,.desc_type = OTHER,.hi = 0x0,.lo =
GL0_CPU},
{.desc_name = GL_END,.desc_type = GL_END,.hi = 0x0,.lo = 0x0},
};
struct gliutable gliu1table[] = {
{.desc_name=MSR_GLIU1_BASE1,.desc_type= BM,.hi= MSR_GL0 + 0x0,.lo= 0x0FFF80}, /* 0-7FFFF to MC*/
{.desc_name=MSR_GLIU1_BASE2,.desc_type= BM,.hi= MSR_GL0 + 0x0,.lo= (0x80 << 20) +0x0FFFE0}, /* 80000-9ffff to Mc*/
{.desc_name=MSR_GLIU1_SHADOW,.desc_type= SC_SHADOW,.hi= MSR_GL0 + 0x0,.lo= 0x03}, /* C0000-Fffff split to MC and PCI (sub decode)*/
{.desc_name=MSR_GLIU1_SYSMEM,.desc_type= R_SYSMEM,.hi= MSR_GL0,.lo= 0x0}, /* Catch and fix dynamicly.*/
{.desc_name=MSR_GLIU1_SMM,.desc_type= BM_SMM,.hi= MSR_GL0,.lo= 0x0}, /* Catch and fix dynamicly.*/
{.desc_name=GLIU1_GLD_MSR_COH,.desc_type= OTHER,.hi= 0x0,.lo= GL1_GLIU0},
{.desc_name=MSR_GLIU1_FPU_TRAP,.desc_type= SCIO,.hi= (GL1_GLCP << 29) + 0x0,.lo= 0x033000F0}, /* FooGlue FPU 0xF0*/
{.desc_name=GL_END,.desc_type= GL_END,.hi= 0x0,.lo= 0x0},
{.desc_name = MSR_GLIU1_BASE1,.desc_type = BM,.hi = MSR_GL0 + 0x0,.lo = 0x0FFF80}, /* 0-7FFFF to MC */
{.desc_name = MSR_GLIU1_BASE2,.desc_type = BM,.hi = MSR_GL0 + 0x0,.lo = (0x80 << 20) + 0x0FFFE0}, /* 80000-9ffff to Mc */
{.desc_name = MSR_GLIU1_SHADOW,.desc_type = SC_SHADOW,.hi = MSR_GL0 + 0x0,.lo = 0x03}, /* C0000-Fffff split to MC and PCI (sub decode) */
{.desc_name = MSR_GLIU1_SYSMEM,.desc_type = R_SYSMEM,.hi = MSR_GL0,.lo = 0x0}, /* Catch and fix dynamicly. */
{.desc_name = MSR_GLIU1_SMM,.desc_type = BM_SMM,.hi = MSR_GL0,.lo = 0x0}, /* Catch and fix dynamicly. */
{.desc_name = GLIU1_GLD_MSR_COH,.desc_type = OTHER,.hi = 0x0,.lo =
GL1_GLIU0},
{.desc_name = MSR_GLIU1_FPU_TRAP,.desc_type = SCIO,.hi = (GL1_GLCP << 29) + 0x0,.lo = 0x033000F0}, /* FooGlue FPU 0xF0 */
{.desc_name = GL_END,.desc_type = GL_END,.hi = 0x0,.lo = 0x0},
};
struct gliutable *gliutables[] = {gliu0table, gliu1table, 0};
struct gliutable *gliutables[] = { gliu0table, gliu1table, 0 };
struct msrinit {
unsigned long msrnum;
msr_t msr;
};
struct msrinit ClockGatingDefault [] = {
{GLIU0_GLD_MSR_PM, {.hi=0x00,.lo=0x0005}},
{MC_GLD_MSR_PM, {.hi=0x00,.lo=0x0001}},
{VG_GLD_MSR_PM, {.hi=0x00,.lo=0x0015}},
{GP_GLD_MSR_PM, {.hi=0x00,.lo=0x0001}},
{DF_GLD_MSR_PM, {.hi=0x00,.lo=0x0555}},
{GLIU1_GLD_MSR_PM, {.hi=0x00,.lo=0x0005}},
{GLCP_GLD_MSR_PM, {.hi=0x00,.lo=0x0014}},
{GLPCI_GLD_MSR_PM, {.hi=0x00,.lo=0x0015}},
{VIP_GLD_MSR_PM, {.hi=0x00,.lo=0x0005}},
{AES_GLD_MSR_PM, {.hi=0x00,.lo=0x0015}},
{CPU_BC_PMODE_MSR, {.hi=0x00,.lo=0x70303}},
struct msrinit ClockGatingDefault[] = {
{GLIU0_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0005}},
{MC_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0001}},
{VG_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0015}},
{GP_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0001}},
{DF_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0555}},
{GLIU1_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0005}},
{GLCP_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0014}},
{GLPCI_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0015}},
{VIP_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0005}},
{AES_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0015}},
{CPU_BC_PMODE_MSR, {.hi = 0x00,.lo = 0x70303}},
{0xffffffff, {0xffffffff, 0xffffffff}},
};
/* */
/* SET GeodeLink PRIORITY*/
/* */
struct msrinit GeodeLinkPriorityTable [] = {
{CPU_GLD_MSR_CONFIG, {.hi=0x00,.lo=0x0220}},
{DF_GLD_MSR_MASTER_CONF, {.hi=0x00,.lo=0x0000}},
{VG_GLD_MSR_CONFIG, {.hi=0x00,.lo=0x0720}},
{GP_GLD_MSR_CONFIG, {.hi=0x00,.lo=0x0010}},
{GLPCI_GLD_MSR_CONFIG, {.hi=0x00,.lo=0x0017}},
{GLCP_GLD_MSR_CONF, {.hi=0x00,.lo=0x0001}},
{VIP_GLD_MSR_CONFIG, {.hi=0x00,.lo=0x0622}},
{AES_GLD_MSR_CONFIG, {.hi=0x00,.lo=0x0013}},
{0x0FFFFFFFF, {0x0FFFFFFFF, 0x0FFFFFFFF}}, /* END*/
struct msrinit GeodeLinkPriorityTable[] = {
{CPU_GLD_MSR_CONFIG, {.hi = 0x00,.lo = 0x0220}},
{DF_GLD_MSR_MASTER_CONF, {.hi = 0x00,.lo = 0x0000}},
{VG_GLD_MSR_CONFIG, {.hi = 0x00,.lo = 0x0720}},
{GP_GLD_MSR_CONFIG, {.hi = 0x00,.lo = 0x0010}},
{GLPCI_GLD_MSR_CONFIG, {.hi = 0x00,.lo = 0x0017}},
{GLCP_GLD_MSR_CONF, {.hi = 0x00,.lo = 0x0001}},
{VIP_GLD_MSR_CONFIG, {.hi = 0x00,.lo = 0x0622}},
{AES_GLD_MSR_CONFIG, {.hi = 0x00,.lo = 0x0013}},
{0x0FFFFFFFF, {0x0FFFFFFFF, 0x0FFFFFFFF}}, /* END */
};
extern int sizeram(void);
static void
writeglmsr(struct gliutable *gl){
static void writeglmsr(struct gliutable *gl)
{
msr_t msr;
msr.lo = gl->lo;
@ -111,8 +111,7 @@ writeglmsr(struct gliutable *gl){
printk_debug("%s: MSR 0x%08x, val 0x%08x:0x%08x\n", __FUNCTION__, gl->desc_name, msr.hi, msr.lo); // GX3
}
static void
ShadowInit(struct gliutable *gl)
static void ShadowInit(struct gliutable *gl)
{
msr_t msr;
@ -154,12 +153,13 @@ static void SysmemInit(struct gliutable *gl)
gl->desc_name, msr.hi, msr.lo);
}
static void SMMGL0Init(struct gliutable *gl) {
static void SMMGL0Init(struct gliutable *gl)
{
msr_t msr;
int sizebytes = sizeram()<<20;
int sizebytes = sizeram() << 20;
long offset;
sizebytes -= (SMM_SIZE*1024);
sizebytes -= (SMM_SIZE * 1024);
printk_debug("%s: %d bytes\n", __FUNCTION__, sizebytes);
@ -169,50 +169,54 @@ static void SMMGL0Init(struct gliutable *gl) {
printk_debug("%s: offset is 0x%08x\n", __FUNCTION__, SMM_OFFSET);
msr.hi = offset << 8 | gl->hi;
msr.hi |= SMM_OFFSET>>24;
msr.hi |= SMM_OFFSET >> 24;
msr.lo = SMM_OFFSET << 8;
msr.lo |= ((~(SMM_SIZE*1024)+1)>>12)&0xfffff;
msr.lo |= ((~(SMM_SIZE * 1024) + 1) >> 12) & 0xfffff;
wrmsr(gl->desc_name, msr); // MSR - See table above
printk_debug("%s: MSR 0x%08x, val 0x%08x:0x%08x\n", __FUNCTION__, gl->desc_name, msr.hi, msr.lo);
printk_debug("%s: MSR 0x%08x, val 0x%08x:0x%08x\n", __FUNCTION__,
gl->desc_name, msr.hi, msr.lo);
}
static void SMMGL1Init(struct gliutable *gl) {
static void SMMGL1Init(struct gliutable *gl)
{
msr_t msr;
printk_debug("%s:\n", __FUNCTION__ );
printk_debug("%s:\n", __FUNCTION__);
msr.hi = gl->hi;
/* I don't think this is needed */
msr.hi &= 0xffffff00;
