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authorStefan Reinauer <stepan@coresystems.de>2010-04-15 12:39:29 +0000
committerStefan Reinauer <stepan@openbios.org>2010-04-15 12:39:29 +0000
commit23836e2345282151b0b46de6cdcd2bb2faee87f6 (patch)
treee1e416ae11a78b455a26f378f33d0a8db6fa69af /src/northbridge/intel/e7501
parentc30a6e859e20dbadbad006f2f93068e7f9c36043 (diff)
downloadcoreboot-23836e2345282151b0b46de6cdcd2bb2faee87f6.tar.xz
zero warnings days...
Signed-off-by: Stefan Reinauer <stepan@coresystems.de> Acked-by: Stefan Reinauer <stepan@coresystems.de> git-svn-id: svn://svn.coreboot.org/coreboot/trunk@5442 2b7e53f0-3cfb-0310-b3e9-8179ed1497e1
Diffstat (limited to 'src/northbridge/intel/e7501')
-rw-r--r--src/northbridge/intel/e7501/debug.c14
-rw-r--r--src/northbridge/intel/e7501/raminit.c1339
-rw-r--r--src/northbridge/intel/e7501/raminit.h3
3 files changed, 716 insertions, 640 deletions
diff --git a/src/northbridge/intel/e7501/debug.c b/src/northbridge/intel/e7501/debug.c
index 1df2ed3d9c..500ea3e138 100644
--- a/src/northbridge/intel/e7501/debug.c
+++ b/src/northbridge/intel/e7501/debug.c
@@ -13,7 +13,7 @@ static void print_debug_pci_dev(unsigned dev)
print_debug_hex8((dev >> 8) & 7);
}
-static void print_pci_devices(void)
+static inline void print_pci_devices(void)
{
device_t dev;
for(dev = PCI_DEV(0, 0, 0);
@@ -58,7 +58,7 @@ static void dump_pci_device(unsigned dev)
print_debug("\n");
}
-static void dump_pci_devices(void)
+static inline void dump_pci_devices(void)
{
device_t dev;
for(dev = PCI_DEV(0, 0, 0);
@@ -75,7 +75,7 @@ static void dump_pci_devices(void)
}
}
-static void dump_pci_devices_on_bus(unsigned busn)
+static inline void dump_pci_devices_on_bus(unsigned busn)
{
device_t dev;
for(dev = PCI_DEV(busn, 0, 0);
@@ -92,7 +92,7 @@ static void dump_pci_devices_on_bus(unsigned busn)
}
}
-static void dump_spd_registers(const struct mem_controller *ctrl)
+static inline void dump_spd_registers(const struct mem_controller *ctrl)
{
int i;
print_debug("\n");
@@ -174,7 +174,7 @@ static void dump_spd_registers(const struct mem_controller *ctrl)
}
}
}
-static void dump_smbus_registers(void)
+static inline void dump_smbus_registers(void)
{
unsigned device;
print_debug("\n");
@@ -215,7 +215,7 @@ static void dump_smbus_registers(void)
}
}
-static void dump_io_resources(unsigned port)
+static inline void dump_io_resources(unsigned port)
{
int i;
@@ -249,7 +249,7 @@ static void dump_io_resources(unsigned port)
}
}
-static void dump_mem(unsigned start, unsigned end)
+static inline void dump_mem(unsigned start, unsigned end)
{
unsigned i;
print_debug("dump_mem:");
diff --git a/src/northbridge/intel/e7501/raminit.c b/src/northbridge/intel/e7501/raminit.c
index 371262251a..9f757e0f79 100644
--- a/src/northbridge/intel/e7501/raminit.c
+++ b/src/northbridge/intel/e7501/raminit.c
@@ -24,9 +24,9 @@
#if CONFIG_DEBUG_RAM_SETUP
#define RAM_DEBUG_MESSAGE(x) print_debug(x)
-#define RAM_DEBUG_HEX32(x) print_debug_hex32(x)
-#define RAM_DEBUG_HEX8(x) print_debug_hex8(x)
-#define DUMPNORTH() dump_pci_device(PCI_DEV(0, 0, 0))
+#define RAM_DEBUG_HEX32(x) print_debug_hex32(x)
+#define RAM_DEBUG_HEX8(x) print_debug_hex8(x)
+#define DUMPNORTH() dump_pci_device(PCI_DEV(0, 0, 0))
#else
#define RAM_DEBUG_MESSAGE(x)
#define RAM_DEBUG_HEX32(x)
@@ -35,23 +35,23 @@
#endif
#define E7501_SDRAM_MODE (SDRAM_BURST_INTERLEAVED | SDRAM_BURST_4)
-#define SPD_ERROR "Error reading SPD info\n"
+#define SPD_ERROR "Error reading SPD info\n"
// NOTE: This used to be 0x100000.
-// That doesn't work on systems where A20M# is asserted, because
-// attempts to access 0x1000NN end up accessing 0x0000NN.
+// That doesn't work on systems where A20M# is asserted, because
+// attempts to access 0x1000NN end up accessing 0x0000NN.
#define RCOMP_MMIO 0x200000
struct dimm_size {
- unsigned long side1;
- unsigned long side2;
+ unsigned long side1;
+ unsigned long side2;
};
/*^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^*/
-/* DEFINITIONS */
+/* DEFINITIONS */
/**********************************************************************************/
-static const uint32_t refresh_frequency[]= {
+static const uint32_t refresh_frequency[] = {
/* Relative frequency (array value) of each E7501 Refresh Mode Select
* (RMS) value (array index)
* 0 == least frequent refresh (longest interval between refreshes)
@@ -64,7 +64,8 @@ static const uint32_t refresh_frequency[]= {
* [6] reserved -> 0
* [7] 64 clocks -> 4
*/
- 0, 2, 3, 1, 0, 0, 0, 4 };
+ 0, 2, 3, 1, 0, 0, 0, 4
+};
static const uint32_t refresh_rate_map[] = {
/* Map the JEDEC spd refresh rates (array index) to E7501 Refresh Mode
@@ -73,7 +74,7 @@ static const uint32_t refresh_rate_map[] = {
* The E7501 supports only 15.6 us (1), 7.8 us (2), 64 us (3), and
* 64 clock (481 ns) (7) refresh.
* [0] == 15.625 us -> 15.6 us
- * [1] == 3.9 us -> 481 ns
+ * [1] == 3.9 us -> 481 ns
* [2] == 7.8 us -> 7.8 us
* [3] == 31.3 us -> 15.6 us
* [4] == 62.5 us -> 15.6 us
@@ -81,22 +82,22 @@ static const uint32_t refresh_rate_map[] = {
*/
1, 7, 2, 1, 1, 3
};
-#define MAX_SPD_REFRESH_RATE ((sizeof(refresh_rate_map) / sizeof(uint32_t)) - 1)
+#define MAX_SPD_REFRESH_RATE ((sizeof(refresh_rate_map) / sizeof(uint32_t)) - 1)
// SPD parameters that must match for dual-channel operation
static const uint8_t dual_channel_parameters[] = {
- SPD_MEMORY_TYPE,
- SPD_MODULE_VOLTAGE,
- SPD_NUM_COLUMNS,
- SPD_NUM_ROWS,
- SPD_NUM_DIMM_BANKS,
- SPD_PRIMARY_SDRAM_WIDTH,
+ SPD_MEMORY_TYPE,
+ SPD_MODULE_VOLTAGE,
+ SPD_NUM_COLUMNS,
+ SPD_NUM_ROWS,
+ SPD_NUM_DIMM_BANKS,
+ SPD_PRIMARY_SDRAM_WIDTH,
SPD_NUM_BANKS_PER_SDRAM
};
/*
- * Table: constant_register_values
+ * Table: constant_register_values
*/
static const long constant_register_values[] = {
/* SVID - Subsystem Vendor Identification Register
@@ -107,9 +108,9 @@ static const long constant_register_values[] = {
* 0x2e - 0x2f
* [15:00] Subsystem ID
*/
- // Not everyone wants to be Super Micro Computer, Inc.
- // The mainboard should set this if desired.
- // 0x2c, 0, (0x15d9 << 0) | (0x3580 << 16),
+ // Not everyone wants to be Super Micro Computer, Inc.
+ // The mainboard should set this if desired.
+ // 0x2c, 0, (0x15d9 << 0) | (0x3580 << 16),
/* Undocumented
* (DRAM Read Timing Control, if similar to 855PM?)
@@ -128,7 +129,7 @@ static const long constant_register_values[] = {
* work at all.
* Steven James 02/06/2003
*/
- /* NOTE: values now configured in configure_e7501_cas_latency() based
+ /* NOTE: values now configured in configure_e7501_cas_latency() based
* on SPD info and total number of DIMMs (per Intel)
*/
@@ -172,15 +173,15 @@ static const long constant_register_values[] = {
*/
// Conservatively say each row has 64MB of ram, we will fix this up later
// NOTE: These defaults allow us to prime all of the DIMMs on the board
- // without jumping through 36-bit adddressing hoops, even if the
- // total memory is > 4 GB. Changing these values may break do_ram_command()!
+ // without jumping through 36-bit adddressing hoops, even if the
+ // total memory is > 4 GB. Changing these values may break do_ram_command()!
0x60, 0x00000000, (0x01 << 0) | (0x02 << 8) | (0x03 << 16) | (0x04 << 24),
0x64, 0x00000000, (0x05 << 0) | (0x06 << 8) | (0x07 << 16) | (0x08 << 24),
/* DRA - DRAM Row Attribute Register
* 0x70 Row 0,1
* 0x71 Row 2,3
- * 0x72 Row 4,5
+ * 0x72 Row 4,5
* 0x73 Row 6,7
* [7:7] Device width for Odd numbered rows
* 0 == 8 bits wide x8
@@ -201,7 +202,7 @@ static const long constant_register_values[] = {
* 101 == 64KB (This page size appears broken)
* Others == Reserved
*/
- // NOTE: overridden by configure_e7501_row_attributes(), later
+ // NOTE: overridden by configure_e7501_row_attributes(), later
0x70, 0x00000000, 0,
/* DRT - DRAM Timing Register
@@ -223,9 +224,9 @@ static const long constant_register_values[] = {
* Others == Reserved
* [23:19] Reserved
* [18:16] DRAM idle timer
- * 000 == infinite
- * 011 == 16 dram clocks
- * 001 == 0 clocks
+ * 000 == infinite
+ * 011 == 16 dram clocks
+ * 001 == 0 clocks
* [15:11] Reserved
* [10:09] Active to Precharge (tRAS)
* 00 == 7 clocks
@@ -241,9 +242,9 @@ static const long constant_register_values[] = {
* [03:03] Write Ras# to Cas# Delay (tRCD)
* 0 == 3 DRAM Clocks
* 1 == 2 DRAM Clocks
- * [02:01] Read RAS# to CAS# Delay (tRCD)
- * 00 == reserved
- * 01 == reserved
+ * [02:01] Read RAS# to CAS# Delay (tRCD)
+ * 00 == reserved
+ * 01 == reserved
* 10 == 3 DRAM Clocks
* 11 == 2 DRAM Clocks
* [00:00] DRAM RAS# to Precharge (tRP)
@@ -251,15 +252,15 @@ static const long constant_register_values[] = {
* 1 == 2 DRAM Clocks
*/
- // Some earlier settings:
+ // Some earlier settings:
/* Most aggressive settings possible */
-// 0x78, 0xc0fff8c4, (1<<29)|(1<<28)|(1<<27)|(2<<24)|(2<<9)|CAS_LATENCY|(1<<3)|(1<<1)|(1<<0),
-// 0x78, 0xc0f8f8c0, (1<<29)|(1<<28)|(1<<27)|(1<<24)|(1<<16)|(2<<9)|CAS_LATENCY|(1<<3)|(3<<1)|(1<<0),
-// 0x78, 0xc0f8f9c0, (1<<29)|(1<<28)|(1<<27)|(1<<24)|(1<<16)|(2<<9)|CAS_LATENCY|(1<<3)|(3<<1)|(1<<0),
+// 0x78, 0xc0fff8c4, (1<<29)|(1<<28)|(1<<27)|(2<<24)|(2<<9)|CAS_LATENCY|(1<<3)|(1<<1)|(1<<0),
+// 0x78, 0xc0f8f8c0, (1<<29)|(1<<28)|(1<<27)|(1<<24)|(1<<16)|(2<<9)|CAS_LATENCY|(1<<3)|(3<<1)|(1<<0),
+// 0x78, 0xc0f8f9c0, (1<<29)|(1<<28)|(1<<27)|(1<<24)|(1<<16)|(2<<9)|CAS_LATENCY|(1<<3)|(3<<1)|(1<<0),
// The only things we need to set here are DRAM idle timer, Back-to-Back Read Turnaround, and
// Back-to-Back Write-Read Turnaround. All others are configured based on SPD.
