From 5ebf4d343147743c2c856f62fa5953046efa7483 Mon Sep 17 00:00:00 2001
From: Eric Biederman <ebiederm@xmission.com>
Date: Fri, 3 Oct 2003 02:53:02 +0000
Subject: - Modify the code to C style indenting.

git-svn-id: svn://svn.coreboot.org/coreboot/trunk@1180 2b7e53f0-3cfb-0310-b3e9-8179ed1497e1
---
 src/northbridge/via/vt8601/raminit.c | 754 ++++++++++++++++++-----------------
 1 file changed, 383 insertions(+), 371 deletions(-)

(limited to 'src/northbridge/via/vt8601/raminit.c')

diff --git a/src/northbridge/via/vt8601/raminit.c b/src/northbridge/via/vt8601/raminit.c
index ec52d6e7da..57738e336e 100644
--- a/src/northbridge/via/vt8601/raminit.c
+++ b/src/northbridge/via/vt8601/raminit.c
@@ -47,424 +47,436 @@ it with the version available from LANL.
 #define DIMM_CL2 0
 #endif
 
-void dimms_read(unsigned long x) {
-  uint8_t c;
-  unsigned long eax; 
-  volatile unsigned long y;
-  eax =  x;
-  for(c = 0; c < 6; c++) {
-    
-    print_err("dimms_read: ");
-    print_err_hex32(eax);
-    print_err("\r\n");
-    y = * (volatile unsigned long *) eax;
-    eax += 0x10000000;
-  }
+void dimms_read(unsigned long x) 
+{
+	uint8_t c;
+	unsigned long eax; 
+	volatile unsigned long y;
+	eax =  x;
+	for(c = 0; c < 6; c++) {
+		
+		print_err("dimms_read: ");
+		print_err_hex32(eax);
+		print_err("\r\n");
+		y = * (volatile unsigned long *) eax;
+		eax += 0x10000000;
+	}
 }
 
-void dimms_write(int x) {
-  uint8_t c;
-  unsigned long eax = x;
-  for(c = 0; c < 6; c++) {
-    print_err("dimms_write: ");
-    print_err_hex32(eax);
-    print_err("\r\n");
-    *(volatile unsigned long *) eax = 0;
-    eax += 0x10000000;
-  }
+void dimms_write(int x) 
+{
+	uint8_t c;
+	unsigned long eax = x;
+	for(c = 0; c < 6; c++) {
+		print_err("dimms_write: ");
+		print_err_hex32(eax);
+		print_err("\r\n");
+		*(volatile unsigned long *) eax = 0;
+		eax += 0x10000000;
+	}
 }
 
 
 
 #ifdef DEBUG_SETNORTHB
-void setnorthb(device_t north, uint8_t reg, uint8_t val) {
-  print_err("setnorth: reg ");
-    print_err_hex8(reg);
-  print_err(" to ");
-  print_err_hex8(val);
-  print_err("\r\n");
-  pci_write_config8(north, reg, val);
+void setnorthb(device_t north, uint8_t reg, uint8_t val) 
+{
+	print_err("setnorth: reg ");
+	print_err_hex8(reg);
+	print_err(" to ");
+	print_err_hex8(val);
+	print_err("\r\n");
+	pci_write_config8(north, reg, val);
 }
 #else
 #define setnorthb pci_write_config8
 #endif
 
 void
-dumpnorth(device_t north) {
-  uint8_t r, c;
-  for(r = 0; r < 256; r += 16) {
-    print_err_hex8(r);
-    print_err(":");
-    for(c = 0; c < 16; c++) {
-      print_err_hex8(pci_read_config8(north, r+c));
-      print_err(" ");
-    }
-    print_err("\r\n");
+dumpnorth(device_t north) 
+{
+	uint8_t r, c;
+	for(r = 0; r < 256; r += 16) {
+		print_err_hex8(r);
+		print_err(":");
+		for(c = 0; c < 16; c++) {
+			print_err_hex8(pci_read_config8(north, r+c));
+			print_err(" ");
+		}
+		print_err("\r\n");
   }
 }
-static void sdram_set_registers(const struct mem_controller *ctrl) {
-  static const uint16_t raminit_ma_reg_table[] = {
-    /* Values for MA type register to try */
-    0x0000, 0x8088, 0xe0ee,
-    0xffff // end mark
-  };
-  static const unsigned char ramregs[] = {0x5a, 0x5b, 0x5c, 0x5d, 0x5e, 0x5f, 
-	  				0x56, 0x57};
-
-  device_t north = (device_t) 0;
-  uint8_t c, r;
 