msr.hi |= (SMM_OFFSET >> 24);
msr.lo = (SMM_OFFSET << 8) & 0xFFF00000;
msr.lo |= ((~(SMM_SIZE*1024)+1)>>12)&0xfffff;
msr.lo |= ((~(SMM_SIZE * 1024) + 1) >> 12) & 0xfffff;
wrmsr(gl->desc_name, msr); // MSR - See table above
printk_debug("%s: MSR 0x%08x, val 0x%08x:0x%08x\n", __FUNCTION__, gl->desc_name, msr.hi, msr.lo);
printk_debug("%s: MSR 0x%08x, val 0x%08x:0x%08x\n", __FUNCTION__,
gl->desc_name, msr.hi, msr.lo);
}
static void GLIUInit(struct gliutable *gl){
static void GLIUInit(struct gliutable *gl)
{
while (gl->desc_type != GL_END){
switch(gl->desc_type){
while (gl->desc_type != GL_END) {
switch (gl->desc_type) {
default:
/* For Unknown types: Write then read MSR */
writeglmsr(gl);
case SC_SHADOW: /* Check for a Shadow entry*/
case SC_SHADOW: /* Check for a Shadow entry */
ShadowInit(gl);
break;
case R_SYSMEM: /* check for a SYSMEM entry*/
case R_SYSMEM: /* check for a SYSMEM entry */
SysmemInit(gl);
break;
case BMO_SMM : /* check for a SMM entry*/
case BMO_SMM: /* check for a SMM entry */
SMMGL0Init(gl);
break;
case BM_SMM : /* check for a SMM entry*/
case BM_SMM: /* check for a SMM entry */
SMMGL1Init(gl);
break;
}
@ -221,23 +225,24 @@ static void GLIUInit(struct gliutable *gl){
}
/* ***************************************************************************/
/* **/
/* * GLPCIInit*/
/* **/
/* * Set up GLPCI settings for reads/write into memory*/
/* * R0: 0-640KB,*/
/* * R1: 1MB - Top of System Memory*/
/* * R2: SMM Memory*/
/* * R3: Framebuffer? - not set up yet*/
/* * R4: ??*/
/* **/
/* * Entry:*/
/* * Exit:*/
/* * Modified:*/
/* **/
/* ***************************************************************************/
static void GLPCIInit(void){
/* ************************************************************************** */
/* * */
/* * GLPCIInit */
/* * */
/* * Set up GLPCI settings for reads/write into memory */
/* * R0: 0-640KB, */
/* * R1: 1MB - Top of System Memory */
/* * R2: SMM Memory */
/* * R3: Framebuffer? - not set up yet */
/* * R4: ?? */
/* * */
/* * Entry: */
/* * Exit: */
/* * Modified: */
/* * */
/* ************************************************************************** */
static void GLPCIInit(void)
{
struct gliutable *gl = 0;
int i;
msr_t msr;
@ -245,19 +250,21 @@ static void GLPCIInit(void){
int nic_grants_control, enable_bus_parking;
/* */
/* R0 - GLPCI settings for Conventional Memory space.*/
/* R0 - GLPCI settings for Conventional Memory space. */
/* */
msr.hi = (0x09F000 >> 12) << GLPCI_RC_UPPER_TOP_SHIFT; /* 640 */
msr.lo = 0; /* 0*/
msr.lo |= GLPCI_RC_LOWER_EN_SET+ GLPCI_RC_LOWER_PF_SET + GLPCI_RC_LOWER_WC_SET;
msr.lo = 0; /* 0 */
msr.lo |=
GLPCI_RC_LOWER_EN_SET + GLPCI_RC_LOWER_PF_SET +
GLPCI_RC_LOWER_WC_SET;
msrnum = GLPCI_RC0;
wrmsr(msrnum, msr);
/* */
/* R1 - GLPCI settings for SysMem space.*/
/* R1 - GLPCI settings for SysMem space. */
/* */
/* Get systop from GLIU0 SYSTOP Descriptor*/
for(i = 0; gliu0table[i].desc_name != GL_END; i++) {
/* Get systop from GLIU0 SYSTOP Descriptor */
for (i = 0; gliu0table[i].desc_name != GL_END; i++) {
if (gliu0table[i].desc_type == R_SYSMEM) {
gl = &gliu0table[i];
break;
@ -282,8 +289,11 @@ static void GLPCIInit(void){
pal = msr.lo << 12;
msr.hi = pah;
msr.lo = pal;
msr.lo |= GLPCI_RC_LOWER_EN_SET | GLPCI_RC_LOWER_PF_SET | GLPCI_RC_LOWER_WC_SET;
printk_debug("GLPCI R1: system msr.lo 0x%08x msr.hi 0x%08x\n", msr.lo, msr.hi);
msr.lo |=
GLPCI_RC_LOWER_EN_SET | GLPCI_RC_LOWER_PF_SET |
GLPCI_RC_LOWER_WC_SET;
printk_debug("GLPCI R1: system msr.lo 0x%08x msr.hi 0x%08x\n",
msr.lo, msr.hi);
msrnum = GLPCI_RC1;
wrmsr(msrnum, msr);
}
@ -291,15 +301,18 @@ static void GLPCIInit(void){
/* */
/* R2 - GLPCI settings for SMM space */
/* */
msr.hi = ((SMM_OFFSET+(SMM_SIZE*1024-1)) >> 12) << GLPCI_RC_UPPER_TOP_SHIFT;
msr.hi =
((SMM_OFFSET +
(SMM_SIZE * 1024 - 1)) >> 12) << GLPCI_RC_UPPER_TOP_SHIFT;
msr.lo = (SMM_OFFSET >> 12) << GLPCI_RC_LOWER_BASE_SHIFT;
msr.lo |= GLPCI_RC_LOWER_EN_SET | GLPCI_RC_LOWER_PF_SET;
printk_debug("GLPCI R2: system msr.lo 0x%08x msr.hi 0x%08x\n", msr.lo, msr.hi);
printk_debug("GLPCI R2: system msr.lo 0x%08x msr.hi 0x%08x\n", msr.lo,
msr.hi);
msrnum = GLPCI_RC2;
wrmsr(msrnum, msr);
/* this is done elsewhere already, but it does no harm to do it more than once */
/* write serialize memory hole to PCI. Need to to unWS when something is shadowed regardless of cachablility.*/
/* write serialize memory hole to PCI. Need to to unWS when something is shadowed regardless of cachablility. */
msr.lo = 0x021212121; /* cache disabled and write serialized */
msr.hi = 0x021212121; /* cache disabled and write serialized */
@ -312,7 +325,7 @@ static void GLPCIInit(void){
msrnum = CPU_RCONF_E0_FF;
wrmsr(msrnum, msr);
/* Set Non-Cacheable Read Only for NorthBound Transactions to Memory. The Enable bit is handled in the Shadow setup.*/
/* Set Non-Cacheable Read Only for NorthBound Transactions to Memory. The Enable bit is handled in the Shadow setup. */
msrnum = GLPCI_A0_BF;
msr.hi = 0x35353535;
msr.lo = 0x35353535;
@ -328,24 +341,28 @@ static void GLPCIInit(void){
msr.lo = 0x35353535;
wrmsr(msrnum, msr);
/* Set WSREQ*/
/* Set WSREQ */
msrnum = CPU_DM_CONFIG0;
msr = rdmsr(msrnum);
msr.hi &= ~ (7 << DM_CONFIG0_UPPER_WSREQ_SHIFT);
msr.hi &= ~(7 << DM_CONFIG0_UPPER_WSREQ_SHIFT);
msr.hi |= 2 << DM_CONFIG0_UPPER_WSREQ_SHIFT; /* reduce to 1 for safe mode */
wrmsr(msrnum, msr);
/* we are ignoring the 5530 case for now, and perhaps forever. */
/* */
/* 553x NB Init*/
/* 553x NB Init */
/* */
/* Arbiter setup */
enable_preempt = GLPCI_ARB_LOWER_PRE0_SET | GLPCI_ARB_LOWER_PRE1_SET | GLPCI_ARB_LOWER_PRE2_SET | GLPCI_ARB_LOWER_CPRE_SET;
enable_preempt =
GLPCI_ARB_LOWER_PRE0_SET | GLPCI_ARB_LOWER_PRE1_SET |
GLPCI_ARB_LOWER_PRE2_SET | GLPCI_ARB_LOWER_CPRE_SET;
enable_cpu_override = GLPCI_ARB_LOWER_COV_SET;
enable_bus_parking = GLPCI_ARB_LOWER_PARK_SET;
nic_grants_control = (0x4 << GLPCI_ARB_UPPER_R2_SHIFT) | (0x3 << GLPCI_ARB_UPPER_H2_SHIFT );
nic_grants_control =