- 0x78, 0xD7F8FFFF, (1<<29)|(1<<27)|(1<<16),
+ 0x78, 0xD7F8FFFF, (1 << 29) | (1 << 27) | (1 << 16),
/* FIXME why was I attempting to set a reserved bit? */
/* 0x0100040f */
@@ -271,9 +272,9 @@ static const long constant_register_values[] = {
* 0 == Not Complete
* 1 == Complete
* [28:23] Reserved
- * [22:22] Channels
- * 0 == Single channel
- * 1 == Dual Channel
+ * [22:22] Channels
+ * 0 == Single channel
+ * 1 == Dual Channel
* [21:20] DRAM Data Integrity Mode
* 00 == Disabled, no ECC
* 01 == Reserved
@@ -281,10 +282,10 @@ static const long constant_register_values[] = {
* 11 == Reserved
* [19:18] DRB Granularity (Read-Only)
* 00 == 32 MB quantities (single channel mode)
- * 01 == 64 MB quantities (dual-channel mode)
- * 10 == Reserved
- * 11 == Reserved
- * [17:17] (Intel Undocumented) should always be set to 1 (SJM: comment inconsistent with current setting, below)
+ * 01 == 64 MB quantities (dual-channel mode)
+ * 10 == Reserved
+ * 11 == Reserved
+ * [17:17] (Intel Undocumented) should always be set to 1 (SJM: comment inconsistent with current setting, below)
* [16:16] Command Per Clock - Address/Control Assertion Rule (CPC)
* 0 == 2n Rule
* 1 == 1n rule
@@ -301,42 +302,42 @@ static const long constant_register_values[] = {
* 001 == NOP Command
* 010 == All Banks Precharge
* 011 == Mode Register Set
- * 100 == Extended Mode Register Set
+ * 100 == Extended Mode Register Set
* 101 == Reserved
* 110 == CBR Refresh
* 111 == Normal Operation
* [03:00] Reserved
*/
-// .long 0x7c, 0xffcefcff, (1<<22)|(2 << 20)|(1 << 16)| (0 << 8),
-// .long 0x7c, 0xff8cfcff, (1<<22)|(2 << 20)|(1 << 17)|(1 << 16)| (0 << 8),
-// .long 0x7c, 0xff80fcff, (1<<22)|(2 << 20)|(1 << 18)|(1 << 17)|(1 << 16)| (0 << 8),
+// .long 0x7c, 0xffcefcff, (1<<22)|(2 << 20)|(1 << 16)| (0 << 8),
+// .long 0x7c, 0xff8cfcff, (1<<22)|(2 << 20)|(1 << 17)|(1 << 16)| (0 << 8),
+// .long 0x7c, 0xff80fcff, (1<<22)|(2 << 20)|(1 << 18)|(1 << 17)|(1 << 16)| (0 << 8),
// Default to dual-channel mode, ECC, 1-clock address/cmd hold
// NOTE: configure_e7501_dram_controller_mode() configures further
- 0x7c, 0xff8ef8ff, (1<<22)|(2<<20)|(1<<16)|(0<<8),
+ 0x7c, 0xff8ef8ff, (1 << 22) | (2 << 20) | (1 << 16) | (0 << 8),
/* Another Intel undocumented register
* 0x88 - 0x8B
- * [31:31] Purpose unknown
- * [26:26] Master DLL Reset?
- * 0 == Normal operation?
- * 1 == Reset?
- * [07:07] Periodic memory recalibration?
- * 0 == Disabled?
- * 1 == Enabled?
- * [04:04] Receive FIFO RE-Sync?
- * 0 == Normal operation?
- * 1 == Reset?
+ * [31:31] Purpose unknown
+ * [26:26] Master DLL Reset?
+ * 0 == Normal operation?
+ * 1 == Reset?
+ * [07:07] Periodic memory recalibration?
+ * 0 == Disabled?
+ * 1 == Enabled?
+ * [04:04] Receive FIFO RE-Sync?
+ * 0 == Normal operation?
+ * 1 == Reset?
*/
- // NOTE: Some factory BIOSs don't do this.
- // Doesn't seem to matter either way.
+ // NOTE: Some factory BIOSs don't do this.
+ // Doesn't seem to matter either way.
0x88, 0xffffff00, 0x80,
/* CLOCK_DIS - CK/CK# Disable Register
* 0x8C
* [7:7] DDR Frequency
- * 0 == 100 MHz (200 MHz data rate)
- * 1 == 133 MHz (266 MHz data rate)
+ * 0 == 100 MHz (200 MHz data rate)
+ * 1 == 133 MHz (266 MHz data rate)
* [6:4] Reserved
* [3:3] CK3
* 0 == Enable
@@ -352,7 +353,7 @@ static const long constant_register_values[] = {
* 1 == Disable
*/
// NOTE: Disable all clocks initially; turn ones we need back on
- // in enable_e7501_clocks()
+ // in enable_e7501_clocks()
0x8C, 0xfffffff0, 0xf,
/* TOLM - Top of Low Memory Register
@@ -383,23 +384,23 @@ static const long constant_register_values[] = {
/* DVNP - Device Not Present Register
* 0xE0 - 0xE1
* [15:05] Reserved
- * [04:04] Device 4 Function 1 Present
+ * [04:04] Device 4 Function 1 Present
* 0 == Present
* 1 == Absent
- * [03:03] Device 3 Function 1 Present
+ * [03:03] Device 3 Function 1 Present
* 0 == Present
* 1 == Absent
- * [02:02] Device 2 Function 1 Present
+ * [02:02] Device 2 Function 1 Present
* 0 == Present
* 1 == Absent
- * [01:01] Reserved
- * [00:00] Device 0 Function 1 Present
+ * [01:01] Reserved
+ * [00:00] Device 0 Function 1 Present
* 0 == Present
* 1 == Absent
*/
// Enable D0:D1, disable D2:F1, D3:F1, D4:F1
- 0xe0, 0xffffffe2, (1<<4)|(1<<3)|(1<<2)|(0<<0),
+ 0xe0, 0xffffffe2, (1 << 4) | (1 << 3) | (1 << 2) | (0 << 0),
// Undocumented
0xd8, 0xffff9fff, 0x00000000,
@@ -410,22 +411,22 @@ static const long constant_register_values[] = {
* [31:31] Purpose unknown
* [30:30] Purpose unknown
* [29:23] Unknown - not used?
- * [22:22] System Memory MMR Enable
+ * [22:22] System Memory MMR Enable
* 0 == Disable: mem space and BAR at 0x14 are not accessible
* 1 == Enable: mem space and BAR at 0x14 are accessible
* [21:20] Purpose unknown
- * [19:02] Unknown - not used?
- * [01:01] D6EN (Device #6 enable)
+ * [19:02] Unknown - not used?
+ * [01:01] D6EN (Device #6 enable)
* 0 == Disable
* 1 == Enable
- * [00:00] Unknown - not used?
+ * [00:00] Unknown - not used?
*/
0xf4, 0x3f8ffffd, 0x40300002,
#ifdef SUSPICIOUS_LOOKING_CODE
// SJM: Undocumented.
- // This will access D2:F0:0x50, is this correct??
+ // This will access D2:F0:0x50, is this correct??
0x1050, 0xffffffcf, 0x00000030,
#endif
};
@@ -453,29 +454,31 @@ static const uint32_t maybe_pull_updown_offset_table[] = {
/*^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^*/
/* TABLES */
/**********************************************************************************/
-#define SLOW_DOWN_IO inb(0x80);
+#define SLOW_DOWN_IO inb(0x80)
//#define SLOW_DOWN_IO udelay(40);
- /* Estimate that SLOW_DOWN_IO takes about 50&76us*/
+ /* Estimate that SLOW_DOWN_IO takes about 50&76us */
/* delay for 200us */
#if 1
static void do_delay(void)
{
int i;
- for(i = 0; i < 16; i++) { SLOW_DOWN_IO }
+ for (i = 0; i < 16; i++) {
+ SLOW_DOWN_IO;
+ }
}
-#define DO_DELAY do_delay();
+
+#define DO_DELAY do_delay()
#else
#define DO_DELAY \
- udelay(200);
-#endif
+ udelay(200)
+#endif
#define EXTRA_DELAY DO_DELAY
-
/*^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^*/
-/* DELAY FUNCTIONS */
+/* DELAY FUNCTIONS */
/**********************************************************************************/
static void die_on_spd_error(int spd_return_value)
@@ -485,90 +488,100 @@ static void die_on_spd_error(int spd_return_value)
}
//----------------------------------------------------------------------------------
-// Function: sdram_spd_get_page_size
-// Parameters: dimm_socket_address - SMBus address of DIMM socket to interrogate
-// Return Value: struct dimm_size - log2(page size) for each side of the DIMM.
-// Description: Calculate the page size for each physical bank of the DIMM:
-// log2(page size) = (# columns) + log2(data width)
+// Function: sdram_spd_get_page_size
+// Parameters: dimm_socket_address - SMBus address of DIMM socket to interrogate
+// Return Value: struct dimm_size - log2(page size) for each side of the DIMM.
+// Description: Calculate the page size for each physical bank of the DIMM:
+// log2(page size) = (# columns) + log2(data width)
//
-// NOTE: page size is the total number of data bits in a row.
+// NOTE: page size is the total number of data bits in a row.
//
-static struct dimm_size sdram_spd_get_page_size(uint16_t dimm_socket_address)
+static struct dimm_size sdram_spd_get_page_size(uint16_t
+ dimm_socket_address)
{
uint16_t module_data_width;
int value;
struct dimm_size pgsz;
pgsz.side1 = 0;
- pgsz.side2 = 0;
-
+ pgsz.side2 = 0;
+
// Side 1
- value = spd_read_byte(dimm_socket_address, SPD_NUM_COLUMNS);
- if (value < 0) goto hw_err;
- pgsz.side1 = value & 0xf; // # columns in bank 1
-
+ value = spd_read_byte(dimm_socket_address, SPD_NUM_COLUMNS);
+ if (value < 0)
+ goto hw_err;
+ pgsz.side1 = value & 0xf; // # columns in bank 1
+
/* Get the module data width and convert it to a power of two */
- value = spd_read_byte(dimm_socket_address, SPD_MODULE_DATA_WIDTH_MSB);
- if (value < 0) goto hw_err;
+ value =
+ spd_read_byte(dimm_socket_address, SPD_MODULE_DATA_WIDTH_MSB);
+ if (value < 0)
+ goto hw_err;
module_data_width = (value & 0xff) << 8;
- value = spd_read_byte(dimm_socket_address, SPD_MODULE_DATA_WIDTH_LSB);
- if (value < 0) goto hw_err;
+ value =
+ spd_read_byte(dimm_socket_address, SPD_MODULE_DATA_WIDTH_LSB);
+ if (value < 0)
+ goto hw_err;
module_data_width |= (value & 0xff);
pgsz.side1 += log2(module_data_width);
/* side two */
value = spd_read_byte(dimm_socket_address, SPD_NUM_DIMM_BANKS);
- if (value < 0) goto hw_err;
- if (value > 2)
+ if (value < 0)
+ goto hw_err;
+ if (value > 2)
die("Bad SPD value\n");
if (value == 2) {
- pgsz.side2 = pgsz.side1; // Assume symmetric banks until we know differently
- value = spd_read_byte(dimm_socket_address, SPD_NUM_COLUMNS);
- if (value < 0) goto hw_err;
+ pgsz.side2 = pgsz.side1; // Assume symmetric banks until we know differently
+ value =
+ spd_read_byte(dimm_socket_address, SPD_NUM_COLUMNS);
+ if (value < 0)
+ goto hw_err;
if ((value & 0xf0) != 0) {
// Asymmetric banks
- pgsz.side2 -= value & 0xf; /* Subtract out columns on side 1 */
- pgsz.side2 += (value>>4) & 0xf; /* Add in columns on side 2 */
+ pgsz.side2 -= value & 0xf; /* Subtract out columns on side 1 */
+ pgsz.side2 += (value >> 4) & 0xf; /* Add in columns on side 2 */
}
}
- return pgsz;
+ return pgsz;
-hw_err:
+ hw_err:
die(SPD_ERROR);
- return pgsz; // Never reached
+ return pgsz; // Never reached
}
-
//----------------------------------------------------------------------------------
-// Function: sdram_spd_get_width
-// Parameters: dimm_socket_address - SMBus address of DIMM socket to interrogate
-// Return Value: dimm_size - width in bits of each DIMM side's DRAMs.