-  print_err("vt8601 init starting\n");
-  north = pci_locate_device(PCI_ID(0x1106, 0x8601), 0);
-  north = 0;
-  print_err_hex32(north);
-  print_err(" is the north\n");
-  print_err_hex16(pci_read_config16(north, 0));
-  print_err(" ");
-  print_err_hex16(pci_read_config16(north, 2));
-  print_err("\r\n");
+static void sdram_set_registers(const struct mem_controller *ctrl) 
+{
+	static const uint16_t raminit_ma_reg_table[] = {
+		/* Values for MA type register to try */
+		0x0000, 0x8088, 0xe0ee,
+		0xffff // end mark
+	};
+	static const unsigned char ramregs[] = {0x5a, 0x5b, 0x5c, 0x5d, 0x5e, 0x5f, 
+	  				0x56, 0x57};
 
-  /* All we are doing now is setting initial known-good values that will
-   * be revised later as we read SPD
-   */	
-  // memory clk enable. We are not using ECC
-  pci_write_config8(north,0x78, 0x01);
-  print_err_hex8(pci_read_config8(north, 0x78));
-  // dram control, see the book. 
+	device_t north = (device_t) 0;
+	uint8_t c, r;
+
+	print_err("vt8601 init starting\n");
+	north = pci_locate_device(PCI_ID(0x1106, 0x8601), 0);
+	north = 0;
+	print_err_hex32(north);
+	print_err(" is the north\n");
+	print_err_hex16(pci_read_config16(north, 0));
+	print_err(" ");
+	print_err_hex16(pci_read_config16(north, 2));
+	print_err("\r\n");
+	
+	/* All we are doing now is setting initial known-good values that will
+	 * be revised later as we read SPD
+	 */	
+	// memory clk enable. We are not using ECC
+	pci_write_config8(north,0x78, 0x01);
+	print_err_hex8(pci_read_config8(north, 0x78));
+	// dram control, see the book. 
 #if DIMM_PC133
-  pci_write_config8(north,0x68, 0x52);
+	pci_write_config8(north,0x68, 0x52);
 #else
-  pci_write_config8(north,0x68, 0x42);
+	pci_write_config8(north,0x68, 0x42);
 #endif
-  // dram control, see the book. 
-  pci_write_config8(north,0x6B, 0x0c);
-  // Initial setting, 256MB in each bank, will be rewritten later.
-  pci_write_config8(north,0x5A, 0x20);
-  print_err_hex8(pci_read_config8(north, 0x5a));
-  pci_write_config8(north,0x5B, 0x40);
-  pci_write_config8(north,0x5C, 0x60);
-  pci_write_config8(north,0x5D, 0x80);
-  pci_write_config8(north,0x5E, 0xA0);
-  pci_write_config8(north,0x5F, 0xC0);
-  // It seems we have to take care of these 2 registers as if 
-  // they are bank 6 and 7.
-  pci_write_config8(north,0x56, 0xC0);
-  pci_write_config8(north,0x57, 0xC0);
-
-  // SDRAM in all banks
-  pci_write_config8(north,0x60, 0x3F);
-  // DRAM timing. I'm suspicious of this
-  // This is for all banks, 64 is 0,1.  65 is 2,3. 66 is 4,5.
-  // ras precharge 4T, RAS pulse 5T
-  // cas2 is 0xd6, cas3 is 0xe6
-  // we're also backing off write pulse width to 2T, so result is 0xee
+	// dram control, see the book. 
+	pci_write_config8(north,0x6B, 0x0c);
+	// Initial setting, 256MB in each bank, will be rewritten later.
+	pci_write_config8(north,0x5A, 0x20);
+	print_err_hex8(pci_read_config8(north, 0x5a));
+	pci_write_config8(north,0x5B, 0x40);
+	pci_write_config8(north,0x5C, 0x60);
+	pci_write_config8(north,0x5D, 0x80);
+	pci_write_config8(north,0x5E, 0xA0);
+	pci_write_config8(north,0x5F, 0xC0);
+	// It seems we have to take care of these 2 registers as if 
+	// they are bank 6 and 7.
+	pci_write_config8(north,0x56, 0xC0);
+	pci_write_config8(north,0x57, 0xC0);
+	
+	// SDRAM in all banks
+	pci_write_config8(north,0x60, 0x3F);
+	// DRAM timing. I'm suspicious of this
+	// This is for all banks, 64 is 0,1.  65 is 2,3. 66 is 4,5.
+	// ras precharge 4T, RAS pulse 5T
+	// cas2 is 0xd6, cas3 is 0xe6
+	// we're also backing off write pulse width to 2T, so result is 0xee
 #if DIMM_CL2
-  pci_write_config8(north,0x64, 0xd4);
-  pci_write_config8(north,0x65, 0xd4);
-  pci_write_config8(north,0x66, 0xd4);
+	pci_write_config8(north,0x64, 0xd4);
+	pci_write_config8(north,0x65, 0xd4);
+	pci_write_config8(north,0x66, 0xd4);
 #else // CL=3
-  pci_write_config8(north,0x64, 0xe4);
-  pci_write_config8(north,0x65, 0xe4);
-  pci_write_config8(north,0x66, 0xe4);
+	pci_write_config8(north,0x64, 0xe4);
+	pci_write_config8(north,0x65, 0xe4);
+	pci_write_config8(north,0x66, 0xe4);
 #endif
 