(0x4 << GLPCI_ARB_UPPER_R2_SHIFT) | (0x3 <<
GLPCI_ARB_UPPER_H2_SHIFT);
msrnum = GLPCI_ARB;
msr = rdmsr(msrnum);
@ -357,120 +374,121 @@ static void GLPCIInit(void){
msrnum = GLPCI_CTRL;
msr = rdmsr(msrnum);
msr.lo |= GLPCI_CTRL_LOWER_ME_SET | GLPCI_CTRL_LOWER_OWC_SET | GLPCI_CTRL_LOWER_PCD_SET; /* (Out will be disabled in CPUBUG649 for < 2.0 parts .)*/
msr.lo |= GLPCI_CTRL_LOWER_ME_SET | GLPCI_CTRL_LOWER_OWC_SET | GLPCI_CTRL_LOWER_PCD_SET; /* (Out will be disabled in CPUBUG649 for < 2.0 parts .) */
msr.lo |= GLPCI_CTRL_LOWER_LDE_SET;
msr.lo &= ~ (0x03 << GLPCI_CTRL_LOWER_IRFC_SHIFT);
msr.lo &= ~(0x03 << GLPCI_CTRL_LOWER_IRFC_SHIFT);
msr.lo |= 0x02 << GLPCI_CTRL_LOWER_IRFC_SHIFT;
msr.lo &= ~ (0x07 << GLPCI_CTRL_LOWER_IRFT_SHIFT);
msr.lo &= ~(0x07 << GLPCI_CTRL_LOWER_IRFT_SHIFT);
msr.lo |= 0x06 << GLPCI_CTRL_LOWER_IRFT_SHIFT;
msr.hi &= ~ (0x0f << GLPCI_CTRL_UPPER_FTH_SHIFT);
msr.hi &= ~(0x0f << GLPCI_CTRL_UPPER_FTH_SHIFT);
msr.hi |= 0x0F << GLPCI_CTRL_UPPER_FTH_SHIFT;
msr.hi &= ~ (0x0f << GLPCI_CTRL_UPPER_RTH_SHIFT);
msr.hi &= ~(0x0f << GLPCI_CTRL_UPPER_RTH_SHIFT);
msr.hi |= 0x0F << GLPCI_CTRL_UPPER_RTH_SHIFT;
msr.hi &= ~ (0x0f << GLPCI_CTRL_UPPER_SBRTH_SHIFT);
msr.hi &= ~(0x0f << GLPCI_CTRL_UPPER_SBRTH_SHIFT);
msr.hi |= 0x0F << GLPCI_CTRL_UPPER_SBRTH_SHIFT;
msr.hi &= ~ (0x03 << GLPCI_CTRL_UPPER_WTO_SHIFT);
msr.hi &= ~(0x03 << GLPCI_CTRL_UPPER_WTO_SHIFT);
msr.hi |= 0x06 << GLPCI_CTRL_UPPER_WTO_SHIFT;
msr.hi &= ~ (0x03 << GLPCI_CTRL_UPPER_ILTO_SHIFT);
msr.hi &= ~(0x03 << GLPCI_CTRL_UPPER_ILTO_SHIFT);
msr.hi |= 0x00 << GLPCI_CTRL_UPPER_ILTO_SHIFT;
wrmsr(msrnum, msr);
/* Set GLPCI Latency Timer */
msrnum = GLPCI_CTRL;
msr = rdmsr(msrnum);
msr.hi |= 0x1F << GLPCI_CTRL_UPPER_LAT_SHIFT; /* Change once 1.x is gone */
wrmsr(msrnum, msr);
/* GLPCI_SPARE*/
/* GLPCI_SPARE */
msrnum = GLPCI_SPARE;
msr = rdmsr(msrnum);
msr.lo &= ~ 0x7;
msr.lo |= GLPCI_SPARE_LOWER_AILTO_SET | GLPCI_SPARE_LOWER_PPD_SET | GLPCI_SPARE_LOWER_PPC_SET | GLPCI_SPARE_LOWER_MPC_SET | GLPCI_SPARE_LOWER_NSE_SET | GLPCI_SPARE_LOWER_SUPO_SET;
msr.lo &= ~0x7;
msr.lo |=
GLPCI_SPARE_LOWER_AILTO_SET | GLPCI_SPARE_LOWER_PPD_SET |
GLPCI_SPARE_LOWER_PPC_SET | GLPCI_SPARE_LOWER_MPC_SET |
GLPCI_SPARE_LOWER_NSE_SET | GLPCI_SPARE_LOWER_SUPO_SET;
wrmsr(msrnum, msr);
}
/* ***************************************************************************/
/* **/
/* * ClockGatingInit*/
/* **/
/* * Enable Clock Gating.*/
/* **/
/* * Entry:*/
/* * Exit:*/
/* * Modified:*/
/* **/
/* ***************************************************************************/
static void ClockGatingInit (void){
/* ************************************************************************** */
/* * */
/* * ClockGatingInit */
/* * */
/* * Enable Clock Gating. */
/* * */
/* * Entry: */
/* * Exit: */
/* * Modified: */
/* * */
/* ************************************************************************** */
static void ClockGatingInit(void)
{
msr_t msr;
struct msrinit *gating = ClockGatingDefault;
int i;
for(i = 0; gating->msrnum != 0xffffffff; i++) {
for (i = 0; gating->msrnum != 0xffffffff; i++) {
msr = rdmsr(gating->msrnum);
msr.hi |= gating->msr.hi;
msr.lo |= gating->msr.lo;
/* printk_debug("%s: MSR 0x%08x will be set to 0x%08x:0x%08x\n", __FUNCTION__,
gating->msrnum, msr.hi, msr.lo); */ // GX3
gating->msrnum, msr.hi, msr.lo); */// GX3
wrmsr(gating->msrnum, msr); // MSR - See the table above
gating +=1;
gating += 1;
}
}
static void GeodeLinkPriority(void){
static void GeodeLinkPriority(void)
{
msr_t msr;
struct msrinit *prio = GeodeLinkPriorityTable;
int i;
for(i = 0; prio->msrnum != 0xffffffff; i++) {
for (i = 0; prio->msrnum != 0xffffffff; i++) {
msr = rdmsr(prio->msrnum);
msr.hi |= prio->msr.hi;
msr.lo &= ~0xfff;
msr.lo |= prio->msr.lo;
/* printk_debug("%s: MSR 0x%08x will be set to 0x%08x:0x%08x\n", __FUNCTION__,
prio->msrnum, msr.hi, msr.lo); */ // GX3
prio->msrnum, msr.hi, msr.lo); */// GX3
wrmsr(prio->msrnum, msr); // MSR - See the table above
prio +=1;
prio += 1;
}
}
/*
* Get the GLIU0 shadow register settings
* If the setShadow function is used then all shadow descriptors
* will stay sync'ed.
*/
static uint64_t getShadow(void){
static uint64_t getShadow(void)
{
msr_t msr;
msr = rdmsr(MSR_GLIU0_SHADOW);
return ( ( (uint64_t) msr.hi ) << 32 ) | msr.lo;
return (((uint64_t) msr.hi) << 32) | msr.lo;
}
/*
* Set the cache RConf registers for the memory hole.
* Keeps all cache shadow descriptors sync'ed.
* This is part of the PCI lockup solution
* Entry: EDX:EAX is the shadow settings
*/
static void setShadowRCONF(uint32_t shadowHi, uint32_t shadowLo){
static void setShadowRCONF(uint32_t shadowHi, uint32_t shadowLo)
{
// ok this is whacky bit translation time.
int bit;
uint8_t shadowByte;
msr_t msr = {0, 0};
msr_t msr = { 0, 0 };
shadowByte = (uint8_t) (shadowLo >> 16);
// load up D000 settings in edx.
@ -482,7 +500,7 @@ static void setShadowRCONF(uint32_t shadowHi, uint32_t shadowLo){
}
// load up C000 settings in eax.
for ( ; bit; bit--) {
for (; bit; bit--) {
msr.lo <<= 8;
msr.lo |= 1; // cache disable PCI/Shadow memory
if (shadowByte && (1 << bit))
@ -502,7 +520,7 @@ static void setShadowRCONF(uint32_t shadowHi, uint32_t shadowLo){
}
// load up E000 settings in eax.
for ( ; bit; bit--) {
for (; bit; bit--) {
msr.lo <<= 8;
msr.lo |= 1; // cache disable PCI/Shadow memory
if (shadowByte && (1 << bit))
@ -512,7 +530,6 @@ static void setShadowRCONF(uint32_t shadowHi, uint32_t shadowLo){
wrmsr(CPU_RCONF_E0_FF, msr);
}
/*
* Set the GLPCI registers for the memory hole.
* Keeps all cache shadow descriptors sync'ed.
@ -525,11 +542,10 @@ static void setShadowGLPCI(uint32_t shadowHi, uint32_t shadowLo)
// Set the Enable Register.
msr = rdmsr(GLPCI_REN);
msr.lo &= 0xFFFF00FF;
msr.lo |= ( (shadowLo & 0xFFFF0000) >> 8);
msr.lo |= ((shadowLo & 0xFFFF0000) >> 8);
wrmsr(GLPCI_REN, msr);
}
/*
* Set the GLIU SC register settings. Scans descriptor tables for SC_SHADOW.
* Keeps all shadow descriptors sync'ed.