-// Description: Read the width in bits of each DIMM side's DRAMs via SPD.
-// (i.e. 4, 8, 16)
+// Function: sdram_spd_get_width
+// Parameters: dimm_socket_address - SMBus address of DIMM socket to interrogate
+// Return Value: dimm_size - width in bits of each DIMM side's DRAMs.
+// Description: Read the width in bits of each DIMM side's DRAMs via SPD.
+// (i.e. 4, 8, 16)
//
-static struct dimm_size sdram_spd_get_width(uint16_t dimm_socket_address)
+static struct dimm_size sdram_spd_get_width(uint16_t dimm_socket_address)
{
int value;
struct dimm_size width;
-
+
width.side1 = 0;
width.side2 = 0;
- value = spd_read_byte(dimm_socket_address, SPD_PRIMARY_SDRAM_WIDTH);
+ value =
+ spd_read_byte(dimm_socket_address, SPD_PRIMARY_SDRAM_WIDTH);
die_on_spd_error(value);
-
- width.side1 = value & 0x7f; // Mask off bank 2 flag
+
+ width.side1 = value & 0x7f; // Mask off bank 2 flag
if (value & 0x80) {
width.side2 = width.side1 << 1; // Bank 2 exists and is double-width
} else {
// If bank 2 exists, it's the same width as bank 1
- value = spd_read_byte(dimm_socket_address, SPD_NUM_DIMM_BANKS);
- die_on_spd_error(value);
+ value =
+ spd_read_byte(dimm_socket_address, SPD_NUM_DIMM_BANKS);
+ die_on_spd_error(value);
#ifdef ROMCC_IF_BUG_FIXED
if (value == 2)
@@ -587,94 +600,100 @@ static struct dimm_size sdram_spd_get_width(uint16_t dimm_socket_address)
return width;
}
-
+
//----------------------------------------------------------------------------------
-// Function: spd_get_dimm_size
-// Parameters: dimm_socket_address - SMBus address of DIMM socket to interrogate
-// Return Value: dimm_size - log2(number of bits) for each side of the DIMM
-// Description: Calculate the log base 2 size in bits of both DIMM sides.
-// log2(# bits) = (# columns) + log2(data width) +
-// (# rows) + log2(banks per SDRAM)
+// Function: spd_get_dimm_size
+// Parameters: dimm_socket_address - SMBus address of DIMM socket to interrogate
+// Return Value: dimm_size - log2(number of bits) for each side of the DIMM
+// Description: Calculate the log base 2 size in bits of both DIMM sides.
+// log2(# bits) = (# columns) + log2(data width) +
+// (# rows) + log2(banks per SDRAM)
//
-// Note that it might be easier to use SPD byte 31 here, it has the
-// DIMM size as a multiple of 4MB. The way we do it now we can size
-// both sides of an asymmetric dimm.
+// Note that it might be easier to use SPD byte 31 here, it has the
+// DIMM size as a multiple of 4MB. The way we do it now we can size
+// both sides of an asymmetric dimm.
//
static struct dimm_size spd_get_dimm_size(unsigned dimm_socket_address)
{
- int value;
+ int value;
// Start with log2(page size)
- struct dimm_size sz = sdram_spd_get_page_size(dimm_socket_address);
+ struct dimm_size sz = sdram_spd_get_page_size(dimm_socket_address);
if (sz.side1 > 0) {
value = spd_read_byte(dimm_socket_address, SPD_NUM_ROWS);
die_on_spd_error(value);
- sz.side1 += value & 0xf;
+ sz.side1 += value & 0xf;
if (sz.side2 > 0) {
// Double-sided DIMM
if (value & 0xF0)
- sz.side2 += value >> 4; // Asymmetric
+ sz.side2 += value >> 4; // Asymmetric
else
- sz.side2 += value; // Symmetric
+ sz.side2 += value; // Symmetric
}
- value = spd_read_byte(dimm_socket_address, SPD_NUM_BANKS_PER_SDRAM);
- die_on_spd_error(value);
+ value =
+ spd_read_byte(dimm_socket_address,
+ SPD_NUM_BANKS_PER_SDRAM);
+ die_on_spd_error(value);
value = log2(value);
- sz.side1 += value;
+ sz.side1 += value;
if (sz.side2 > 0)
- sz.side2 += value;
+ sz.side2 += value;
}
return sz;
}
+#ifdef VALIDATE_DIMM_COMPATIBILITY
//----------------------------------------------------------------------------------
-// Function: are_spd_values_equal
-// Parameters: spd_byte_number -
-// dimmN_address - SMBus addresses of DIMM sockets to interrogate
-// Return Value: 1 if both DIMM sockets report the same value for the specified
-// SPD parameter; 0 if the values differed or an error occurred.
-// Description: Determine whether two DIMMs have the same value for a SPD parameter.
+// Function: are_spd_values_equal
+// Parameters: spd_byte_number -
+// dimmN_address - SMBus addresses of DIMM sockets to interrogate
+// Return Value: 1 if both DIMM sockets report the same value for the specified
+// SPD parameter; 0 if the values differed or an error occurred.
+// Description: Determine whether two DIMMs have the same value for a SPD parameter.
//
-static uint8_t are_spd_values_equal(uint8_t spd_byte_number, uint16_t dimm0_address,
- uint16_t dimm1_address)
+static uint8_t are_spd_values_equal(uint8_t spd_byte_number,
+ uint16_t dimm0_address,
+ uint16_t dimm1_address)
{
uint8_t bEqual = 0;
int dimm0_value = spd_read_byte(dimm0_address, spd_byte_number);
int dimm1_value = spd_read_byte(dimm1_address, spd_byte_number);
- if ((dimm0_value >= 0) && (dimm1_value >= 0) && (dimm0_value == dimm1_value))
+ if ((dimm0_value >= 0) && (dimm1_value >= 0)
+ && (dimm0_value == dimm1_value))
bEqual = 1;
return bEqual;
}
+#endif
//----------------------------------------------------------------------------------
-// Function: spd_get_supported_dimms
-// Parameters: ctrl - PCI addresses of memory controller functions, and
-// SMBus addresses of DIMM slots on the mainboard
-// Return Value: uint8_t - a bitmask indicating which of the possible sockets
-// for each channel was found to contain a compatible DIMM.
-// Bit 0 corresponds to the closest socket for channel 0,
-// Bit 1 to the next socket for channel 0,
-// ...
-// Bit MAX_DIMM_SOCKETS_PER_CHANNEL-1 to the last socket for channel 0,
-// Bit MAX_DIMM_SOCKETS_PER_CHANNEL is the closest socket for channel 1,
-// ...
-// Bit 2*MAX_DIMM_SOCKETS_PER_CHANNEL-1 is the last socket for channel 1
-// Description: Scan for compatible DIMMs.
-// The code in this module only supports dual-channel operation,
-// so we test that compatible DIMMs are paired.
+// Function: spd_get_supported_dimms
+// Parameters: ctrl - PCI addresses of memory controller functions, and
+// SMBus addresses of DIMM slots on the mainboard
+// Return Value: uint8_t - a bitmask indicating which of the possible sockets
+// for each channel was found to contain a compatible DIMM.
+// Bit 0 corresponds to the closest socket for channel 0,
+// Bit 1 to the next socket for channel 0,
+// ...
+// Bit MAX_DIMM_SOCKETS_PER_CHANNEL-1 to the last socket for channel 0,
+// Bit MAX_DIMM_SOCKETS_PER_CHANNEL is the closest socket for channel 1,
+// ...
+// Bit 2*MAX_DIMM_SOCKETS_PER_CHANNEL-1 is the last socket for channel 1
+// Description: Scan for compatible DIMMs.
+// The code in this module only supports dual-channel operation,
+// so we test that compatible DIMMs are paired.
//
-static uint8_t spd_get_supported_dimms(const struct mem_controller *ctrl)
+static uint8_t spd_get_supported_dimms(const struct mem_controller *ctrl)
{
int i;
uint8_t dimm_mask = 0;
@@ -686,54 +705,60 @@ static uint8_t spd_get_supported_dimms(const struct mem_controller *ctrl)
// Then see if the corresponding channel 1 DIMM has the same parameters,
// since we only support dual-channel.
- for (i = 0; i < MAX_DIMM_SOCKETS_PER_CHANNEL; i++) {
+ for (i = 0; i < MAX_DIMM_SOCKETS_PER_CHANNEL; i++) {
- uint16_t channel0_dimm = ctrl->channel0[i];
+ uint16_t channel0_dimm = ctrl->channel0[i];
uint16_t channel1_dimm = ctrl->channel1[i];
uint8_t bDualChannel = 1;
- struct dimm_size page_size;
- struct dimm_size sdram_width;
+#ifdef VALIDATE_DIMM_COMPATIBILITY
+ struct dimm_size page_size;
+ struct dimm_size sdram_width;
+#endif
int spd_value;
- int j;
if (channel0_dimm == 0)
- continue; // No such socket on this mainboard
+ continue; // No such socket on this mainboard
- if (spd_read_byte(channel0_dimm, SPD_MEMORY_TYPE) != SPD_MEMORY_TYPE_SDRAM_DDR)
+ if (spd_read_byte(channel0_dimm, SPD_MEMORY_TYPE) !=
+ SPD_MEMORY_TYPE_SDRAM_DDR)
continue;
#ifdef VALIDATE_DIMM_COMPATIBILITY
- if (spd_read_byte(channel0_dimm, SPD_MODULE_VOLTAGE) != SPD_VOLTAGE_SSTL2)
- continue; // Unsupported voltage
+ if (spd_read_byte(channel0_dimm, SPD_MODULE_VOLTAGE) !=
+ SPD_VOLTAGE_SSTL2)
+ continue; // Unsupported voltage
// E7501 does not support unregistered DIMMs
- spd_value = spd_read_byte(channel0_dimm, SPD_MODULE_ATTRIBUTES);
+ spd_value =
+ spd_read_byte(channel0_dimm, SPD_MODULE_ATTRIBUTES);
if (!(spd_value & MODULE_REGISTERED) || (spd_value < 0))
continue;
-
- // Must support burst = 4 for dual-channel operation on E7501
+
+ // Must support burst = 4 for dual-channel operation on E7501
// NOTE: for single-channel, burst = 8 is required
- spd_value = spd_read_byte(channel0_dimm, SPD_SUPPORTED_BURST_LENGTHS);
+ spd_value =
+ spd_read_byte(channel0_dimm,
+ SPD_SUPPORTED_BURST_LENGTHS);
if (!(spd_value & SPD_BURST_LENGTH_4) || (spd_value < 0))
continue;
- page_size = sdram_spd_get_page_size(channel0_dimm);
+ page_size = sdram_spd_get_page_size(channel0_dimm);
sdram_width = sdram_spd_get_width(channel0_dimm);
// Validate DIMM page size
// The E7501 only supports page sizes of 4, 8, 16, or 32 KB per channel
// NOTE: 4 KB = 32 Kb = 2^15
- // 32 KB = 262 Kb = 2^18
+ // 32 KB = 262 Kb = 2^18
if ((page_size.side1 < 15) || (page_size.side1 > 18))
continue;
// If DIMM is double-sided, verify side2 page size
- if (page_size.side2 != 0) {
- if ((page_size.side2 < 15) || (page_size.side2 > 18))
+ if (page_size.side2 != 0) {
+ if ((page_size.side2 < 15)
+ || (page_size.side2 > 18))
continue;
}
-
// Validate SDRAM width
// The E7501 only supports x4 and x8 devices
@@ -741,31 +766,37 @@ static uint8_t spd_get_supported_dimms(const struct mem_controller *ctrl)
continue;
// If DIMM is double-sided, verify side2 width
- if (sdram_width.side2 != 0) {
- if ((sdram_width.side2 != 4) && (sdram_width.side2 != 8))
+ if (sdram_width.side2 != 0) {
+ if ((sdram_width.side2 != 4)
+ && (sdram_width.side2 != 8))
continue;
}
-#endif
+#endif
// Channel 0 DIMM looks compatible.