-  // dram frequency select.
-  // enable 4K pages for 64M dram. 
+	// dram frequency select.
+	// enable 4K pages for 64M dram. 
 #if DIMM_PC133
-  pci_write_config8(north,0x69, 0x3c);
+	pci_write_config8(north,0x69, 0x3c);
 #else
-  pci_write_config8(north,0x69, 0xac);
+	pci_write_config8(north,0x69, 0xac);
 #endif
 
-  /* IMPORTANT -- disable refresh counter */
-  // refresh counter, disabled.
-  pci_write_config8(north,0x6A, 0x00);
-
+	/* IMPORTANT -- disable refresh counter */
+	// refresh counter, disabled.
+	pci_write_config8(north,0x6A, 0x00);
+	
 
-  // clkenable configuration. kevinh FIXME - add precharge
-  pci_write_config8(north,0x6C, 0x00);
-  // dram read latch delay of 1 ns, MD drive 8 mA,
-  // high drive strength on MA[2:	13], we#, cas#, ras#
-  // As per Cindy Lee, set to 0x37, not 0x57
-  pci_write_config8(north,0x6D, 0x7f);
+	// clkenable configuration. kevinh FIXME - add precharge
+	pci_write_config8(north,0x6C, 0x00);
+	// dram read latch delay of 1 ns, MD drive 8 mA,
+	// high drive strength on MA[2:	13], we#, cas#, ras#
+	// As per Cindy Lee, set to 0x37, not 0x57
+	pci_write_config8(north,0x6D, 0x7f);
 