@ -539,7 +555,7 @@ static void setShadow(uint64_t shadowSettings)
{
int i;
msr_t msr;
struct gliutable* pTable;
struct gliutable *pTable;
uint32_t shadowLo, shadowHi;
shadowLo = (uint32_t) shadowSettings;
@ -548,21 +564,25 @@ static void setShadow(uint64_t shadowSettings)
setShadowRCONF(shadowHi, shadowLo);
setShadowGLPCI(shadowHi, shadowLo);
for(i = 0; gliutables[i]; i++) {
for (pTable = gliutables[i]; pTable->desc_type != GL_END; pTable++) {
for (i = 0; gliutables[i]; i++) {
for (pTable = gliutables[i]; pTable->desc_type != GL_END;
pTable++) {
if (pTable->desc_type == SC_SHADOW) {
msr = rdmsr(pTable->desc_name);
msr.lo = (uint32_t) shadowSettings;
msr.hi &= 0xFFFF0000; // maintain PDID in upper EDX
msr.hi |= ((uint32_t) (shadowSettings >> 32)) & 0x0000FFFF;
msr.hi |=
((uint32_t) (shadowSettings >> 32)) &
0x0000FFFF;
wrmsr(pTable->desc_name, msr); // MSR - See the table above
}
}
}
}
static void rom_shadow_settings(void){
static void rom_shadow_settings(void)
{
uint64_t shadowSettings = getShadow();
shadowSettings &= (uint64_t) 0xFFFF00000000FFFFULL; // Disable read & writes
@ -571,8 +591,6 @@ static void rom_shadow_settings(void){
setShadow(shadowSettings);
}
/***************************************************************************
*
* L1Init
@ -599,7 +617,7 @@ static void enable_L1_cache(void)
uint8_t SysMemCacheProp;
/* Locate SYSMEM entry in GLIU0table */
for(i = 0; gliu0table[i].desc_name != GL_END; i++) {
for (i = 0; gliu0table[i].desc_name != GL_END; i++) {
if (gliu0table[i].desc_type == R_SYSMEM) {
gl = &gliu0table[i];
break;
@ -607,9 +625,8 @@ static void enable_L1_cache(void)
}
if (gl == 0) {
post_code(0xCE); /* POST_RCONFInitError */
while (1);
while (1) ;
}
// sysdescfound:
msr = rdmsr(gl->desc_name);
@ -628,27 +645,32 @@ static void enable_L1_cache(void)
msr.lo |= (DEVRC_RCONF_DEFAULT << 28);
// Set the ROMBASE. This is usually FFFC0000h
msr.hi |= (ROMBASE_RCONF_DEFAULT >> 12) << RCONF_DEFAULT_UPPER_ROMBASE_SHIFT;
msr.hi |=
(ROMBASE_RCONF_DEFAULT >> 12) << RCONF_DEFAULT_UPPER_ROMBASE_SHIFT;
// Set ROMBASE cache properties.
msr.hi |= ((ROMRC_RCONF_DEFAULT >> 8) | (ROMRC_RCONF_DEFAULT << 24));
// now program RCONF_DEFAULT
wrmsr(CPU_RCONF_DEFAULT, msr);
printk_debug("CPU_RCONF_DEFAULT (1808): 0x%08X:0x%08X\n",msr.hi,msr.lo);
printk_debug("CPU_RCONF_DEFAULT (1808): 0x%08X:0x%08X\n", msr.hi,
msr.lo);
// RCONF_BYPASS: Cache tablewalk properties and SMM/DMM header access properties.
// Set to match system memory cache properties.
msr = rdmsr(CPU_RCONF_DEFAULT);
SysMemCacheProp = (uint8_t) (msr.lo & 0xFF);
msr = rdmsr(CPU_RCONF_BYPASS);
msr.lo = (msr.lo & 0xFFFF0000) | (SysMemCacheProp << 8) | SysMemCacheProp;
msr.lo =
(msr.lo & 0xFFFF0000) | (SysMemCacheProp << 8) | SysMemCacheProp;
wrmsr(CPU_RCONF_BYPASS, msr);
printk_debug("CPU_RCONF_BYPASS (180A): 0x%08x : 0x%08x\n", msr.hi, msr.lo);
printk_debug("CPU_RCONF_BYPASS (180A): 0x%08x : 0x%08x\n", msr.hi,
msr.lo);
}
static void enable_L2_cache(void) {
static void enable_L2_cache(void)
{
msr_t msr;
/* Instruction Memory Configuration register
@ -695,13 +717,14 @@ static void setup_lx_cache(void)
wbinvd();
}
uint32_t get_systop(void) {
uint32_t get_systop(void)
{
struct gliutable *gl = 0;
uint32_t systop;
msr_t msr;
int i;
for(i = 0; gliu0table[i].desc_name != GL_END; i++) {
for (i = 0; gliu0table[i].desc_name != GL_END; i++) {
if (gliu0table[i].desc_type == R_SYSMEM) {
gl = &gliu0table[i];
break;
@ -711,8 +734,9 @@ uint32_t get_systop(void) {
msr = rdmsr(gl->desc_name);
systop = ((msr.hi & 0xFF) << 24) | ((msr.lo & 0xFFF00000) >> 8);
systop += 0x1000; /* 4K */
}else{
systop = ((sizeram() - CONFIG_VIDEO_MB) * 1024) - SMM_SIZE - 1024;
} else {
systop =
((sizeram() - CONFIG_VIDEO_MB) * 1024) - SMM_SIZE - 1024;
}
return systop;
}
@ -729,12 +753,12 @@ void northbridge_init_early(void)
int i;
printk_debug("Enter %s\n", __FUNCTION__);
for(i = 0; gliutables[i]; i++)
for (i = 0; gliutables[i]; i++)
GLIUInit(gliutables[i]);
/* Now that the descriptor to memory is set up.*/
/* The memory controller needs one read to synch its lines before it can be used.*/
i = *(int *) 0;
/* Now that the descriptor to memory is set up. */
/* The memory controller needs one read to synch its lines before it can be used. */
i = *(int *)0;
GeodeLinkPriority();
@ -749,4 +773,3 @@ void northbridge_init_early(void)
__asm__ __volatile__("FINIT\n");
printk_debug("Exit %s\n", __FUNCTION__);
}

55
src/northbridge/amd/lx/pll_reset.c
View File

@ -33,23 +33,27 @@ static void pll_reset(char manualconf)
print_debug("\r\n");
POST_CODE(POST_PLL_INIT);
if (!(msrGlcpSysRstpll.lo & (1 << RSTPLL_LOWER_SWFLAGS_SHIFT))){
if (!(msrGlcpSysRstpll.lo & (1 << RSTPLL_LOWER_SWFLAGS_SHIFT))) {
print_debug("Configuring PLL\n");
if(manualconf){
if (manualconf) {
POST_CODE(POST_PLL_MANUAL);
/* CPU and GLIU mult/div (GLMC_CLK = GLIU_CLK / 2) */
msrGlcpSysRstpll.hi = PLLMSRhi;
/* Hold Count - how long we will sit in reset */
msrGlcpSysRstpll.lo = PLLMSRlo;
}
else{
/*automatic configuration (straps)*/
} else {
/*automatic configuration (straps) */
POST_CODE(POST_PLL_STRAP);
msrGlcpSysRstpll.lo &= ~(0xFF << RSTPPL_LOWER_HOLD_COUNT_SHIFT);
msrGlcpSysRstpll.lo |= (0xDE << RSTPPL_LOWER_HOLD_COUNT_SHIFT);
msrGlcpSysRstpll.lo &= ~(RSTPPL_LOWER_COREBYPASS_SET | RSTPPL_LOWER_MBBYPASS_SET);
msrGlcpSysRstpll.lo |= RSTPPL_LOWER_COREPD_SET | RSTPPL_LOWER_CLPD_SET;
msrGlcpSysRstpll.lo &=
~(0xFF << RSTPPL_LOWER_HOLD_COUNT_SHIFT);
msrGlcpSysRstpll.lo |=
(0xDE << RSTPPL_LOWER_HOLD_COUNT_SHIFT);
msrGlcpSysRstpll.lo &=
~(RSTPPL_LOWER_COREBYPASS_SET |
RSTPPL_LOWER_MBBYPASS_SET);
msrGlcpSysRstpll.lo |=
RSTPPL_LOWER_COREPD_SET | RSTPPL_LOWER_CLPD_SET;
}
/* Use SWFLAGS to remember: "we've already been here" */
msrGlcpSysRstpll.lo |= (1 << RSTPLL_LOWER_SWFLAGS_SHIFT);
@ -58,7 +62,7 @@ static void pll_reset(char manualconf)
msrGlcpSysRstpll.lo |= RSTPPL_LOWER_CHIP_RESET_SET;
wrmsr(GLCP_SYS_RSTPLL, msrGlcpSysRstpll);
/* You should never get here..... The chip has reset.*/
/* You should never get here..... The chip has reset. */