// Now see if it is paired with the proper DIMM on channel 1.
- ASSERT(channel1_dimm != 0); // No such socket on this mainboard??
+ ASSERT(channel1_dimm != 0); // No such socket on this mainboard??
// NOTE: unpopulated DIMMs cause read to fail
- spd_value = spd_read_byte(channel1_dimm, SPD_MODULE_ATTRIBUTES);
+ spd_value =
+ spd_read_byte(channel1_dimm, SPD_MODULE_ATTRIBUTES);
if (!(spd_value & MODULE_REGISTERED) || (spd_value < 0)) {
-
+
print_debug("Skipping un-matched DIMMs - only dual-channel operation supported\n");
continue;
}
-
#ifdef VALIDATE_DIMM_COMPATIBILITY
- spd_value = spd_read_byte(channel1_dimm, SPD_SUPPORTED_BURST_LENGTHS);
+ spd_value =
+ spd_read_byte(channel1_dimm,
+ SPD_SUPPORTED_BURST_LENGTHS);
if (!(spd_value & SPD_BURST_LENGTH_4) || (spd_value < 0))
continue;
- for (j=0; j<sizeof(dual_channel_parameters); ++j) {
- if (!are_spd_values_equal(dual_channel_parameters[j], channel0_dimm, channel1_dimm)) {
+ int j;
+ for (j = 0; j < sizeof(dual_channel_parameters); ++j) {
+ if (!are_spd_values_equal
+ (dual_channel_parameters[j], channel0_dimm,
+ channel1_dimm)) {
bDualChannel = 0;
break;
@@ -777,22 +808,21 @@ static uint8_t spd_get_supported_dimms(const struct mem_controller *ctrl)
#ifdef ROMCC_IF_BUG_FIXED
if (bDualChannel) {
// Made it through all the checks, this DIMM pair is usable
- dimm_mask |= ((1<<i) | (1<<(MAX_DIMM_SOCKETS_PER_CHANNEL + i)));
- }
- else
+ dimm_mask |= ((1 << i) | (1 << (MAX_DIMM_SOCKETS_PER_CHANNEL + i)));
+ } else
print_debug("Skipping un-matched DIMMs - only dual-channel operation supported\n");
#else
switch (bDualChannel) {
case 0:
print_debug("Skipping un-matched DIMMs - only dual-channel operation supported\n");
break;
-
+
default:
// Made it through all the checks, this DIMM pair is usable
- dimm_mask |= (1<<i) | (1<<(MAX_DIMM_SOCKETS_PER_CHANNEL + i));
+ dimm_mask |= (1 << i) | (1 << (MAX_DIMM_SOCKETS_PER_CHANNEL + i));
break;
}
-#endif
+#endif
}
return dimm_mask;
@@ -803,32 +833,32 @@ static uint8_t spd_get_supported_dimms(const struct mem_controller *ctrl)
/**********************************************************************************/
//----------------------------------------------------------------------------------
-// Function: do_ram_command
-// Parameters:
-// command - specifies the command to be sent to the DIMMs:
-// RAM_COMMAND_NOP - No Operation
-// RAM_COMMAND_PRECHARGE - Precharge all banks
-// RAM_COMMAND_MRS - Load Mode Register
-// RAM_COMMAND_EMRS - Load Extended Mode Register
-// RAM_COMMAND_CBR - Auto Refresh ("CAS-before-RAS")
-// RAM_COMMAND_NORMAL - Normal operation
-// jedec_mode_bits - for mode register set & extended mode register set
-// commands, bits 0-12 contain the register value in JEDEC format.
-// Return Value: None
-// Description: Send the specified command to all DIMMs.
+// Function: do_ram_command
+// Parameters:
+// command - specifies the command to be sent to the DIMMs:
+// RAM_COMMAND_NOP - No Operation
+// RAM_COMMAND_PRECHARGE - Precharge all banks
+// RAM_COMMAND_MRS - Load Mode Register
+// RAM_COMMAND_EMRS - Load Extended Mode Register
+// RAM_COMMAND_CBR - Auto Refresh ("CAS-before-RAS")
+// RAM_COMMAND_NORMAL - Normal operation
+// jedec_mode_bits - for mode register set & extended mode register set
+// commands, bits 0-12 contain the register value in JEDEC format.
+// Return Value: None
+// Description: Send the specified command to all DIMMs.
//
-static void do_ram_command(uint8_t command, uint16_t jedec_mode_bits)
+static void do_ram_command(uint8_t command, uint16_t jedec_mode_bits)
{
- int i;
+ int i;
uint32_t dram_controller_mode;
uint8_t dimm_start_64M_multiple = 0;
uint16_t e7501_mode_bits = jedec_mode_bits;
// Configure the RAM command
- dram_controller_mode = pci_read_config32(PCI_DEV(0, 0, 0), DRC);
- dram_controller_mode &= 0xFFFFFF8F;
- dram_controller_mode |= command;
- pci_write_config32(PCI_DEV(0, 0, 0), DRC, dram_controller_mode);
+ dram_controller_mode = pci_read_config32(PCI_DEV(0, 0, 0), DRC);
+ dram_controller_mode &= 0xFFFFFF8F;
+ dram_controller_mode |= command;
+ pci_write_config32(PCI_DEV(0, 0, 0), DRC, dram_controller_mode);
// RAM_COMMAND_NORMAL is an exception.
// It affects only the memory controller and does not need to be "sent" to the DIMMs.
@@ -837,7 +867,7 @@ static void do_ram_command(uint8_t command, uint16_t jedec_mode_bits)
// Send the command to all DIMMs by accessing a memory location within each
// NOTE: for mode select commands, some of the location address bits
- // are part of the command
+ // are part of the command
// Map JEDEC mode bits to E7501
if (command == RAM_COMMAND_MRS) {
@@ -846,8 +876,8 @@ static void do_ram_command(uint8_t command, uint16_t jedec_mode_bits)
ASSERT(!(jedec_mode_bits & 0x0401));
- e7501_mode_bits = ((jedec_mode_bits & 0x1800) << (15-12)) | // JEDEC bits 11-12 move to bits 14-15
- ((jedec_mode_bits & 0x03FE) << (13-9)); // JEDEC bits 1-9 move to bits 5-13
+ e7501_mode_bits = ((jedec_mode_bits & 0x1800) << (15 - 12)) | // JEDEC bits 11-12 move to bits 14-15
+ ((jedec_mode_bits & 0x03FE) << (13 - 9)); // JEDEC bits 1-9 move to bits 5-13
} else if (command == RAM_COMMAND_EMRS) {
// Host address lines [15:3] map to DIMM address lines [12:0]
@@ -855,12 +885,12 @@ static void do_ram_command(uint8_t command, uint16_t jedec_mode_bits)
} else
ASSERT(jedec_mode_bits == 0);
-
dimm_start_64M_multiple = 0;
for (i = 0; i < (MAX_NUM_CHANNELS * MAX_DIMM_SOCKETS_PER_CHANNEL); ++i) {
- uint8_t dimm_end_64M_multiple = pci_read_config8(PCI_DEV(0, 0, 0), DRB_ROW_0 + i);
+ uint8_t dimm_end_64M_multiple =
+ pci_read_config8(PCI_DEV(0, 0, 0), DRB_ROW_0 + i);
if (dimm_end_64M_multiple > dimm_start_64M_multiple) {
// This code assumes DRAM row boundaries are all set below 4 GB
@@ -869,34 +899,38 @@ static void do_ram_command(uint8_t command, uint16_t jedec_mode_bits)
// NOTE: 2^26 == 64 MB
- uint32_t dimm_start_address = dimm_start_64M_multiple << 26;
+ uint32_t dimm_start_address =
+ dimm_start_64M_multiple << 26;
RAM_DEBUG_MESSAGE(" Sending RAM command to 0x");
RAM_DEBUG_HEX32(dimm_start_address + e7501_mode_bits);
RAM_DEBUG_MESSAGE("\n");
+
read32(dimm_start_address + e7501_mode_bits);
// Set the start of the next DIMM
- dimm_start_64M_multiple = dimm_end_64M_multiple;
+ dimm_start_64M_multiple =
+ dimm_end_64M_multiple;
}
}
}
}
//----------------------------------------------------------------------------------
-// Function: set_ram_mode
-// Parameters: jedec_mode_bits - for mode register set & extended mode register set
-// commands, bits 0-12 contain the register value in JEDEC format.
-// Return Value: None
-// Description: Set the mode register of all DIMMs. The proper CAS# latency
-// setting is added to the mode bits specified by the caller.
+// Function: set_ram_mode
+// Parameters: jedec_mode_bits - for mode register set & extended mode register set
+// commands, bits 0-12 contain the register value in JEDEC format.
+// Return Value: None
+// Description: Set the mode register of all DIMMs. The proper CAS# latency
+// setting is added to the mode bits specified by the caller.
//
static void set_ram_mode(uint16_t jedec_mode_bits)
{
ASSERT(!(jedec_mode_bits & SDRAM_CAS_MASK));
- uint32_t dram_cas_latency = pci_read_config32(PCI_DEV(0, 0, 0), DRT) & DRT_CAS_MASK;
-
+ uint32_t dram_cas_latency =
+ pci_read_config32(PCI_DEV(0, 0, 0), DRT) & DRT_CAS_MASK;
+
switch (dram_cas_latency) {
case DRT_CAS_2_5:
jedec_mode_bits |= SDRAM_CAS_2_5;
@@ -915,25 +949,22 @@ static void set_ram_mode(uint16_t jedec_mode_bits)
}
/*^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^*/
-/* SDRAM CONFIGURATION FUNCTIONS */
+/* SDRAM CONFIGURATION FUNCTIONS */
/**********************************************************************************/
//----------------------------------------------------------------------------------
-// Function: configure_dimm_row_boundaries
-// Parameters:
-// dimm_log2_num_bits - log2(number of bits) for each side of the DIMM
-// total_dram_64M_multiple - total DRAM in the system (as a
-// multiple of 64 MB) for DIMMs < dimm_index
-// dimm_index - which DIMM pair is being processed
-// (0..MAX_DIMM_SOCKETS_PER_CHANNEL)
-// Return Value: New multiple of 64 MB total DRAM in the system
-// Description: Configure the E7501's DRAM Row Boundary registers for the memory
-// present in the specified DIMM.
+// Function: configure_dimm_row_boundaries
+// Parameters:
+// dimm_log2_num_bits - log2(number of bits) for each side of the DIMM
+// total_dram_64M_multiple - total DRAM in the system (as a
+// multiple of 64 MB) for DIMMs < dimm_index
+// dimm_index - which DIMM pair is being processed
+// (0..MAX_DIMM_SOCKETS_PER_CHANNEL)
+// Return Value: New multiple of 64 MB total DRAM in the system
+// Description: Configure the E7501's DRAM Row Boundary registers for the memory
+// present in the specified DIMM.
//
-static uint8_t configure_dimm_row_boundaries(
- struct dimm_size dimm_log2_num_bits,
- uint8_t total_dram_64M_multiple,
- unsigned dimm_index)
+static uint8_t configure_dimm_row_boundaries(struct dimm_size dimm_log2_num_bits, uint8_t total_dram_64M_multiple, unsigned dimm_index)
{
int i;
@@ -941,7 +972,8 @@ static uint8_t configure_dimm_row_boundaries(
// DIMM sides must be at least 32 MB
ASSERT(dimm_log2_num_bits.side1 >= 28);
- ASSERT((dimm_log2_num_bits.side2 == 0) || (dimm_log2_num_bits.side2 >= 28));
+ ASSERT((dimm_log2_num_bits.side2 == 0)
+ || (dimm_log2_num_bits.side2 >= 28));
// In dual-channel mode, we are called only once for each pair of DIMMs.
// Each time we process twice the capacity of a single DIMM.