-  /* Initialize all banks at once */
+	/* Initialize all banks at once */
 
 }
 
 /* slot is the dram slot. Base is the *8M base. */
 static unsigned char 
-do_module_size(unsigned char slot) { /*, unsigned char base) */
-  static const unsigned char log2[256] = {[1] = 0, [2] = 1, [4] = 2, [8] = 3,
-			     [16]=4, [32]=5, [64]=6, 
-			     [128]=7};
-  static const uint8_t ramregs[] = {0x5a, 0x5b, 0x5c, 0x5d, 0x5e, 0x5f, 
-	  				0x56, 0x57};
-  device_t north = 0;
-  /* for all the DRAMS, see if they are there and get the size of each
-   * module. This is just a very early first cut at sizing.
-   */
-  /* we may run out of registers ... */
-  unsigned char width, banks, rows, cols, reg;
-  unsigned char value = 0;
-  unsigned char module = 0xa1 | (slot << 1);
-    /* is the module there? if byte 2 is not 4, then we'll assume it 
-     * is useless. 
-     */
-  if (smbus_read_byte(module, 2) != 4)
-    goto done;
-
-  //print_err_hex8(slot);
-  //    print_err(" is SDRAM\n");
-    width = smbus_read_byte(module, 6) | (smbus_read_byte(module,7)<<0);
-    banks = smbus_read_byte(module, 17);
-    /* we're going to assume symmetric banks. Sorry. */
-    cols = smbus_read_byte(module, 4)  & 0xf;
-    rows = smbus_read_byte(module, 3)  & 0xf;
-    /* grand total. You have rows+cols addressing, * times of banks, times
-     * width of data in bytes*/
-    /* do this in terms of address bits. Then subtract 23 from it. 
-     * That might do it.
-     */
-    value = cols + rows + log2[banks] + log2[width];
-    value -= 23;
-    /* now subtract 3 more bits as these are 8-bit bytes */
-    value -= 3;
-    //    print_err_hex8(value);
-    //    print_err(" is the # bits for this bank\n");
-    /* now put that size into the correct register */
-    value = (1 << value);
+do_module_size(unsigned char slot /*, unsigned char base) */) 
+{ 
+	static const unsigned char log2[256] = {
+		[1] = 0, [2] = 1, [4] = 2, [8] = 3,
+		[16]=4, [32]=5, [64]=6, 
+		[128]=7
+	};
+	static const uint8_t ramregs[] = {0x5a, 0x5b, 0x5c, 0x5d, 0x5e, 0x5f, 
+					  0x56, 0x57};
+	device_t north = 0;
+	/* for all the DRAMS, see if they are there and get the size of each
+	 * module. This is just a very early first cut at sizing.
+	 */
+	/* we may run out of registers ... */
+	unsigned char width, banks, rows, cols, reg;
+	unsigned char value = 0;
+	unsigned char module = 0xa1 | (slot << 1);
+	/* is the module there? if byte 2 is not 4, then we'll assume it 
+	 * is useless. 
+	 */
+	if (smbus_read_byte(module, 2) != 4)
+		goto done;
+	
+	//print_err_hex8(slot);
+	//    print_err(" is SDRAM\n");
+	width = smbus_read_byte(module, 6) | (smbus_read_byte(module,7)<<0);
+	banks = smbus_read_byte(module, 17);
+	/* we're going to assume symmetric banks. Sorry. */
+	cols = smbus_read_byte(module, 4)  & 0xf;
+	rows = smbus_read_byte(module, 3)  & 0xf;
+	/* grand total. You have rows+cols addressing, * times of banks, times
+	 * width of data in bytes*/
+	/* do this in terms of address bits. Then subtract 23 from it. 
+	 * That might do it.
+	 */
+	value = cols + rows + log2[banks] + log2[width];
+	value -= 23;
+	/* now subtract 3 more bits as these are 8-bit bytes */
+	value -= 3;
+	//    print_err_hex8(value);
+	//    print_err(" is the # bits for this bank\n");
+	/* now put that size into the correct register */
+	value = (1 << value);
  done:
-    reg = ramregs[slot];
-
-    //    print_err_hex8(value); print_err(" would go into ");
-    //    print_err_hex8(ramregs[reg]); print_err("\n");
-    //    pci_write_config8(north, ramregs[reg], value);
-    return value;
+	reg = ramregs[slot];
+	
+	//    print_err_hex8(value); print_err(" would go into ");
+	//    print_err_hex8(ramregs[reg]); print_err("\n");
+	//    pci_write_config8(north, ramregs[reg], value);
+	return value;
 }
 