print_debug("CONFIGURING PLL FAILURE\n");
POST_CODE(POST_PLL_RESET_FAIL);
__asm__ __volatile__("hlt\n");
@ -68,37 +72,38 @@ static void pll_reset(char manualconf)
return;
}
static unsigned int CPUSpeed(void){
static unsigned int CPUSpeed(void)
{
unsigned int speed;
msr_t msr;
msr = rdmsr(GLCP_SYS_RSTPLL);
speed = ((((msr.hi >> RSTPLL_UPPER_CPUMULT_SHIFT) & 0x1F)+1)*333)/10;
if((((((msr.hi >> RSTPLL_UPPER_CPUMULT_SHIFT) & 0x1F)+1)*333)%10) > 5){
speed = ((((msr.hi >> RSTPLL_UPPER_CPUMULT_SHIFT) & 0x1F) + 1) * 333) / 10;
if ((((((msr.hi >> RSTPLL_UPPER_CPUMULT_SHIFT) & 0x1F) + 1) * 333) % 10) > 5) {
++speed;
}
return(speed);
return (speed);
}
static unsigned int GeodeLinkSpeed(void){
static unsigned int GeodeLinkSpeed(void)
{
unsigned int speed;
msr_t msr;
msr = rdmsr(GLCP_SYS_RSTPLL);
speed = ((((msr.hi >> RSTPLL_UPPER_GLMULT_SHIFT) & 0x1F)+1)*333)/10;
if((((((msr.hi >> RSTPLL_UPPER_GLMULT_SHIFT) & 0x1F)+1)*333)%10) > 5){
speed = ((((msr.hi >> RSTPLL_UPPER_GLMULT_SHIFT) & 0x1F) + 1) * 333) / 10;
if ((((((msr.hi >> RSTPLL_UPPER_GLMULT_SHIFT) & 0x1F) + 1) * 333) % 10) > 5) {
++speed;
}
return(speed);
return (speed);
}
static unsigned int PCISpeed(void){
static unsigned int PCISpeed(void)
{
msr_t msr;
msr = rdmsr(GLCP_SYS_RSTPLL);
if (msr.hi & (1 << RSTPPL_LOWER_PCISPEED_SHIFT)){
return(66);
}
else{
return(33);
if (msr.hi & (1 << RSTPPL_LOWER_PCISPEED_SHIFT)) {
return (66);
} else {
return (33);
}
}

322
src/northbridge/amd/lx/raminit.c
View File

@ -22,9 +22,13 @@
#include <spd.h>
#include "southbridge/amd/cs5536/cs5536.h"
static const unsigned char NumColAddr[] = {0x00,0x10,0x11,0x00,0x00,0x00,0x00,0x07,0x08,0x09,0x0A,0x0B,0x0C,0x0D,0x0E,0x0F};
static const unsigned char NumColAddr[] = {
0x00, 0x10, 0x11, 0x00, 0x00, 0x00, 0x00, 0x07,
0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x0D, 0x0E, 0x0F
};
static void auto_size_dimm(unsigned int dimm){
static void auto_size_dimm(unsigned int dimm)
{
uint32_t dimm_setting;
uint16_t dimm_size;
uint8_t spd_byte;
@ -33,32 +37,30 @@ static void auto_size_dimm(unsigned int dimm){
dimm_setting = 0;
/* Check that we have a dimm */
if (spd_read_byte(dimm, SPD_MEMORY_TYPE) == 0xFF){
if (spd_read_byte(dimm, SPD_MEMORY_TYPE) == 0xFF) {
return;
}
}
/* Field: Module Banks per DIMM */
/* EEPROM byte usage: (5) Number of DIMM Banks */
spd_byte = spd_read_byte(dimm, SPD_NUM_DIMM_BANKS);
if ((MIN_MOD_BANKS > spd_byte) && (spd_byte > MAX_MOD_BANKS)){
if ((MIN_MOD_BANKS > spd_byte) && (spd_byte > MAX_MOD_BANKS)) {
print_debug("Number of module banks not compatible\r\n");
POST_CODE(ERROR_BANK_SET);
__asm__ __volatile__("hlt\n");
}
dimm_setting |= (spd_byte >> 1) << CF07_UPPER_D0_MB_SHIFT;
/* Field: Banks per SDRAM device */
/* EEPROM byte usage: (17) Number of Banks on SDRAM Device */
spd_byte = spd_read_byte(dimm, SPD_NUM_BANKS_PER_SDRAM);
if ((MIN_DEV_BANKS > spd_byte) && (spd_byte > MAX_DEV_BANKS)){
if ((MIN_DEV_BANKS > spd_byte) && (spd_byte > MAX_DEV_BANKS)) {
print_debug("Number of device banks not compatible\r\n");
POST_CODE(ERROR_BANK_SET);
__asm__ __volatile__("hlt\n");
}
dimm_setting |= (spd_byte >> 2) << CF07_UPPER_D0_CB_SHIFT;
/*; Field: DIMM size
*; EEPROM byte usage: (3) Number or Row Addresses
*; (4) Number of Column Addresses
@ -66,27 +68,27 @@ static void auto_size_dimm(unsigned int dimm){
*; (31) Module Bank Density
*; Size = Module Density * Module Banks
*/
if ((spd_read_byte(dimm, SPD_NUM_ROWS) & 0xF0) || (spd_read_byte(dimm, SPD_NUM_COLUMNS) & 0xF0)){
if ((spd_read_byte(dimm, SPD_NUM_ROWS) & 0xF0)
|| (spd_read_byte(dimm, SPD_NUM_COLUMNS) & 0xF0)) {
print_debug("Assymetirc DIMM not compatible\r\n");
POST_CODE(ERROR_UNSUPPORTED_DIMM);
__asm__ __volatile__("hlt\n");
}
dimm_size = spd_read_byte(dimm, SPD_BANK_DENSITY);
dimm_size |= (dimm_size << 8); /* align so 1GB(bit0) is bit 8, this is a little weird to get gcc to not optimize this out*/
dimm_size &= 0x01FC; /* and off 2GB DIMM size : not supported and the 1GB size we just moved up to bit 8 as well as all the extra on top*/
dimm_size |= (dimm_size << 8); /* align so 1GB(bit0) is bit 8, this is a little weird to get gcc to not optimize this out */
dimm_size &= 0x01FC; /* and off 2GB DIMM size : not supported and the 1GB size we just moved up to bit 8 as well as all the extra on top */
/* Module Density * Module Banks */
dimm_size <<= (dimm_setting >> CF07_UPPER_D0_MB_SHIFT) & 1; /* shift to multiply by # DIMM banks */
dimm_size = __builtin_ctz(dimm_size);
if (dimm_size > 8){ /* 8 is 1GB only support 1GB per DIMM */
if (dimm_size > 8) { /* 8 is 1GB only support 1GB per DIMM */
print_debug("Only support up to 1 GB per DIMM\r\n");
POST_CODE(ERROR_DENSITY_DIMM);
__asm__ __volatile__("hlt\n");
}
dimm_setting |= dimm_size << CF07_UPPER_D0_SZ_SHIFT;
/*; Field: PAGE size
*; EEPROM byte usage: (4) Number of Column Addresses
*; PageSize = 2^# Column Addresses * Data width in bytes (should be 8bytes for a normal DIMM)
@ -116,36 +118,36 @@ static void auto_size_dimm(unsigned int dimm){
POST_CODE(ERROR_SET_PAGE);
__asm__ __volatile__("hlt\n");
}
spd_byte -=7;
if (spd_byte > 5){ /* if the value is above 6 it means >12 address lines */
spd_byte -= 7;
if (spd_byte > 5) { /* if the value is above 6 it means >12 address lines */
spd_byte = 7; /* which means >32k so set to disabled */
}
dimm_setting |= spd_byte << CF07_UPPER_D0_PSZ_SHIFT; /* 0=1k,1=2k,2=4k,etc */
msr = rdmsr(MC_CF07_DATA);
if (dimm == DIMM0){
if (dimm == DIMM0) {
msr.hi &= 0xFFFF0000;
msr.hi |= dimm_setting;
}else{
} else {
msr.hi &= 0x0000FFFF;
msr.hi |= dimm_setting << 16;
}
wrmsr(MC_CF07_DATA, msr);
}
static void checkDDRMax(void){
static void checkDDRMax(void)
{
uint8_t spd_byte0, spd_byte1;
uint16_t speed;
/* PC133 identifier */
spd_byte0 = spd_read_byte(DIMM0, SPD_MIN_CYCLE_TIME_AT_CAS_MAX);
if (spd_byte0 == 0xFF){
spd_byte0=0;
if (spd_byte0 == 0xFF) {
spd_byte0 = 0;
}
spd_byte1 = spd_read_byte(DIMM1, SPD_MIN_CYCLE_TIME_AT_CAS_MAX);
if (spd_byte1 == 0xFF){
spd_byte1=0;
if (spd_byte1 == 0xFF) {
spd_byte1 = 0;
}
/* I don't think you need this check.