@@ -951,7 +983,7 @@ static uint8_t configure_dimm_row_boundaries(
dimm_log2_num_bits.side1++;
if (dimm_log2_num_bits.side2 > 0)
dimm_log2_num_bits.side2++;
-
+
// Add the capacity of side 1 this DIMM pair (as a multiple of 64 MB)
// to the total capacity of the system
// NOTE: 64 MB == 512 Mb, and log2(512 Mb) == 29
@@ -959,76 +991,82 @@ static uint8_t configure_dimm_row_boundaries(
total_dram_64M_multiple += (1 << (dimm_log2_num_bits.side1 - 29));
// Configure the boundary address for the row on side 1
- pci_write_config8(PCI_DEV(0, 0, 0), DRB_ROW_0+(dimm_index<<1), total_dram_64M_multiple);
+ pci_write_config8(PCI_DEV(0, 0, 0), DRB_ROW_0 + (dimm_index << 1),
+ total_dram_64M_multiple);
// If the DIMMs are double-sided, add the capacity of side 2 this DIMM pair
// (as a multiple of 64 MB) to the total capacity of the system
- if (dimm_log2_num_bits.side2 >= 29)
- total_dram_64M_multiple += (1 << (dimm_log2_num_bits.side2 - 29));
-
+ if (dimm_log2_num_bits.side2 >= 29)
+ total_dram_64M_multiple +=
+ (1 << (dimm_log2_num_bits.side2 - 29));
+
// Configure the boundary address for the row (if any) on side 2
- pci_write_config8(PCI_DEV(0, 0, 0), DRB_ROW_1+(dimm_index<<1), total_dram_64M_multiple);
+ pci_write_config8(PCI_DEV(0, 0, 0), DRB_ROW_1 + (dimm_index << 1),
+ total_dram_64M_multiple);
// Update boundaries for rows subsequent to these.
// These settings will be overridden by a subsequent call if a populated physical slot exists
-
- for(i=dimm_index+1; i<MAX_DIMM_SOCKETS_PER_CHANNEL; i++) {
- pci_write_config8(PCI_DEV(0, 0, 0), DRB_ROW_0+(i<<1), total_dram_64M_multiple);
- pci_write_config8(PCI_DEV(0, 0, 0), DRB_ROW_1+(i<<1), total_dram_64M_multiple);
+
+ for (i = dimm_index + 1; i < MAX_DIMM_SOCKETS_PER_CHANNEL; i++) {
+ pci_write_config8(PCI_DEV(0, 0, 0), DRB_ROW_0 + (i << 1),
+ total_dram_64M_multiple);
+ pci_write_config8(PCI_DEV(0, 0, 0), DRB_ROW_1 + (i << 1),
+ total_dram_64M_multiple);
}
-
- return total_dram_64M_multiple;
+
+ return total_dram_64M_multiple;
}
//----------------------------------------------------------------------------------
-// Function: configure_e7501_ram_addresses
-// Parameters: ctrl - PCI addresses of memory controller functions, and
-// SMBus addresses of DIMM slots on the mainboard
-// dimm_mask - bitmask of populated DIMMs on the board - see
-// spd_get_supported_dimms()
-// Return Value: None
-// Description: Program the E7501's DRAM row boundary addresses and its Top Of
-// Low Memory (TOLM). If necessary, set up a remap window so we
-// don't waste DRAM that ordinarily would lie behind addresses
-// reserved for memory-mapped I/O.
+// Function: configure_e7501_ram_addresses
+// Parameters: ctrl - PCI addresses of memory controller functions, and
+// SMBus addresses of DIMM slots on the mainboard
+// dimm_mask - bitmask of populated DIMMs on the board - see
+// spd_get_supported_dimms()
+// Return Value: None
+// Description: Program the E7501's DRAM row boundary addresses and its Top Of
+// Low Memory (TOLM). If necessary, set up a remap window so we
+// don't waste DRAM that ordinarily would lie behind addresses
+// reserved for memory-mapped I/O.
//
-static void configure_e7501_ram_addresses(const struct mem_controller *ctrl,
- uint8_t dimm_mask)
+static void configure_e7501_ram_addresses(const struct mem_controller
+ *ctrl, uint8_t dimm_mask)
{
int i;
- uint8_t total_dram_64M_multiple = 0;
+ uint8_t total_dram_64M_multiple = 0;
// Configure the E7501's DRAM row boundaries
// Start by zeroing out the temporary initial configuration
pci_write_config32(PCI_DEV(0, 0, 0), DRB_ROW_0, 0);
pci_write_config32(PCI_DEV(0, 0, 0), DRB_ROW_4, 0);
- for(i = 0; i < MAX_DIMM_SOCKETS_PER_CHANNEL; i++) {
+ for (i = 0; i < MAX_DIMM_SOCKETS_PER_CHANNEL; i++) {
- uint16_t dimm_socket_address = ctrl->channel0[i];
+ uint16_t dimm_socket_address = ctrl->channel0[i];
struct dimm_size sz;
- if (!(dimm_mask & (1 << i)))
- continue; // This DIMM not present
+ if (!(dimm_mask & (1 << i)))
+ continue; // This DIMM not present
- sz = spd_get_dimm_size(dimm_socket_address);
+ sz = spd_get_dimm_size(dimm_socket_address);
- RAM_DEBUG_MESSAGE("dimm size =");
- RAM_DEBUG_HEX32(sz.side1);
- RAM_DEBUG_MESSAGE(" ");
- RAM_DEBUG_HEX32(sz.side2);
- RAM_DEBUG_MESSAGE("\n");
+ RAM_DEBUG_MESSAGE("dimm size =");
+ RAM_DEBUG_HEX32(sz.side1);
+ RAM_DEBUG_MESSAGE(" ");
+ RAM_DEBUG_HEX32(sz.side2);
+ RAM_DEBUG_MESSAGE("\n");
if (sz.side1 == 0)
die("Bad SPD value\n");
- total_dram_64M_multiple = configure_dimm_row_boundaries(sz, total_dram_64M_multiple, i);
+ total_dram_64M_multiple =
+ configure_dimm_row_boundaries(sz, total_dram_64M_multiple, i);
}
// Configure the Top Of Low Memory (TOLM) in the E7501
// This address must be a multiple of 128 MB that is less than 4 GB.
// NOTE: 16-bit wide TOLM register stores only the highest 5 bits of a 32-bit address
- // in the highest 5 bits.
+ // in the highest 5 bits.
// We set TOLM to the smaller of 0xC0000000 (3 GB) or the total DRAM in the system.
// This reserves addresses from 0xC0000000 - 0xFFFFFFFF for non-DRAM purposes
@@ -1040,30 +1078,33 @@ static void configure_e7501_ram_addresses(const struct mem_controller *ctrl,
// NOTE: 0xC0000000 / (64 MB) == 0x30
- if (total_dram_64M_multiple <= 0x30) {
+ if (total_dram_64M_multiple <= 0x30) {
// <= 3 GB total RAM
/* I should really adjust all of this in C after I have resources
- * to all of the pci devices.
- */
+ * to all of the pci devices.
+ */
// Round up to 128MB granularity
// SJM: Is "missing" 64 MB of memory a potential issue? Should this round down?
- uint8_t total_dram_128M_multiple = (total_dram_64M_multiple + 1) >> 1;
+ uint8_t total_dram_128M_multiple =
+ (total_dram_64M_multiple + 1) >> 1;
// Convert to high 16 bits of address
- uint16_t top_of_low_memory = total_dram_128M_multiple << 11;
+ uint16_t top_of_low_memory =
+ total_dram_128M_multiple << 11;
- pci_write_config16(PCI_DEV(0, 0, 0), TOLM, top_of_low_memory);
+ pci_write_config16(PCI_DEV(0, 0, 0), TOLM,
+ top_of_low_memory);
} else {
// > 3 GB total RAM
// Set defaults for > 4 GB DRAM, i.e. remap a 1 GB (= 0x10 * 64 MB) range of memory
- uint16_t remap_base = total_dram_64M_multiple; // A[25:0] == 0
+ uint16_t remap_base = total_dram_64M_multiple; // A[25:0] == 0
uint16_t remap_limit = total_dram_64M_multiple + 0x10 - 1; // A[25:0] == 0xF
// Put TOLM at 3 GB
@@ -1073,25 +1114,28 @@ static void configure_e7501_ram_addresses(const struct mem_controller *ctrl,
// Define a remap window to make the RAM that would appear from 3 GB - 4 GB
// visible just beyond 4 GB or the end of physical memory, whichever is larger
// NOTE: 16-bit wide REMAP registers store only the highest 10 bits of a 36-bit address,
- // (i.e. a multiple of 64 MB) in the lowest 10 bits.
+ // (i.e. a multiple of 64 MB) in the lowest 10 bits.
// NOTE: 0x100000000 / (64 MB) == 0x40
- if (total_dram_64M_multiple < 0x40) {
- remap_base = 0x40; // 0x100000000
- remap_limit = 0x40 + (total_dram_64M_multiple - 0x30) - 1;
+ if (total_dram_64M_multiple < 0x40) {
+ remap_base = 0x40; // 0x100000000
+ remap_limit =
+ 0x40 + (total_dram_64M_multiple - 0x30) - 1;
}
- pci_write_config16(PCI_DEV(0, 0, 0), REMAPBASE, remap_base);
- pci_write_config16(PCI_DEV(0, 0, 0), REMAPLIMIT, remap_limit);
+ pci_write_config16(PCI_DEV(0, 0, 0), REMAPBASE,
+ remap_base);
+ pci_write_config16(PCI_DEV(0, 0, 0), REMAPLIMIT,
+ remap_limit);
}
}
//----------------------------------------------------------------------------------
-// Function: initialize_ecc
-// Parameters: None
-// Return Value: None
-// Description: If we're configured to use ECC, initialize the SDRAM and
-// clear the E7501's ECC error flags.
+// Function: initialize_ecc
+// Parameters: None
+// Return Value: None
+// Description: If we're configured to use ECC, initialize the SDRAM and
+// clear the E7501's ECC error flags.
//
static void initialize_ecc(void)
{
@@ -1101,145 +1145,156 @@ static void initialize_ecc(void)
dram_controller_mode = pci_read_config32(PCI_DEV(0, 0, 0), DRC);
dram_controller_mode >>= 20;
dram_controller_mode &= 3;
- if (dram_controller_mode == 2) {
-
+ if (dram_controller_mode == 2) {
+
uint8_t byte;
RAM_DEBUG_MESSAGE("Initializing ECC state...\n");
- /* Initialize ECC bits , use ECC zero mode (new to 7501)*/
+ /* Initialize ECC bits , use ECC zero mode (new to 7501) */
pci_write_config8(PCI_DEV(0, 0, 0), MCHCFGNS, 0x06);
pci_write_config8(PCI_DEV(0, 0, 0), MCHCFGNS, 0x07);
// Wait for scrub cycle to complete
do {
- byte = pci_read_config8(PCI_DEV(0, 0, 0), MCHCFGNS);
-
- } while ( (byte & 0x08 ) == 0);
+ byte =
+ pci_read_config8(PCI_DEV(0, 0, 0), MCHCFGNS);
+ } while ((byte & 0x08) == 0);
pci_write_config8(PCI_DEV(0, 0, 0), MCHCFGNS, byte & 0xfc);
- RAM_DEBUG_MESSAGE("ECC state initialized.\n");
+ RAM_DEBUG_MESSAGE("ECC state initialized.\n");
/* Clear the ECC error bits */
pci_write_config8(PCI_DEV(0, 0, 1), DRAM_FERR, 0x03);
pci_write_config8(PCI_DEV(0, 0, 1), DRAM_NERR, 0x03);
// Clear DRAM Interface error bits (write-one-clear)
- pci_write_config32(PCI_DEV(0, 0, 1), FERR_GLOBAL, 1<<18);
- pci_write_config32(PCI_DEV(0, 0, 1), NERR_GLOBAL, 1<<18);
+ pci_write_config32(PCI_DEV(0, 0, 1), FERR_GLOBAL, 1 << 18);
+ pci_write_config32(PCI_DEV(0, 0, 1), NERR_GLOBAL, 1 << 18);
// Start normal ECC scrub
pci_write_config8(PCI_DEV(0, 0, 0), MCHCFGNS, 5);
}
-
+
}
//----------------------------------------------------------------------------------
-// Function: configure_e7501_dram_timing
-// Parameters: ctrl - PCI addresses of memory controller functions, and
-// SMBus addresses of DIMM slots on the mainboard
-// dimm_mask - bitmask of populated DIMMs on the board - see
-// spd_get_supported_dimms()
-// Return Value: None
-// Description: Program the DRAM Timing register of the E7501 (except for CAS#
-// latency, which is assumed to have been programmed already), based
-// on the parameters of the various installed DIMMs.
+// Function: configure_e7501_dram_timing
+// Parameters: ctrl - PCI addresses of memory controller functions, and
+// SMBus addresses of DIMM slots on the mainboard
+// dimm_mask - bitmask of populated DIMMs on the board - see
+// spd_get_supported_dimms()
+// Return Value: None
+// Description: Program the DRAM Timing register of the E7501 (except for CAS#
+// latency, which is assumed to have been programmed already), based
+// on the parameters of the various installed DIMMs.