-static void sdram_set_spd_registers(const struct mem_controller *ctrl) {
-  #define T133 7
-  unsigned char Trp = 1, Tras = 1, casl = 2, val;
-  unsigned char timing = 0xe4;
-  /* read Trp */
-  val = smbus_read_byte(0xa0, 27);
-  if (val < 2*T133)
-    Trp = 1;
-  val = smbus_read_byte(0xa0, 30);
-  if (val < 5*T133)
-    Tras = 0;
-  val = smbus_read_byte(0xa0, 18);
-  if (val < 8)
-    casl = 1;
-  if (val < 4)
-    casl = 0;
-
-  val = (Trp << 7) | (Tras << 6) | (casl << 4) | 4;
-
-  print_err_hex8(val); print_err(" is the computed timing\n");
-  /* don't set it. Experience shows that this screwy chipset should just
-   * be run with the most conservative timing.
-   * pci_write_config8(0, 0x64, val);
-   */
+static void sdram_set_spd_registers(const struct mem_controller *ctrl)
+{
+#define T133 7
+	unsigned char Trp = 1, Tras = 1, casl = 2, val;
+	unsigned char timing = 0xe4;
+	/* read Trp */
+	val = smbus_read_byte(0xa0, 27);
+	if (val < 2*T133)
+		Trp = 1;
+	val = smbus_read_byte(0xa0, 30);
+	if (val < 5*T133)
+		Tras = 0;
+	val = smbus_read_byte(0xa0, 18);
+	if (val < 8)
+		casl = 1;
+	if (val < 4)
+		casl = 0;
+	
+	val = (Trp << 7) | (Tras << 6) | (casl << 4) | 4;
+	
+	print_err_hex8(val); print_err(" is the computed timing\n");
+	/* don't set it. Experience shows that this screwy chipset should just
+	 * be run with the most conservative timing.
+	 * pci_write_config8(0, 0x64, val);
+	 */
 }
 
-static void sdram_enable(int controllers, const struct mem_controller *ctrl) {
-  unsigned char i;
-  static const uint16_t raminit_ma_reg_table[] = {
-    /* Values for MA type register to try */
-    0x0000, 0x8088, 0xe0ee,
-    0xffff // end mark
-  };
-  static const uint8_t ramregs[] = {0x5a, 0x5b, 0x5c, 0x5d, 0x5e, 0x5f, 
-	  				0x56, 0x57};
-
-  device_t north = 0;
-  uint8_t c, r, base;
-  /* begin to initialize*/
-  // I forget why we need this, but we do
-  dimms_write(0xa55a5aa5);
-
-  /* set NOP*/
-  pci_write_config8(north,0x6C, 0x01);
-  print_err("NOP\r\n");
-  /* wait 200us*/
-  // You need to do the memory reference. That causes the nop cycle. 
-  dimms_read(0);
-  udelay(400);
-  print_err("PRECHARGE\r\n");
-  /* set precharge */
-  pci_write_config8(north,0x6C, 0x02);
-  print_err("DUMMY READS\r\n");
-  /* dummy reads*/
-  dimms_read(0);
-  udelay(200);
-  print_err("CBR\r\n");
-  /* set CBR*/
-  pci_write_config8(north,0x6C, 0x04);
+static void sdram_enable(int controllers, const struct mem_controller *ctrl) 
+{
+	unsigned char i;
+	static const uint16_t raminit_ma_reg_table[] = {
+		/* Values for MA type register to try */
+		0x0000, 0x8088, 0xe0ee,
+		0xffff // end mark
+	};
+	static const uint8_t ramregs[] = {
+		0x5a, 0x5b, 0x5c, 0x5d, 0x5e, 0x5f, 0x56, 0x57
+	};
+
+	device_t north = 0;
+	uint8_t c, r, base;
+	/* begin to initialize*/
+	// I forget why we need this, but we do
+	dimms_write(0xa55a5aa5);
 	