@ -153,61 +155,61 @@ static void checkDDRMax(void){
print_debug("DIMM overclocked. Check GeodeLink Speed\r\n");
POST_CODE(POST_PLL_MEM_FAIL);
__asm__ __volatile__("hlt\n");
}*/
} */
/* Use the slowest DIMM */
if (spd_byte0 < spd_byte1){
if (spd_byte0 < spd_byte1) {
spd_byte0 = spd_byte1;
}
/* Turn SPD ns time into MHZ. Check what the asm does to this math. */
speed = 2*((10000/(((spd_byte0 >> 4) * 10) + (spd_byte0 & 0x0F))));
speed = 2 * ((10000 / (((spd_byte0 >> 4) * 10) + (spd_byte0 & 0x0F))));
/* current speed > max speed? */
if (GeodeLinkSpeed() > speed){
if (GeodeLinkSpeed() > speed) {
print_debug("DIMM overclocked. Check GeodeLink Speed\r\n");
POST_CODE(POST_PLL_MEM_FAIL);
__asm__ __volatile__("hlt\n");
}
}
const uint16_t REF_RATE[] = { 15, 3, 7, 31, 62, 125 }; /* ns */
const uint16_t REF_RATE[] = {15, 3, 7, 31, 62, 125}; /* ns */
static void set_refresh_rate(void){
static void set_refresh_rate(void)
{
uint8_t spd_byte0, spd_byte1;
uint16_t rate0, rate1;
msr_t msr;
spd_byte0 = spd_read_byte(DIMM0, SPD_REFRESH);
spd_byte0 &= 0xF;
if (spd_byte0 > 5){
if (spd_byte0 > 5) {
spd_byte0 = 5;
}
rate0 = REF_RATE[spd_byte0];
spd_byte1 = spd_read_byte(DIMM1, SPD_REFRESH);
spd_byte1 &= 0xF;
if (spd_byte1 > 5){
if (spd_byte1 > 5) {
spd_byte1 = 5;
}
rate1 = REF_RATE[spd_byte1];
/* Use the faster rate (lowest number) */
if (rate0 > rate1){
if (rate0 > rate1) {
rate0 = rate1;
}
msr = rdmsr(MC_CF07_DATA);
msr.lo|= ((rate0 * (GeodeLinkSpeed()/2))/16) << CF07_LOWER_REF_INT_SHIFT;
msr.lo |= ((rate0 * (GeodeLinkSpeed() / 2)) / 16)
<< CF07_LOWER_REF_INT_SHIFT;
wrmsr(MC_CF07_DATA, msr);
}
}
const uint8_t CASDDR[] = { 5, 5, 2, 6, 3, 7, 4, 0 }; /* 1(1.5), 1.5, 2, 2.5, 3, 3.5, 4, 0 */
const uint8_t CASDDR[] = {5, 5, 2, 6, 3, 7, 4, 0}; /* 1(1.5), 1.5, 2, 2.5, 3, 3.5, 4, 0 */
static void setCAS(void){
static void setCAS(void)
{
/*;*****************************************************************************
;*
;* setCAS
@ -236,188 +238,183 @@ static void setCAS(void){
/************************** DIMM0 **********************************/
casmap0 = spd_read_byte(DIMM0, SPD_ACCEPTABLE_CAS_LATENCIES);
if (casmap0 != 0xFF){
if (casmap0 != 0xFF) {
/* IF -.5 timing is supported, check -.5 timing > GeodeLink */
spd_byte = spd_read_byte(DIMM0, SPD_SDRAM_CYCLE_TIME_2ND);
if(spd_byte != 0){
if (spd_byte != 0) {
/* Turn SPD ns time into MHZ. Check what the asm does to this math. */
dimm_speed = 2*(10000/(((spd_byte >> 4) * 10) + (spd_byte & 0x0F)));
if (dimm_speed >= glspeed){
dimm_speed = 2 * (10000 / (((spd_byte >> 4) * 10) +
(spd_byte & 0x0F)));
if (dimm_speed >= glspeed) {
/* IF -1 timing is supported, check -1 timing > GeodeLink */
spd_byte = spd_read_byte(DIMM0, SPD_SDRAM_CYCLE_TIME_3RD);
if(spd_byte != 0){
if (spd_byte != 0) {
/* Turn SPD ns time into MHZ. Check what the asm does to this math. */
dimm_speed = 2*(10000/(((spd_byte >> 4) * 10) + (spd_byte & 0x0F)));
if (dimm_speed <= glspeed){
dimm_speed = 2 * (10000 / (((spd_byte >> 4) * 10) + (spd_byte & 0x0F)));
if (dimm_speed <= glspeed) {
/* set we can use -.5 timing but not -1 */
spd_byte = 31 - __builtin_clz((uint32_t)casmap0); /* just want bits in the lower byte since we have to cast to a 32 */
spd_byte = 31 - __builtin_clz((uint32_t) casmap0);
/* just want bits in the lower byte since we have to cast to a 32 */
casmap0 &= 0xFF << (--spd_byte);
}
} /*MIN_CYCLE_10 !=0 */
}
else{ /* Timing_05 < GLspeed, can't use -.5 or -1 timing */
spd_byte = 31 - __builtin_clz((uint32_t)casmap0); /* just want bits in the lower byte since we have to cast to a 32 */
} else {
/* Timing_05 < GLspeed, can't use -.5 or -1 timing */
spd_byte = 31 - __builtin_clz((uint32_t) casmap0);
/* just want bits in the lower byte since we have to cast to a 32 */
casmap0 &= 0xFF << (spd_byte);
}
} /*MIN_CYCLE_05 !=0 */
}
else{ /* No DIMM */
casmap0=0;
} else { /* No DIMM */
casmap0 = 0;
}
/************************** DIMM1 **********************************/
casmap1 = spd_read_byte(DIMM1, SPD_ACCEPTABLE_CAS_LATENCIES);
if (casmap1 != 0xFF){
if (casmap1 != 0xFF) {
/* IF -.5 timing is supported, check -.5 timing > GeodeLink */
spd_byte = spd_read_byte(DIMM1, SPD_SDRAM_CYCLE_TIME_2ND);
if(spd_byte != 0){
if (spd_byte != 0) {
/* Turn SPD ns time into MHZ. Check what the asm does to this math. */
dimm_speed = 2*(10000/(((spd_byte >> 4) * 10) + (spd_byte & 0x0F)));
if (dimm_speed >= glspeed){
dimm_speed = 2 * (10000 / (((spd_byte >> 4) * 10) + (spd_byte & 0x0F)));
if (dimm_speed >= glspeed) {
/* IF -1 timing is supported, check -1 timing > GeodeLink */
spd_byte = spd_read_byte(DIMM1, SPD_SDRAM_CYCLE_TIME_3RD);
if(spd_byte != 0){
if (spd_byte != 0) {
/* Turn SPD ns time into MHZ. Check what the asm does to this math. */
dimm_speed = 2*(10000/(((spd_byte >> 4) * 10) + (spd_byte & 0x0F)));
if (dimm_speed <= glspeed){
dimm_speed = 2 * (10000 / (((spd_byte >> 4) * 10) + (spd_byte & 0x0F)));
if (dimm_speed <= glspeed) {
/* set we can use -.5 timing but not -1 */
spd_byte =31 - __builtin_clz((uint32_t)casmap1); /* just want bits in the lower byte since we have to cast to a 32 */
spd_byte = 31 - __builtin_clz((uint32_t) casmap1);
/* just want bits in the lower byte since we have to cast to a 32 */
casmap1 &= 0xFF << (--spd_byte);
}
} /*MIN_CYCLE_10 !=0 */
}
else{ /* Timing_05 < GLspeed, can't use -.5 or -1 timing */
spd_byte = 31 - __builtin_clz((uint32_t)casmap1); /* just want bits in the lower byte since we have to cast to a 32 */
} else {
/* Timing_05 < GLspeed, can't use -.5 or -1 timing */
spd_byte = 31 - __builtin_clz((uint32_t) casmap1);
/* just want bits in the lower byte since we have to cast to a 32 */
casmap1 &= 0xFF << (spd_byte);
}
} /*MIN_CYCLE_05 !=0 */
}
else{ /* No DIMM */
casmap1=0;
} else { /* No DIMM */
casmap1 = 0;
}
/********************* CAS_LAT MAP COMPARE ***************************/
if (casmap0 == 0){
spd_byte = CASDDR[__builtin_ctz((uint32_t)casmap1)];
}
else if (casmap1 == 0){
spd_byte = CASDDR[__builtin_ctz((uint32_t)casmap0)];
}
else if ((casmap0 &= casmap1)){
spd_byte = CASDDR[__builtin_ctz((uint32_t)casmap0)];
}
else{
if (casmap0 == 0) {
spd_byte = CASDDR[__builtin_ctz((uint32_t) casmap1)];
} else if (casmap1 == 0) {
spd_byte = CASDDR[__builtin_ctz((uint32_t) casmap0)];
} else if ((casmap0 &= casmap1)) {
spd_byte = CASDDR[__builtin_ctz((uint32_t) casmap0)];