//
-static void configure_e7501_dram_timing(const struct mem_controller *ctrl, uint8_t dimm_mask)
+static void configure_e7501_dram_timing(const struct mem_controller *ctrl,
+ uint8_t dimm_mask)
{
int i;
- uint32_t dram_timing;
- int value;
+ uint32_t dram_timing;
+ int value;
uint8_t slowest_row_precharge = 0;
uint8_t slowest_ras_cas_delay = 0;
uint8_t slowest_active_to_precharge_delay = 0;
- uint32_t current_cas_latency = pci_read_config32(PCI_DEV(0, 0, 0), DRT) & DRT_CAS_MASK;
+ uint32_t current_cas_latency =
+ pci_read_config32(PCI_DEV(0, 0, 0), DRT) & DRT_CAS_MASK;
// CAS# latency must be programmed beforehand
- ASSERT((current_cas_latency == DRT_CAS_2_0) || (current_cas_latency == DRT_CAS_2_5));
+ ASSERT((current_cas_latency == DRT_CAS_2_0)
+ || (current_cas_latency == DRT_CAS_2_5));
// Each timing parameter is determined by the slowest DIMM
for (i = 0; i < MAX_DIMM_SOCKETS; i++) {
+ uint16_t dimm_socket_address;
- uint16_t dimm_socket_address;
-
if (!(dimm_mask & (1 << i)))
- continue; // This DIMM not present
+ continue; // This DIMM not present
if (i < MAX_DIMM_SOCKETS_PER_CHANNEL)
dimm_socket_address = ctrl->channel0[i];
else
- dimm_socket_address = ctrl->channel1[i - MAX_DIMM_SOCKETS_PER_CHANNEL];
-
- value = spd_read_byte(dimm_socket_address, SPD_MIN_ROW_PRECHARGE_TIME);
- if (value < 0) goto hw_err;
+ dimm_socket_address =
+ ctrl->channel1[i - MAX_DIMM_SOCKETS_PER_CHANNEL];
+
+ value =
+ spd_read_byte(dimm_socket_address,
+ SPD_MIN_ROW_PRECHARGE_TIME);
+ if (value < 0)
+ goto hw_err;
if (value > slowest_row_precharge)
slowest_row_precharge = value;
- value = spd_read_byte(dimm_socket_address, SPD_MIN_RAS_TO_CAS_DELAY);
- if(value < 0 ) goto hw_err;
+ value =
+ spd_read_byte(dimm_socket_address,
+ SPD_MIN_RAS_TO_CAS_DELAY);
+ if (value < 0)
+ goto hw_err;
if (value > slowest_ras_cas_delay)
slowest_ras_cas_delay = value;
- value = spd_read_byte(dimm_socket_address, SPD_MIN_ACTIVE_TO_PRECHARGE_DELAY);
- if(value < 0 ) goto hw_err;
+ value =
+ spd_read_byte(dimm_socket_address,
+ SPD_MIN_ACTIVE_TO_PRECHARGE_DELAY);
+ if (value < 0)
+ goto hw_err;
if (value > slowest_active_to_precharge_delay)
slowest_active_to_precharge_delay = value;
}
// NOTE for timing parameters:
- // At 133 MHz, 1 clock == 7.52 ns
+ // At 133 MHz, 1 clock == 7.52 ns
- /* Read the initial state */
- dram_timing = pci_read_config32(PCI_DEV(0, 0, 0), DRT);
+ /* Read the initial state */
+ dram_timing = pci_read_config32(PCI_DEV(0, 0, 0), DRT);
/* Trp */
// E7501 supports only 2 or 3 clocks for tRP
- if (slowest_row_precharge > ((22<<2) | (2<<0)))
- die("unsupported DIMM tRP"); // > 22.5 ns: 4 or more clocks
- else if (slowest_row_precharge > (15<<2))
- dram_timing &= ~(1<<0); // > 15.0 ns: 3 clocks
+ if (slowest_row_precharge > ((22 << 2) | (2 << 0)))
+ die("unsupported DIMM tRP"); // > 22.5 ns: 4 or more clocks
+ else if (slowest_row_precharge > (15 << 2))
+ dram_timing &= ~(1 << 0); // > 15.0 ns: 3 clocks
else
- dram_timing |= (1<<0); // <= 15.0 ns: 2 clocks
+ dram_timing |= (1 << 0); // <= 15.0 ns: 2 clocks
/* Trcd */
// E7501 supports only 2 or 3 clocks for tRCD
// Use the same value for both read & write
- dram_timing &= ~((1<<3)|(3<<1));
- if (slowest_ras_cas_delay > ((22<<2) | (2<<0)))
- die("unsupported DIMM tRCD"); // > 22.5 ns: 4 or more clocks
- else if (slowest_ras_cas_delay > (15<<2))
- dram_timing |= (2<<1); // > 15.0 ns: 3 clocks
+ dram_timing &= ~((1 << 3) | (3 << 1));
+ if (slowest_ras_cas_delay > ((22 << 2) | (2 << 0)))
+ die("unsupported DIMM tRCD"); // > 22.5 ns: 4 or more clocks
+ else if (slowest_ras_cas_delay > (15 << 2))
+ dram_timing |= (2 << 1); // > 15.0 ns: 3 clocks
else
- dram_timing |= ((1<<3) | (3<<1)); // <= 15.0 ns: 2 clocks
+ dram_timing |= ((1 << 3) | (3 << 1)); // <= 15.0 ns: 2 clocks
/* Tras */
// E7501 supports only 5, 6, or 7 clocks for tRAS
// 5 clocks ~= 37.6 ns, 6 clocks ~= 45.1 ns, 7 clocks ~= 52.6 ns
- dram_timing &= ~(3<<9);
+ dram_timing &= ~(3 << 9);
if (slowest_active_to_precharge_delay > 52)
- die("unsupported DIMM tRAS"); // > 52 ns: 8 or more clocks
+ die("unsupported DIMM tRAS"); // > 52 ns: 8 or more clocks
else if (slowest_active_to_precharge_delay > 45)
- dram_timing |= (0<<9); // 46-52 ns: 7 clocks
+ dram_timing |= (0 << 9); // 46-52 ns: 7 clocks
else if (slowest_active_to_precharge_delay > 37)
- dram_timing |= (1<<9); // 38-45 ns: 6 clocks
+ dram_timing |= (1 << 9); // 38-45 ns: 6 clocks
else
- dram_timing |= (2<<9); // < 38 ns: 5 clocks
-
+ dram_timing |= (2 << 9); // < 38 ns: 5 clocks
- /* Trd */
+ /* Trd */
/* Set to a 7 clock read delay. This is for 133Mhz
- * with a CAS latency of 2.5 if 2.0 a 6 clock
- * delay is good */
+ * with a CAS latency of 2.5 if 2.0 a 6 clock
+ * delay is good */
- dram_timing &= ~(7<<24); // 7 clocks
+ dram_timing &= ~(7 << 24); // 7 clocks
if (current_cas_latency == DRT_CAS_2_0)
- dram_timing |= (1<<24); // 6 clocks
+ dram_timing |= (1 << 24); // 6 clocks
/*
* Back to Back Read-Write Turn Around
@@ -1247,29 +1302,30 @@ static void configure_e7501_dram_timing(const struct mem_controller *ctrl, uint8
/* Set to a 5 clock back to back read to write turn around.
* 4 is a good delay if the CAS latency is 2.0 */
- dram_timing &= ~(1<<28); // 5 clocks
+ dram_timing &= ~(1 << 28); // 5 clocks
if (current_cas_latency == DRT_CAS_2_0)
- dram_timing |= (1<<28); // 4 clocks
+ dram_timing |= (1 << 28); // 4 clocks
pci_write_config32(PCI_DEV(0, 0, 0), DRT, dram_timing);
return;
-hw_err:
+ hw_err:
die(SPD_ERROR);
}
//----------------------------------------------------------------------------------
-// Function: configure_e7501_cas_latency
-// Parameters: ctrl - PCI addresses of memory controller functions, and
-// SMBus addresses of DIMM slots on the mainboard
-// dimm_mask - bitmask of populated DIMMs on the board - see
-// spd_get_supported_dimms()
-// Return Value: None
-// Description: Determine the shortest CAS# latency that the E7501 and all DIMMs
-// have in common, and program the E7501 to use it.
+// Function: configure_e7501_cas_latency
+// Parameters: ctrl - PCI addresses of memory controller functions, and
+// SMBus addresses of DIMM slots on the mainboard
+// dimm_mask - bitmask of populated DIMMs on the board - see
+// spd_get_supported_dimms()
+// Return Value: None
+// Description: Determine the shortest CAS# latency that the E7501 and all DIMMs
+// have in common, and program the E7501 to use it.
//
-static void configure_e7501_cas_latency(const struct mem_controller *ctrl, uint8_t dimm_mask)
+static void configure_e7501_cas_latency(const struct mem_controller *ctrl,
+ uint8_t dimm_mask)
{
int i;
int value;
@@ -1279,32 +1335,40 @@ static void configure_e7501_cas_latency(const struct mem_controller *ctrl, uint8
// CAS# latency bitmasks in SPD_ACCEPTABLE_CAS_LATENCIES format
// NOTE: E7501 supports only 2.0 and 2.5
- uint32_t system_compatible_cas_latencies = SPD_CAS_LATENCY_2_0 | SPD_CAS_LATENCY_2_5;
+ uint32_t system_compatible_cas_latencies =
+ SPD_CAS_LATENCY_2_0 | SPD_CAS_LATENCY_2_5;
uint32_t current_cas_latency;
uint32_t dimm_compatible_cas_latencies;
-
+
for (i = 0; i < MAX_DIMM_SOCKETS; i++) {
- uint16_t dimm_socket_address;
+ uint16_t dimm_socket_address;
if (!(dimm_mask & (1 << i)))
- continue; // This DIMM not usable
+ continue; // This DIMM not usable
if (i < MAX_DIMM_SOCKETS_PER_CHANNEL)
dimm_socket_address = ctrl->channel0[i];
else
- dimm_socket_address = ctrl->channel1[i - MAX_DIMM_SOCKETS_PER_CHANNEL];
+ dimm_socket_address =
+ ctrl->channel1[i - MAX_DIMM_SOCKETS_PER_CHANNEL];
- value = spd_read_byte(dimm_socket_address, SPD_ACCEPTABLE_CAS_LATENCIES);
- if (value < 0) goto hw_err;
+ value =
+ spd_read_byte(dimm_socket_address,
+ SPD_ACCEPTABLE_CAS_LATENCIES);
+ if (value < 0)
+ goto hw_err;
- dimm_compatible_cas_latencies = value & 0x7f; // Start with all supported by DIMM
- current_cas_latency = 1 << log2(dimm_compatible_cas_latencies); // Max supported by DIMM
+ dimm_compatible_cas_latencies = value & 0x7f; // Start with all supported by DIMM
+ current_cas_latency = 1 << log2(dimm_compatible_cas_latencies); // Max supported by DIMM
// Can we support the highest CAS# latency?