-  /* do 8 reads and wait >100us between each - from via*/
-  dimms_read(0);
-  udelay(200);
-  dimms_read(0);
-  udelay(200);
-  dimms_read(0);
-  udelay(200);
-  dimms_read(0);
-  udelay(200);
-  dimms_read(0);
-  udelay(200);
-  dimms_read(0);
-  udelay(200);
-  dimms_read(0);
-  udelay(200);
-  dimms_read(0);
-  udelay(200);
-  print_err("MRS\r\n");
-  /* set MRS*/
-  pci_write_config8(north,0x6c, 0x03);
+	/* set NOP*/
+	pci_write_config8(north,0x6C, 0x01);
+	print_err("NOP\r\n");
+	/* wait 200us*/
+	// You need to do the memory reference. That causes the nop cycle. 
+	dimms_read(0);
+	udelay(400);
+	print_err("PRECHARGE\r\n");
+	/* set precharge */
+	pci_write_config8(north,0x6C, 0x02);
+	print_err("DUMMY READS\r\n");
+	/* dummy reads*/
+	dimms_read(0);
+	udelay(200);
+	print_err("CBR\r\n");
+	/* set CBR*/
+	pci_write_config8(north,0x6C, 0x04);
+	
+	/* do 8 reads and wait >100us between each - from via*/
+	dimms_read(0);
+	udelay(200);
+	dimms_read(0);
+	udelay(200);
+	dimms_read(0);
+	udelay(200);
+	dimms_read(0);
+	udelay(200);
+	dimms_read(0);
+	udelay(200);
+	dimms_read(0);
+	udelay(200);
+	dimms_read(0);
+	udelay(200);
+	dimms_read(0);
+	udelay(200);
+	print_err("MRS\r\n");
+	/* set MRS*/
+	pci_write_config8(north,0x6c, 0x03);
 #if DIMM_CL2
-  dimms_read(0x150);
+	dimms_read(0x150);
 #else // CL=3
-  dimms_read(0x1d0);
+	dimms_read(0x1d0);
 #endif
-  udelay(200);
-  print_err("NORMAL\r\n");
-  /* set to normal mode */
-  pci_write_config8(north,0x6C, 0x08);
-
-  dimms_write(0x55aa55aa);
-  dimms_read(0);
-  udelay(200);
-  print_err("set ref. rate\r\n");
-  // Set the refresh rate. 
+	udelay(200);
+	print_err("NORMAL\r\n");
+	/* set to normal mode */
+	pci_write_config8(north,0x6C, 0x08);
+	
+	dimms_write(0x55aa55aa);
+	dimms_read(0);
+	udelay(200);
+	print_err("set ref. rate\r\n");
+	// Set the refresh rate. 
 #if DIMM_PC133
-  pci_write_config8(north,0x6A, 0x86);
+	pci_write_config8(north,0x6A, 0x86);
 #else
-  pci_write_config8(north,0x6A, 0x65);
+	pci_write_config8(north,0x6A, 0x65);
 #endif
-  print_err("enable multi-page open\r\n");
-  // enable multi-page open
-  pci_write_config8(north,0x6B, 0x0d);
-
-  /* Begin auto-detection
-   * Find the first bank with DIMM equipped. */
-
-  /* Maximum possible memory in bank 0, none in other banks.
-   * Starting from bank 0, we fill 0 in these registers
-   * until memory is found. */
-  pci_write_config8(north,0x5A, 0xff);
-  pci_write_config8(north,0x5B, 0xff);
-  pci_write_config8(north,0x5C, 0xff);
-  pci_write_config8(north,0x5D, 0xff);
-  pci_write_config8(north,0x5E, 0xff);
-  pci_write_config8(north,0x5F, 0xff);
-  pci_write_config8(north,0x56, 0xff);
-  pci_write_config8(north,0x57, 0xff);
-  dumpnorth(north);
-  print_err("MA\r\n");
-  for(c = 0; c < 8; c++) {
-    /* Write different values to 0 and 8, then read from 0.
-     * If values of address 0 match, we have something there. */
-    print_err("write to 0\r\n");
-    *(volatile unsigned long *) 0 = 0x12345678;
-
-    /* LEAVE THIS HERE. IT IS ESSENTIAL. OTHERWISE BUFFERING
-     * WILL FOOL YOU!
-     */
-    print_err("write to 8\r\n");
-    *(volatile unsigned long *) 8 = 0x87654321;
-
-    if (*(volatile unsigned long *) 0 != 0x12345678) {
-      print_err("no memory in this bank\r\n");
-      /* No memory in this bank. Tell it to the bridge. */
-      pci_write_config8(north,ramregs[c], 0);
-    } 