} else {
print_debug("DIMM CAS Latencies not compatible\r\n");
POST_CODE(ERROR_DIFF_DIMMS);
__asm__ __volatile__("hlt\n");
}
msr = rdmsr(MC_CF8F_DATA);
msr.lo &= ~(7 << CF8F_LOWER_CAS_LAT_SHIFT);
msr.lo |= spd_byte << CF8F_LOWER_CAS_LAT_SHIFT;
wrmsr(MC_CF8F_DATA, msr);
}
static void set_latencies(void){
static void set_latencies(void)
{
uint32_t memspeed, dimm_setting;
uint8_t spd_byte0, spd_byte1;
msr_t msr;
memspeed = GeodeLinkSpeed()/2;
dimm_setting=0;
memspeed = GeodeLinkSpeed() / 2;
dimm_setting = 0;
/* MC_CF8F setup */
/* tRAS */
spd_byte0 = spd_read_byte(DIMM0, SPD_tRAS);
if (spd_byte0 == 0xFF){
spd_byte0=0;
if (spd_byte0 == 0xFF) {
spd_byte0 = 0;
}
spd_byte1 = spd_read_byte(DIMM1, SPD_tRAS);
if (spd_byte1 == 0xFF){
spd_byte1=0;
if (spd_byte1 == 0xFF) {
spd_byte1 = 0;
}
if (spd_byte0 < spd_byte1){
if (spd_byte0 < spd_byte1) {
spd_byte0 = spd_byte1;
}
/* (ns/(1/MHz) = (us*MHZ)/1000 = clocks/1000 = clocks) */
spd_byte1 = (spd_byte0 * memspeed)/1000;
if(((spd_byte0 * memspeed)%1000)){
spd_byte1 = (spd_byte0 * memspeed) / 1000;
if (((spd_byte0 * memspeed) % 1000)) {
++spd_byte1;
}
dimm_setting |= spd_byte1 << CF8F_LOWER_ACT2PRE_SHIFT;
/* tRP */
spd_byte0 = spd_read_byte(DIMM0, SPD_tRP);
if (spd_byte0 == 0xFF){
spd_byte0=0;
if (spd_byte0 == 0xFF) {
spd_byte0 = 0;
}
spd_byte1 = spd_read_byte(DIMM1, SPD_tRP);
if (spd_byte1 == 0xFF){
spd_byte1=0;
if (spd_byte1 == 0xFF) {
spd_byte1 = 0;
}
if (spd_byte0 < spd_byte1){
if (spd_byte0 < spd_byte1) {
spd_byte0 = spd_byte1;
}
/* (ns/(1/MHz) = (us*MHZ)/1000 = clocks/1000 = clocks) */
spd_byte1 = ((spd_byte0 >> 2) * memspeed)/1000;
if((((spd_byte0 >> 2) * memspeed)%1000)){
spd_byte1 = ((spd_byte0 >> 2) * memspeed) / 1000;
if ((((spd_byte0 >> 2) * memspeed) % 1000)) {
++spd_byte1;
}
dimm_setting |= spd_byte1 << CF8F_LOWER_PRE2ACT_SHIFT;
/* tRCD */
spd_byte0 = spd_read_byte(DIMM0, SPD_tRCD);
if (spd_byte0 == 0xFF){
spd_byte0=0;
if (spd_byte0 == 0xFF) {
spd_byte0 = 0;
}
spd_byte1 = spd_read_byte(DIMM1, SPD_tRCD);
if (spd_byte1 == 0xFF){
spd_byte1=0;
if (spd_byte1 == 0xFF) {
spd_byte1 = 0;
}
if (spd_byte0 < spd_byte1){
if (spd_byte0 < spd_byte1) {
spd_byte0 = spd_byte1;
}
/* (ns/(1/MHz) = (us*MHZ)/1000 = clocks/1000 = clocks) */
spd_byte1 = ((spd_byte0 >> 2) * memspeed)/1000;
if((((spd_byte0 >> 2) * memspeed)%1000)){
spd_byte1 = ((spd_byte0 >> 2) * memspeed) / 1000;
if ((((spd_byte0 >> 2) * memspeed) % 1000)) {
++spd_byte1;
}
dimm_setting |= spd_byte1 << CF8F_LOWER_ACT2CMD_SHIFT;
/* tRRD */
spd_byte0 = spd_read_byte(DIMM0, SPD_tRRD);
if (spd_byte0 == 0xFF){
spd_byte0=0;
if (spd_byte0 == 0xFF) {
spd_byte0 = 0;
}
spd_byte1 = spd_read_byte(DIMM1, SPD_tRRD);
if (spd_byte1 == 0xFF){
spd_byte1=0;
if (spd_byte1 == 0xFF) {
spd_byte1 = 0;
}
if (spd_byte0 < spd_byte1){
if (spd_byte0 < spd_byte1) {
spd_byte0 = spd_byte1;
}
/* (ns/(1/MHz) = (us*MHZ)/1000 = clocks/1000 = clocks) */
spd_byte1 = ((spd_byte0 >> 2) * memspeed)/1000;
if((((spd_byte0 >> 2) * memspeed)%1000)){
spd_byte1 = ((spd_byte0 >> 2) * memspeed) / 1000;
if ((((spd_byte0 >> 2) * memspeed) % 1000)) {
++spd_byte1;
}
dimm_setting |= spd_byte1 << CF8F_LOWER_ACT2ACT_SHIFT;
/* tRC = tRP + tRAS */
dimm_setting |= (((dimm_setting >> CF8F_LOWER_ACT2PRE_SHIFT) & 0x0F) + ((dimm_setting >> CF8F_LOWER_PRE2ACT_SHIFT) & 0x07)) \
dimm_setting |= (((dimm_setting >> CF8F_LOWER_ACT2PRE_SHIFT) & 0x0F) +
((dimm_setting >> CF8F_LOWER_PRE2ACT_SHIFT) & 0x07))
<< CF8F_LOWER_ACT2ACTREF_SHIFT;
msr = rdmsr(MC_CF8F_DATA);
msr.lo &= 0xF00000FF;
msr.lo |= dimm_setting;
@ -427,25 +424,24 @@ static void set_latencies(void){
/* MC_CF1017 setup */
/* tRFC */
spd_byte0 = spd_read_byte(DIMM0, SPD_tRFC);
if (spd_byte0 == 0xFF){
spd_byte0=0;
if (spd_byte0 == 0xFF) {
spd_byte0 = 0;
}
spd_byte1 = spd_read_byte(DIMM1, SPD_tRFC);
if (spd_byte1 == 0xFF){
spd_byte1=0;
if (spd_byte1 == 0xFF) {
spd_byte1 = 0;
}
if (spd_byte0 < spd_byte1){
if (spd_byte0 < spd_byte1) {
spd_byte0 = spd_byte1;
}
if (spd_byte0){
if (spd_byte0) {
/* (ns/(1/MHz) = (us*MHZ)/1000 = clocks/1000 = clocks) */
spd_byte1 = (spd_byte0 * memspeed)/1000;
if(((spd_byte0 * memspeed)%1000)){
spd_byte1 = (spd_byte0 * memspeed) / 1000;
if (((spd_byte0 * memspeed) % 1000)) {
++spd_byte1;
}
}
else{ /* Not all SPDs have tRFC setting. Use this formula tRFC = tRC + 1 clk */
} else { /* Not all SPDs have tRFC setting. Use this formula tRFC = tRC + 1 clk */
spd_byte1 = ((dimm_setting >> CF8F_LOWER_ACT2ACTREF_SHIFT) & 0x0F) + 1;
}
dimm_setting = spd_byte1 << CF1017_LOWER_REF2ACT_SHIFT; /* note this clears the cf8f dimm setting */
@ -455,7 +451,7 @@ static void set_latencies(void){
wrmsr(MC_CF1017_DATA, msr);
/* tWTR: Set tWTR to 2 for 400MHz and above GLBUS (200Mhz mem) other wise it stay default(1) */
if (memspeed > 198){
if (memspeed > 198) {
msr = rdmsr(MC_CF1017_DATA);
msr.lo &= ~(0x7 << CF1017_LOWER_WR_TO_RD_SHIFT);
msr.lo |= 2 << CF1017_LOWER_WR_TO_RD_SHIFT;
@ -463,41 +459,45 @@ static void set_latencies(void){
}
}
static void set_extended_mode_registers(void){
static void set_extended_mode_registers(void)
{
uint8_t spd_byte0, spd_byte1;
msr_t msr;
spd_byte0 = spd_read_byte(DIMM0, SPD_DEVICE_ATTRIBUTES_GENERAL);
if (spd_byte0 == 0xFF){
spd_byte0=0;
if (spd_byte0 == 0xFF) {
spd_byte0 = 0;
}
spd_byte1 = spd_read_byte(DIMM1, SPD_DEVICE_ATTRIBUTES_GENERAL);
if (spd_byte1 == 0xFF){
spd_byte1=0;
if (spd_byte1 == 0xFF) {
spd_byte1 = 0;
}
spd_byte1 &= spd_byte0;
msr = rdmsr(MC_CF07_DATA);
if (spd_byte1 & 1){ /* Drive Strength Control */
if (spd_byte1 & 1) { /* Drive Strength Control */
msr.lo |= CF07_LOWER_EMR_DRV_SET;
}
if (spd_byte1 & 2){ /* FET Control */
if (spd_byte1 & 2) { /* FET Control */
msr.lo |= CF07_LOWER_EMR_QFC_SET;
}
wrmsr(MC_CF07_DATA, msr);
}
static void EnableMTest (void){
static void EnableMTest(void)
{
msr_t msr;
msr = rdmsr(GLCP_DELAY_CONTROLS);
msr.hi &= ~(7 << 20); /* clear bits 54:52 */
if (GeodeLinkSpeed() < 200){
if (GeodeLinkSpeed() < 200) {
msr.hi |= 2 << 20;
}
wrmsr(GLCP_DELAY_CONTROLS, msr);
msr = rdmsr(MC_CFCLK_DBUG);
msr.hi |= CFCLK_UPPER_MTST_B2B_DIS_SET | CFCLK_UPPER_MTEST_EN_SET | CFCLK_UPPER_MTST_RBEX_EN_SET;
msr.hi |=
CFCLK_UPPER_MTST_B2B_DIS_SET | CFCLK_UPPER_MTEST_EN_SET |
CFCLK_UPPER_MTST_RBEX_EN_SET;
msr.lo |= CFCLK_LOWER_TRISTATE_DIS_SET;
wrmsr(MC_CFCLK_DBUG, msr);
@ -513,10 +513,9 @@ static void sdram_set_registers(const struct mem_controller *ctrl)