- value = spd_read_byte(dimm_socket_address, SPD_MIN_CYCLE_TIME_AT_CAS_MAX);
- if (value < 0) goto hw_err;
+ value =
+ spd_read_byte(dimm_socket_address,
+ SPD_MIN_CYCLE_TIME_AT_CAS_MAX);
+ if (value < 0)
+ goto hw_err;
// NOTE: At 133 MHz, 1 clock == 7.52 ns
if (value > 0x75) {
@@ -1312,30 +1376,36 @@ static void configure_e7501_cas_latency(const struct mem_controller *ctrl, uint8
// Remove it from the bitmask of those supported by the DIMM that are compatible
dimm_compatible_cas_latencies &= ~current_cas_latency;
}
-
// Can we support the next-highest CAS# latency (max - 0.5)?
current_cas_latency >>= 1;
if (current_cas_latency != 0) {
- value = spd_read_byte(dimm_socket_address, SPD_SDRAM_CYCLE_TIME_2ND);
- if(value < 0 ) goto hw_err;
- if(value > 0x75)
- dimm_compatible_cas_latencies &= ~current_cas_latency;
+ value =
+ spd_read_byte(dimm_socket_address,
+ SPD_SDRAM_CYCLE_TIME_2ND);
+ if (value < 0)
+ goto hw_err;
+ if (value > 0x75)
+ dimm_compatible_cas_latencies &=
+ ~current_cas_latency;
}
-
// Can we support the next-highest CAS# latency (max - 1.0)?
current_cas_latency >>= 1;
if (current_cas_latency != 0) {
- value = spd_read_byte(dimm_socket_address, SPD_SDRAM_CYCLE_TIME_3RD);
- if(value < 0 ) goto hw_err;
- if(value > 0x75)
- dimm_compatible_cas_latencies &= ~current_cas_latency;
+ value =
+ spd_read_byte(dimm_socket_address,
+ SPD_SDRAM_CYCLE_TIME_3RD);
+ if (value < 0)
+ goto hw_err;
+ if (value > 0x75)
+ dimm_compatible_cas_latencies &=
+ ~current_cas_latency;
}
-
// Restrict the system to CAS# latencies compatible with this DIMM
- system_compatible_cas_latencies &= dimm_compatible_cas_latencies;
+ system_compatible_cas_latencies &=
+ dimm_compatible_cas_latencies;
- /* go to the next DIMM */
+ /* go to the next DIMM */
}
/* After all of the arduous calculation setup with the fastest
@@ -1345,154 +1415,162 @@ static void configure_e7501_cas_latency(const struct mem_controller *ctrl, uint8
dram_timing = pci_read_config32(PCI_DEV(0, 0, 0), DRT);
dram_timing &= ~(DRT_CAS_MASK);
- maybe_dram_read_timing = pci_read_config16(PCI_DEV(0, 0, 0), MAYBE_DRDCTL);
+ maybe_dram_read_timing =
+ pci_read_config16(PCI_DEV(0, 0, 0), MAYBE_DRDCTL);
maybe_dram_read_timing &= 0xF00C;
if (system_compatible_cas_latencies & SPD_CAS_LATENCY_2_0) {
dram_timing |= DRT_CAS_2_0;
maybe_dram_read_timing |= 0xBB1;
- }
- else if (system_compatible_cas_latencies & SPD_CAS_LATENCY_2_5) {
+ } else if (system_compatible_cas_latencies & SPD_CAS_LATENCY_2_5) {
- uint32_t dram_row_attributes = pci_read_config32(PCI_DEV(0, 0, 0), DRA);
+ uint32_t dram_row_attributes =
+ pci_read_config32(PCI_DEV(0, 0, 0), DRA);
dram_timing |= DRT_CAS_2_5;
// At CAS# 2.5, DRAM Read Timing (if that's what it its) appears to need a slightly
// different value if all DIMM slots are populated
- if ((dram_row_attributes & 0xff) && (dram_row_attributes & 0xff00) &&
- (dram_row_attributes & 0xff0000) && (dram_row_attributes & 0xff000000)) {
+ if ((dram_row_attributes & 0xff)
+ && (dram_row_attributes & 0xff00)
+ && (dram_row_attributes & 0xff0000)
+ && (dram_row_attributes & 0xff000000)) {
// All slots populated
maybe_dram_read_timing |= 0x0882;
- }
- else {
+ } else {
// Some unpopulated slots
maybe_dram_read_timing |= 0x0662;
}
- }
- else
+ } else
die("No CAS# latencies compatible with all DIMMs!!\n");
pci_write_config32(PCI_DEV(0, 0, 0), DRT, dram_timing);
/* set master DLL reset */
dword = pci_read_config32(PCI_DEV(0, 0, 0), 0x88);
- dword |= (1<<26);
+ dword |= (1 << 26);
pci_write_config32(PCI_DEV(0, 0, 0), 0x88, dword);
-
+
dword &= 0x0c0007ff; /* patch try register 88 is undocumented tnz */
dword |= 0xd2109800;
pci_write_config32(PCI_DEV(0, 0, 0), 0x88, dword);
-
- pci_write_config16(PCI_DEV(0, 0, 0), MAYBE_DRDCTL, maybe_dram_read_timing);
-
+ pci_write_config16(PCI_DEV(0, 0, 0), MAYBE_DRDCTL,
+ maybe_dram_read_timing);
+
dword = pci_read_config32(PCI_DEV(0, 0, 0), 0x88); /* reset master DLL reset */
- dword &= ~(1<<26);
+ dword &= ~(1 << 26);
pci_write_config32(PCI_DEV(0, 0, 0), 0x88, dword);
return;
-hw_err:
+ hw_err:
die(SPD_ERROR);
}
//----------------------------------------------------------------------------------
-// Function: configure_e7501_dram_controller_mode
-// Parameters: ctrl - PCI addresses of memory controller functions, and
-// SMBus addresses of DIMM slots on the mainboard
-// dimm_mask - bitmask of populated DIMMs on the board - see
-// spd_get_supported_dimms()
-// Return Value: None
-// Description: Configure the refresh interval so that we refresh no more often
-// than required by the "most needy" DIMM. Also disable ECC if any
-// of the DIMMs don't support it.
+// Function: configure_e7501_dram_controller_mode
+// Parameters: ctrl - PCI addresses of memory controller functions, and
+// SMBus addresses of DIMM slots on the mainboard
+// dimm_mask - bitmask of populated DIMMs on the board - see
+// spd_get_supported_dimms()
+// Return Value: None
+// Description: Configure the refresh interval so that we refresh no more often
+// than required by the "most needy" DIMM. Also disable ECC if any
+// of the DIMMs don't support it.
//
-static void configure_e7501_dram_controller_mode(const struct mem_controller *ctrl,
- uint8_t dimm_mask)
+static void configure_e7501_dram_controller_mode(const struct
+ mem_controller *ctrl,
+ uint8_t dimm_mask)
{
- int i;
+ int i;
// Initial settings
- uint32_t controller_mode = pci_read_config32(PCI_DEV(0, 0, 0), DRC);
+ uint32_t controller_mode =
+ pci_read_config32(PCI_DEV(0, 0, 0), DRC);
uint32_t system_refresh_mode = (controller_mode >> 8) & 7;
// Code below assumes that most aggressive settings are in
// force when we are called, either via E7501 reset defaults
// or by sdram_set_registers():
- // - ECC enabled
- // - No refresh
+ // - ECC enabled
+ // - No refresh
- ASSERT((controller_mode & (3<<20)) == (2<<20)); // ECC
- ASSERT(!(controller_mode & (7 << 8))); // Refresh
+ ASSERT((controller_mode & (3 << 20)) == (2 << 20)); // ECC
+ ASSERT(!(controller_mode & (7 << 8))); // Refresh
- /* Walk through _all_ dimms and find the least-common denominator for:
- * - ECC support
- * - refresh rates
- */
+ /* Walk through _all_ dimms and find the least-common denominator for:
+ * - ECC support
+ * - refresh rates
+ */
for (i = 0; i < MAX_DIMM_SOCKETS; i++) {
uint32_t dimm_refresh_mode;
- int value;
- uint16_t dimm_socket_address;
+ int value;
+ uint16_t dimm_socket_address;
if (!(dimm_mask & (1 << i))) {
- continue; // This DIMM not usable
- }
+ continue; // This DIMM not usable
+ }
if (i < MAX_DIMM_SOCKETS_PER_CHANNEL)
dimm_socket_address = ctrl->channel0[i];
else
- dimm_socket_address = ctrl->channel1[i - MAX_DIMM_SOCKETS_PER_CHANNEL];
+ dimm_socket_address =
+ ctrl->channel1[i -
+ MAX_DIMM_SOCKETS_PER_CHANNEL];
// Disable ECC mode if any one of the DIMMs does not support ECC
// SJM: Should we just die here? E7501 datasheet says non-ECC DIMMs aren't supported.
- value = spd_read_byte(dimm_socket_address, SPD_DIMM_CONFIG_TYPE);
- die_on_spd_error(value);
+ value =
+ spd_read_byte(dimm_socket_address,
+ SPD_DIMM_CONFIG_TYPE);
+ die_on_spd_error(value);
if (value != ERROR_SCHEME_ECC) {
controller_mode &= ~(3 << 20);
}
value = spd_read_byte(dimm_socket_address, SPD_REFRESH);
die_on_spd_error(value);
- value &= 0x7f; // Mask off self-refresh bit
- if(value > MAX_SPD_REFRESH_RATE) {
+ value &= 0x7f; // Mask off self-refresh bit
+ if (value > MAX_SPD_REFRESH_RATE) {
print_err("unsupported refresh rate\n");
continue;
}
-
// Get the appropriate E7501 refresh mode for this DIMM
dimm_refresh_mode = refresh_rate_map[value];
if (dimm_refresh_mode > 7) {
print_err("unsupported refresh rate\n");
continue;
}
-
// If this DIMM requires more frequent refresh than others,
// update the system setting
- if (refresh_frequency[dimm_refresh_mode] > refresh_frequency[system_refresh_mode])
+ if (refresh_frequency[dimm_refresh_mode] >
+ refresh_frequency[system_refresh_mode])
system_refresh_mode = dimm_refresh_mode;
-
+
#ifdef SUSPICIOUS_LOOKING_CODE
// SJM NOTE: This code doesn't look right. SPD values are an order of magnitude smaller
-// than the clock period of the memory controller. Also, no other northbridge
-// looks at SPD_CMD_SIGNAL_INPUT_HOLD_TIME.
+// than the clock period of the memory controller. Also, no other northbridge
+// looks at SPD_CMD_SIGNAL_INPUT_HOLD_TIME.
// Switch to 2 clocks for address/command if required by any one of the DIMMs
// NOTE: At 133 MHz, 1 clock == 7.52 ns
- value = spd_read_byte(dimm_socket_address, SPD_CMD_SIGNAL_INPUT_HOLD_TIME);
+ value =
+ spd_read_byte(dimm_socket_address,
+ SPD_CMD_SIGNAL_INPUT_HOLD_TIME);
die_on_spd_error(value);
- if(value >= 0xa0) { /* At 133MHz this constant should be 0x75 */
- controller_mode &= ~(1<<16); /* Use two clock cyles instead of one */
+ if (value >= 0xa0) { /* At 133MHz this constant should be 0x75 */
+ controller_mode &= ~(1 << 16); /* Use two clock cyles instead of one */
}
#endif
-
- /* go to the next DIMM */
+
+ /* go to the next DIMM */
}
controller_mode |= (system_refresh_mode << 8);
@@ -1502,54 +1580,54 @@ static void configure_e7501_dram_controller_mode(const struct mem_controller *ct
}
//----------------------------------------------------------------------------------
-// Function: configure_e7501_row_attributes
-// Parameters: ctrl - PCI addresses of memory controller functions, and
-// SMBus addresses of DIMM slots on the mainboard
-// dimm_mask - bitmask of populated DIMMs on the board - see
-// spd_get_supported_dimms()
-// Return Value: None
-// Description: Configure the E7501's DRAM Row Attributes (DRA) registers
-// based on DIMM parameters read via SPD. This tells the controller
-// the width of the SDRAM chips on each DIMM side (x4 or x8) and
-// the page size of each DIMM side (4, 8, 16, or 32 KB).
+// Function: configure_e7501_row_attributes
+// Parameters: ctrl - PCI addresses of memory controller functions, and
+// SMBus addresses of DIMM slots on the mainboard
+// dimm_mask - bitmask of populated DIMMs on the board - see
+// spd_get_supported_dimms()
+// Return Value: None
+// Description: Configure the E7501's DRAM Row Attributes (DRA) registers
+// based on DIMM parameters read via SPD. This tells the controller
+// the width of the SDRAM chips on each DIMM side (x4 or x8) and
+// the page size of each DIMM side (4, 8, 16, or 32 KB).
//
-static void configure_e7501_row_attributes(const struct mem_controller *ctrl,
- uint8_t dimm_mask)
+static void configure_e7501_row_attributes(const struct mem_controller
+ *ctrl, uint8_t dimm_mask)
{
int i;
uint32_t row_attributes = 0;
-
- for (i = 0; i < MAX_DIMM_SOCKETS_PER_CHANNEL; i++) {
- uint16_t dimm_socket_address = ctrl->channel0[i];
- struct dimm_size page_size;
- struct dimm_size sdram_width;
+ for (i = 0; i < MAX_DIMM_SOCKETS_PER_CHANNEL; i++) {
+
+ uint16_t dimm_socket_address = ctrl->channel0[i];
+ struct dimm_size page_size;
+ struct dimm_size sdram_width;
if (!(dimm_mask & (1 << i)))
- continue; // This DIMM not usable
+ continue; // This DIMM not usable
// Get the relevant parameters via SPD
- page_size = sdram_spd_get_page_size(dimm_socket_address);
+ page_size = sdram_spd_get_page_size(dimm_socket_address);
sdram_width = sdram_spd_get_width(dimm_socket_address);
// Update the DRAM Row Attributes.