-    /* found something */
-    {
-      uint8_t best = 0;
-
-      /* Detect MA mapping type of the bank. */
-
-      for(r = 0; r < 3; r++) {
-	volatile unsigned long esi = 0;
-	volatile unsigned long eax = 0;
-	pci_write_config8(north,0x58, raminit_ma_reg_table[r]);
-
-	* (volatile unsigned long *) eax = 0;
-	print_err(" done write to eax\r\n");
-	// Write to addresses with only one address bit
-	// on, from 0x80000000 to 0x00000008 (lower 3 bits
-	// are ignored, assuming 64-bit bus).  Then what
-	// is read at address 0 is the value written to
-	// the lowest address where it gets
-	// wrap-around. That address is either the size of
-	// the bank, or a missing bit due to incorrect MA
-	// mapping.
-	eax = 0x80000000;
-	while (eax !=  4) {
-	  * (volatile unsigned long *) eax = eax;
-	  //print_err_hex32(eax);
-	  outb(eax&0xff, 0x80);
-	  eax >>= 1;
+	print_err("enable multi-page open\r\n");
+	// enable multi-page open
+	pci_write_config8(north,0x6B, 0x0d);
+	
+	/* Begin auto-detection
+	 * Find the first bank with DIMM equipped. */
+	
+	/* Maximum possible memory in bank 0, none in other banks.
+	 * Starting from bank 0, we fill 0 in these registers
+	 * until memory is found. */
+	pci_write_config8(north,0x5A, 0xff);
+	pci_write_config8(north,0x5B, 0xff);
+	pci_write_config8(north,0x5C, 0xff);
+	pci_write_config8(north,0x5D, 0xff);
+	pci_write_config8(north,0x5E, 0xff);
+	pci_write_config8(north,0x5F, 0xff);
+	pci_write_config8(north,0x56, 0xff);
+	pci_write_config8(north,0x57, 0xff);
+	dumpnorth(north);
+	print_err("MA\r\n");
+	for(c = 0; c < 8; c++) {
+		/* Write different values to 0 and 8, then read from 0.
+		 * If values of address 0 match, we have something there. */
+		print_err("write to 0\r\n");
+		*(volatile unsigned long *) 0 = 0x12345678;
+		
+		/* LEAVE THIS HERE. IT IS ESSENTIAL. OTHERWISE BUFFERING
+		 * WILL FOOL YOU!
+		 */
+		print_err("write to 8\r\n");
+		*(volatile unsigned long *) 8 = 0x87654321;
+		
+		if (*(volatile unsigned long *) 0 != 0x12345678) {
+			print_err("no memory in this bank\r\n");
+			/* No memory in this bank. Tell it to the bridge. */
+			pci_write_config8(north,ramregs[c], 0);
+		} 
+		/* found something */
+		{
+			uint8_t best = 0;
+			
+			/* Detect MA mapping type of the bank. */
+			
+			for(r = 0; r < 3; r++) {
+				volatile unsigned long esi = 0;
+				volatile unsigned long eax = 0;
+				pci_write_config8(north,0x58, raminit_ma_reg_table[r]);
+				
+				* (volatile unsigned long *) eax = 0;
+				print_err(" done write to eax\r\n");
+				// Write to addresses with only one address bit
+				// on, from 0x80000000 to 0x00000008 (lower 3 bits
+				// are ignored, assuming 64-bit bus).  Then what
+				// is read at address 0 is the value written to
+				// the lowest address where it gets
+				// wrap-around. That address is either the size of
+				// the bank, or a missing bit due to incorrect MA
+				// mapping.
+				eax = 0x80000000;
+				while (eax !=  4) {
+					* (volatile unsigned long *) eax = eax;
+					//print_err_hex32(eax);
+					outb(eax&0xff, 0x80);
+					eax >>= 1;
+				}
+				print_err(" done read to eax\r\n");
+				eax = * (unsigned long *)0;
+				/* oh boy ... what is this. 
+				   movl 0, %eax
+				   cmpl %eax, %esi
+				   jnc 3f
+				*/
+				print_err("eax and esi: ");
+				print_err_hex32(eax); print_err(" ");
+				print_err_hex32(esi); print_err("\r\n");