msrnum = MC_CF1017_DATA;
msr = rdmsr(msrnum);
msr.lo &= ~(7 << CF1017_LOWER_RD_TMG_CTL_SHIFT);
if (GeodeLinkSpeed() < 334){
if (GeodeLinkSpeed() < 334) {
msr.lo |= (3 << CF1017_LOWER_RD_TMG_CTL_SHIFT);
}
else{
} else {
msr.lo |= (4 << CF1017_LOWER_RD_TMG_CTL_SHIFT);
}
wrmsr(msrnum, msr);
@ -535,7 +534,6 @@ static void sdram_set_registers(const struct mem_controller *ctrl)
wrmsr(msrnum, msr); */
}
static void sdram_set_spd_registers(const struct mem_controller *ctrl)
{
uint8_t spd_byte;
@ -544,13 +542,13 @@ static void sdram_set_spd_registers(const struct mem_controller *ctrl)
spd_byte = spd_read_byte(DIMM0, SPD_MODULE_ATTRIBUTES);
/* Check DIMM is not Register and not Buffered DIMMs. */
if ((spd_byte != 0xFF) && (spd_byte & 3) ){
if ((spd_byte != 0xFF) && (spd_byte & 3)) {
print_debug("DIMM0 NOT COMPATIBLE\r\n");
POST_CODE(ERROR_UNSUPPORTED_DIMM);
__asm__ __volatile__("hlt\n");
}
spd_byte = spd_read_byte(DIMM1, SPD_MODULE_ATTRIBUTES);
if ((spd_byte != 0xFF) && (spd_byte & 3)){
if ((spd_byte != 0xFF) && (spd_byte & 3)) {
print_debug("DIMM1 NOT COMPATIBLE\r\n");
POST_CODE(ERROR_UNSUPPORTED_DIMM);
__asm__ __volatile__("hlt\n");
@ -604,12 +602,12 @@ static void sdram_enable(int controllers, const struct mem_controller *ctrl)
POST_CODE(POST_MEM_ENABLE); // post_76h
/* Only enable MTest for TLA memory debug */
/*EnableMTest();*/
/*EnableMTest(); */
/* If both Page Size = "Not Installed" we have a problems and should halt. */
msr = rdmsr(MC_CF07_DATA);
if ((msr.hi & ((7 << CF07_UPPER_D1_PSZ_SHIFT) | (7 << CF07_UPPER_D0_PSZ_SHIFT))) \
== ((7 << CF07_UPPER_D1_PSZ_SHIFT) | (7 << CF07_UPPER_D0_PSZ_SHIFT))){
if ((msr.hi & ((7 << CF07_UPPER_D1_PSZ_SHIFT) | (7 << CF07_UPPER_D0_PSZ_SHIFT))) ==
((7 << CF07_UPPER_D1_PSZ_SHIFT) | (7 << CF07_UPPER_D0_PSZ_SHIFT))) {
print_debug("No memory in the system\r\n");
POST_CODE(ERROR_NO_DIMMS);
__asm__ __volatile__("hlt\n");
@ -621,13 +619,11 @@ static void sdram_enable(int controllers, const struct mem_controller *ctrl)
msr.lo &= ~(CFCLK_LOWER_MASK_CKE_SET0 | CFCLK_LOWER_MASK_CKE_SET1);
wrmsr(msrnum, msr);
/* Force Precharge All on next command, EMRS */
msrnum = MC_CFCLK_DBUG;
msr = rdmsr(msrnum);
msr.lo |= CFCLK_LOWER_FORCE_PRE_SET;
wrmsr(msrnum,msr);
wrmsr(msrnum, msr);
/* EMRS to enable DLL (pre-setup done in setExtendedModeRegisters) */
msrnum = MC_CF07_DATA;
@ -637,29 +633,25 @@ static void sdram_enable(int controllers, const struct mem_controller *ctrl)
msr.lo &= ~(CF07_LOWER_PROG_DRAM_SET | CF07_LOWER_LOAD_MODE_DDR_SET);
wrmsr(msrnum, msr);
/* Clear Force Precharge All */
msrnum = MC_CFCLK_DBUG;
msr = rdmsr(msrnum);
msr.lo &= ~CFCLK_LOWER_FORCE_PRE_SET;
wrmsr(msrnum, msr);
/* MRS Reset DLL - set */
msrnum = MC_CF07_DATA;
msr = rdmsr(msrnum);
msr.lo |= CF07_LOWER_PROG_DRAM_SET | CF07_LOWER_LOAD_MODE_DLL_RESET;
wrmsr(msrnum,msr);
wrmsr(msrnum, msr);
msr.lo &= ~(CF07_LOWER_PROG_DRAM_SET | CF07_LOWER_LOAD_MODE_DLL_RESET);
wrmsr(msrnum, msr);
/* 2us delay (200 clocks @ 200Mhz). We probably really don't need this but.... better safe. */
/* Wait 2 PORT61 ticks. between 15us and 30us */
/* This would be endless if the timer is stuck. */
while ((inb(0x61))); /* find the first edge */
while (!(~inb(0x61)));
while ((inb(0x61))) ; /* find the first edge */
while (!(~inb(0x61))) ;
/* Force Precharge All on the next command, auto-refresh */
msrnum = MC_CFCLK_DBUG;
@ -667,7 +659,6 @@ static void sdram_enable(int controllers, const struct mem_controller *ctrl)
msr.lo |= CFCLK_LOWER_FORCE_PRE_SET;
wrmsr(msrnum, msr);
/* Manually AUTO refresh #1 */
/* If auto refresh was not enabled above we would need to do 8 refreshes to prime the pump before these 2. */
msrnum = MC_CF07_DATA;
@ -683,7 +674,6 @@ static void sdram_enable(int controllers, const struct mem_controller *ctrl)
msr.lo &= ~CFCLK_LOWER_FORCE_PRE_SET;
wrmsr(msrnum, msr);
/* Manually AUTO refresh */
/* The MC should insert the right delay between the refreshes */
msrnum = MC_CF07_DATA;
@ -693,7 +683,6 @@ static void sdram_enable(int controllers, const struct mem_controller *ctrl)
msr.lo &= ~CF07_LOWER_REF_TEST_SET;
wrmsr(msrnum, msr);
/* MRS Reset DLL - clear */
msrnum = MC_CF07_DATA;
msr = rdmsr(msrnum);
@ -702,17 +691,16 @@ static void sdram_enable(int controllers, const struct mem_controller *ctrl)
msr.lo &= ~CF07_LOWER_PROG_DRAM_SET;
wrmsr(msrnum, msr);
/* Allow MC to tristate during idle cycles with MTEST OFF */
msrnum = MC_CFCLK_DBUG;
msr = rdmsr(msrnum);
msr.lo &= ~CFCLK_LOWER_TRISTATE_DIS_SET;
wrmsr(msrnum, msr);
/* Disable SDCLK DIMM1 slot if no DIMM installed to save power. */
msr = rdmsr(MC_CF07_DATA);
if ((msr.hi & (7 << CF07_UPPER_D1_PSZ_SHIFT)) == (7 << CF07_UPPER_D1_PSZ_SHIFT)){
if ((msr.hi & (7 << CF07_UPPER_D1_PSZ_SHIFT)) ==
(7 << CF07_UPPER_D1_PSZ_SHIFT)) {
msrnum = GLCP_DELAY_CONTROLS;
msr = rdmsr(msrnum);
msr.hi |= (1 << 23); /* SDCLK bit for 2.0 */
@ -724,7 +712,6 @@ static void sdram_enable(int controllers, const struct mem_controller *ctrl)
msr.hi = 0x200; /* pmode 1=200h */
wrmsr(MC_CF_PMCTR, msr);
/* Set PMode1 Up delay enable */
msrnum = MC_CF1017_DATA;
msr = rdmsr(msrnum);
@ -735,12 +722,12 @@ static void sdram_enable(int controllers, const struct mem_controller *ctrl)
POST_CODE(POST_MEM_SETUP_GOOD); //0x7E
/* make sure there is nothing stale in the cache */
/* CAR stack is in the cache __asm__ __volatile__("wbinvd\n");*/
/* CAR stack is in the cache __asm__ __volatile__("wbinvd\n"); */
/* The RAM dll needs a write to lock on so generate a few dummy writes */
/* Note: The descriptor needs to be enabled to point at memory */
volatile unsigned long *ptr;
for (i=0;i<5;i++) {
for (i = 0; i < 5; i++) {
ptr = (void *)i;
*ptr = (unsigned long)i;
}
@ -751,7 +738,7 @@ static void sdram_enable(int controllers, const struct mem_controller *ctrl)
if ((msr.lo & 0x7FF) == 0x104) {
/* If you had it you would need to clear out the fail boot count flag */
/* (depending on where it counts from etc).*/
/* (depending on where it counts from etc). */
/* The reset we are about to perform clears the PM_SSC register in the */
/* 5536 so will need to store the S3 resume flag in NVRAM otherwise */
@ -762,8 +749,7 @@ static void sdram_enable(int controllers, const struct mem_controller *ctrl)
msr = rdmsr(msrnum);
msr.lo |= 1;
wrmsr(msrnum, msr);
}
}
print_debug("RAM DLL lock\r\n");
}