+				
+				if (eax > esi) { /* ??*/
+					
+					// This is the current best MA mapping.
+					// Save the address and its MA mapping value.
+					best = r;
+					esi = eax;
+				}
+			}
+		  
+			pci_write_config8(north,0x58, raminit_ma_reg_table[best]);
+			print_err("enabled first bank of ram ... ma is ");
+			print_err_hex8(pci_read_config8(north, 0x58));
+			print_err("\r\n");
+		}
 	}
-	print_err(" done read to eax\r\n");
-	eax = * (unsigned long *)0;
-	/* oh boy ... what is this. 
-	   movl 0, %eax
-	   cmpl %eax, %esi
-	   jnc 3f
-	*/
-	print_err("eax and esi: ");
-	print_err_hex32(eax); print_err(" ");
-	print_err_hex32(esi); print_err("\r\n");
-
-	if (eax > esi) { /* ??*/
-		      
-	  // This is the current best MA mapping.
-	  // Save the address and its MA mapping value.
-	  best = r;
-	  esi = eax;
+	base = 0;
+	/* runs out of variable space. */
+	/* this is unrolled and constants used as much as possible to help
+	 * us not run out of registers.
+	 * we'll run out of code space instead :-)
+	 */
+	//  for(i = 0; i < 8; i++)
+	base = do_module_size(0); /*, base);*/
+	pci_write_config8(north, ramregs[0], base);
+	base = do_module_size(1); /*, base);*/
+	base += pci_read_config8(north, ramregs[0]);
+	pci_write_config8(north, ramregs[1], base);
+	/* runs out of code space. */
+	for(i = 0; i < 8; i++){
+		pci_write_config8(north, ramregs[i], base);
+		/*
+		  pci_write_config8(north, ramregs[3], base);
+		  pci_write_config8(north, ramregs[4], base);
+		  pci_write_config8(north, ramregs[5], base);
+		  pci_write_config8(north, ramregs[6], base);
+		  pci_write_config8(north, ramregs[7], base);
+		*/
 	}
-      }
-		  
-      pci_write_config8(north,0x58, raminit_ma_reg_table[best]);
-      print_err("enabled first bank of ram ... ma is ");
-      print_err_hex8(pci_read_config8(north, 0x58));
-      print_err("\r\n");
-    }
-  }
-  base = 0;
-  /* runs out of variable space. */
-  /* this is unrolled and constants used as much as possible to help
-   * us not run out of registers.
-   * we'll run out of code space instead :-)
-   */
-  //  for(i = 0; i < 8; i++)
-  base = do_module_size(0); /*, base);*/
-  pci_write_config8(north, ramregs[0], base);
-  base = do_module_size(1); /*, base);*/
-  base += pci_read_config8(north, ramregs[0]);
-  pci_write_config8(north, ramregs[1], base);
-  /* runs out of code space. */
-  for(i = 0; i < 8; i++){
-    pci_write_config8(north, ramregs[i], base);
-    /*
-    pci_write_config8(north, ramregs[3], base);
-    pci_write_config8(north, ramregs[4], base);
-    pci_write_config8(north, ramregs[5], base);
-    pci_write_config8(north, ramregs[6], base);
-    pci_write_config8(north, ramregs[7], base);
-    */
-  }
-  /*
-  base = do_module_size(0xa0, base);
-  base = do_module_size(0xa0, base);
-  base = do_module_size(0xa0, base);
-  base = do_module_size(0xa0, base);
-  base = do_module_size(0xa0, base);
-  base = do_module_size(0xa0, base);*/
-  print_err("vt8601 done\n");
-  dumpnorth(north);
-  udelay(1000);
+	/*
+	  base = do_module_size(0xa0, base);
+	  base = do_module_size(0xa0, base);
+	  base = do_module_size(0xa0, base);
+	  base = do_module_size(0xa0, base);
+	  base = do_module_size(0xa0, base);
+	  base = do_module_size(0xa0, base);*/
+	print_err("vt8601 done\n");
+	dumpnorth(north);
+	udelay(1000);
 }
-- 
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