// Page size is encoded as log2(page size in bits) - log2(8 Kb)
// NOTE: 8 Kb = 2^13
- row_attributes |= (page_size.side1 - 13) << (i<<3); // Side 1 of each DIMM is an EVEN row
+ row_attributes |= (page_size.side1 - 13) << (i << 3); // Side 1 of each DIMM is an EVEN row
if (sdram_width.side2 > 0)
- row_attributes |= (page_size.side2 - 13) << ((i<<3) + 4); // Side 2 is ODD
+ row_attributes |= (page_size.side2 - 13) << ((i << 3) + 4); // Side 2 is ODD
// Set x4 flags if appropriate
if (sdram_width.side1 == 4) {
- row_attributes |= 0x08 << (i<<3);
+ row_attributes |= 0x08 << (i << 3);
}
if (sdram_width.side2 == 4) {
- row_attributes |= 0x08 << ((i<<3) + 4);
- }
-
- /* go to the next DIMM */
+ row_attributes |= 0x08 << ((i << 3) + 4);
+ }
+
+ /* go to the next DIMM */
}
/* Write the new row attributes register */
@@ -1557,12 +1635,12 @@ static void configure_e7501_row_attributes(const struct mem_controller *ctrl,
}
//----------------------------------------------------------------------------------
-// Function: enable_e7501_clocks
-// Parameters: dimm_mask - bitmask of populated DIMMs on the board - see
-// spd_get_supported_dimms()
-// Return Value: None
-// Description: Enable clock signals for populated DIMM sockets and disable them
-// for unpopulated sockets (to reduce EMI).
+// Function: enable_e7501_clocks
+// Parameters: dimm_mask - bitmask of populated DIMMs on the board - see
+// spd_get_supported_dimms()
+// Return Value: None
+// Description: Enable clock signals for populated DIMM sockets and disable them
+// for unpopulated sockets (to reduce EMI).
//
static void enable_e7501_clocks(uint8_t dimm_mask)
{
@@ -1571,30 +1649,29 @@ static void enable_e7501_clocks(uint8_t dimm_mask)
for (i = 0; i < MAX_DIMM_SOCKETS_PER_CHANNEL; i++) {
- uint8_t socket_mask = 1 << i;
+ uint8_t socket_mask = 1 << i;
if (dimm_mask & socket_mask)
clock_disable &= ~socket_mask; // DIMM present, enable clock
else
clock_disable |= socket_mask; // DIMM absent, disable clock
}
-
+
pci_write_config8(PCI_DEV(0, 0, 0), CKDIS, clock_disable);
}
-
/*^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^*/
/* DIMM-DEDEPENDENT CONFIGURATION FUNCTIONS */
/**********************************************************************************/
//----------------------------------------------------------------------------------
-// Function: RAM_RESET_DDR_PTR
-// Parameters: ctrl - PCI addresses of memory controller functions, and
-// SMBus addresses of DIMM slots on the mainboard
-// Return Value: None
-// Description: DDR Receive FIFO RE-Sync (?)
+// Function: RAM_RESET_DDR_PTR
+// Parameters: ctrl - PCI addresses of memory controller functions, and
+// SMBus addresses of DIMM slots on the mainboard
+// Return Value: None
+// Description: DDR Receive FIFO RE-Sync (?)
//
-static void RAM_RESET_DDR_PTR(void)
+static void RAM_RESET_DDR_PTR(void)
{
uint8_t byte;
byte = pci_read_config8(PCI_DEV(0, 0, 0), 0x88);
@@ -1607,28 +1684,28 @@ static void RAM_RESET_DDR_PTR(void)
}
//----------------------------------------------------------------------------------
-// Function: ram_set_d0f0_regs
-// Parameters: None
-// Return Value: None
-// Description: Set E7501 registers that are either independent of DIMM specifics,
-// or establish default settings that will be overridden when we
-// learn the specifics.
-// This sets PCI configuration registers to known good values based
-// on the table 'constant_register_values', which are a triple of
-// configuration register offset, mask, and bits to set.
+// Function: ram_set_d0f0_regs
+// Parameters: None
+// Return Value: None
+// Description: Set E7501 registers that are either independent of DIMM specifics,
+// or establish default settings that will be overridden when we
+// learn the specifics.
+// This sets PCI configuration registers to known good values based
+// on the table 'constant_register_values', which are a triple of
+// configuration register offset, mask, and bits to set.
//
-static void ram_set_d0f0_regs(void)
+static void ram_set_d0f0_regs(void)
{
int i;
int num_values = ARRAY_SIZE(constant_register_values);
- ASSERT((num_values % 3) == 0); // Bad table?
+ ASSERT((num_values % 3) == 0); // Bad table?
- for(i = 0; i < num_values; i += 3) {
+ for (i = 0; i < num_values; i += 3) {
uint32_t register_offset = constant_register_values[i];
- uint32_t bits_to_mask = constant_register_values[i+1];
- uint32_t bits_to_set = constant_register_values[i+2];
+ uint32_t bits_to_mask = constant_register_values[i + 1];
+ uint32_t bits_to_set = constant_register_values[i + 2];
uint32_t register_value;
// It's theoretically possible to set values for something other than D0:F0,
@@ -1639,25 +1716,27 @@ static void ram_set_d0f0_regs(void)
// Again, not strictly an error, but flagged as a potential bug
ASSERT((bits_to_mask & bits_to_set) == 0);
- register_value = pci_read_config32(PCI_DEV(0, 0, 0), register_offset);
- register_value &= bits_to_mask;
- register_value |= bits_to_set;
+ register_value =
+ pci_read_config32(PCI_DEV(0, 0, 0), register_offset);
+ register_value &= bits_to_mask;
+ register_value |= bits_to_set;
- pci_write_config32(PCI_DEV(0, 0, 0), register_offset, register_value);
- }
+ pci_write_config32(PCI_DEV(0, 0, 0), register_offset,
+ register_value);
+ }
}
//----------------------------------------------------------------------------------
-// Function: write_8dwords
-// Parameters: src_addr
-// dst_addr
-// Return Value: None
-// Description: Copy 64 bytes from one location to another.
+// Function: write_8dwords
+// Parameters: src_addr
+// dst_addr
+// Return Value: None
+// Description: Copy 64 bytes from one location to another.
//
-static void write_8dwords(uint32_t* src_addr, uint32_t dst_addr)
+static void write_8dwords(const uint32_t * src_addr, uint32_t dst_addr)
{
int i;
- for (i=0; i<8; i++) {
+ for (i = 0; i < 8; i++) {
write32(dst_addr, *src_addr);
src_addr++;
dst_addr += sizeof(uint32_t);
@@ -1665,43 +1744,41 @@ static void write_8dwords(uint32_t* src_addr, uint32_t dst_addr)
}
//----------------------------------------------------------------------------------
-// Function: ram_set_rcomp_regs
-// Parameters: None
-// Return Value: None
-// Description: Set the E7501's (undocumented) RCOMP registers.
-// Per the 855PM datasheet and IXP2800 HW Initialization Reference
-// Manual, RCOMP registers appear to affect drive strength,
-// pullup/pulldown offset, and slew rate of various signal groups.
-// Comments below are conjecture based on apparent similarity
-// between the E7501 and these two chips.
+// Function: ram_set_rcomp_regs
+// Parameters: None
+// Return Value: None
+// Description: Set the E7501's (undocumented) RCOMP registers.
+// Per the 855PM datasheet and IXP2800 HW Initialization Reference
+// Manual, RCOMP registers appear to affect drive strength,
+// pullup/pulldown offset, and slew rate of various signal groups.
+// Comments below are conjecture based on apparent similarity
+// between the E7501 and these two chips.
//
-static void ram_set_rcomp_regs(void)
+static void ram_set_rcomp_regs(void)
{
uint32_t dword;
uint8_t maybe_strength_control;
RAM_DEBUG_MESSAGE("Setting RCOMP registers.\n");
- /*enable access to the rcomp bar*/
+ /*enable access to the rcomp bar */
dword = pci_read_config32(PCI_DEV(0, 0, 0), MAYBE_MCHTST);
- dword |= (1<<22);
- pci_write_config32(PCI_DEV(0, 0, 0), MAYBE_MCHTST, dword);
-
+ dword |= (1 << 22);
+ pci_write_config32(PCI_DEV(0, 0, 0), MAYBE_MCHTST, dword);
// Set the RCOMP MMIO base address
- pci_write_config32(PCI_DEV(0, 0, 0), MAYBE_SMRBASE, RCOMP_MMIO);
+ pci_write_config32(PCI_DEV(0, 0, 0), MAYBE_SMRBASE, RCOMP_MMIO);
// Block RCOMP updates while we configure the registers
dword = read32(RCOMP_MMIO + MAYBE_SMRCTL);
- dword |= (1<<9);
+ dword |= (1 << 9);
write32(RCOMP_MMIO + MAYBE_SMRCTL, dword);
-
/* Begin to write the RCOMP registers */
// Set CMD and DQ/DQS strength to 2x (?)
maybe_strength_control = read8(RCOMP_MMIO + MAYBE_DQCMDSTR) & 0x88;
- maybe_strength_control |= 0x44;
+ maybe_strength_control |= 0x44;
write8(RCOMP_MMIO + MAYBE_DQCMDSTR, maybe_strength_control);
write_8dwords(maybe_2x_slew_table, RCOMP_MMIO + 0x80);
@@ -1711,19 +1788,18 @@ static void ram_set_rcomp_regs(void)
// NOTE: some factory BIOS set 0x9088 here. Seems to work either way.
write16(RCOMP_MMIO + 0x40, 0);
-
// Set RCVEnOut# strength to 2x (?)
maybe_strength_control = read8(RCOMP_MMIO + MAYBE_RCVENSTR) & 0xF8;
- maybe_strength_control |= 4;
+ maybe_strength_control |= 4;
write8(RCOMP_MMIO + MAYBE_RCVENSTR, maybe_strength_control);
write_8dwords(maybe_2x_slew_table, RCOMP_MMIO + 0x1c0);
write16(RCOMP_MMIO + 0x50, 0);
-
+
// Set CS# strength for x4 SDRAM to 2x (?)
maybe_strength_control = read8(RCOMP_MMIO + MAYBE_CSBSTR) & 0xF8;
- maybe_strength_control |= 4;
+ maybe_strength_control |= 4;
write8(RCOMP_MMIO + MAYBE_CSBSTR, maybe_strength_control);
write_8dwords(maybe_2x_slew_table, RCOMP_MMIO + 0x140);
@@ -1731,7 +1807,7 @@ static void ram_set_rcomp_regs(void)
// Set CKE strength for x4 SDRAM to 2x (?)
maybe_strength_control = read8(RCOMP_MMIO + MAYBE_CKESTR) & 0xF8;
- maybe_strength_control |= 4;
+ maybe_strength_control |= 4;
write8(RCOMP_MMIO + MAYBE_CKESTR, maybe_strength_control);
write_8dwords(maybe_2x_slew_table, RCOMP_MMIO + 0xa0);
@@ -1739,7 +1815,7 @@ static void ram_set_rcomp_regs(void)
// Set CK strength for x4 SDRAM to 1x (?)
maybe_strength_control = read8(RCOMP_MMIO + MAYBE_CKSTR) & 0xF8;
- maybe_strength_control |= 1;
+ maybe_strength_control |= 1;
write8(RCOMP_MMIO + MAYBE_CKSTR, maybe_strength_control);
write_8dwords(maybe_pull_updown_offset_table, RCOMP_MMIO + 0x180);
@@ -1747,12 +1823,11 @@ static void ram_set_rcomp_regs(void)
write8(RCOMP_MMIO + 0x2c, 0xff);
-
// Set the digital filter length to 8 (?)
dword = read32(RCOMP_MMIO + MAYBE_SMRCTL);
// NOTE: Some factory BIOS don't do this.
- // Doesn't seem to matter either way.
+ // Doesn't seem to matter either way.
dword &= ~2;
dword |= 1;
@@ -1760,25 +1835,25 @@ static void ram_set_rcomp_regs(void)
/* Wait 40 usec */
SLOW_DOWN_IO;
-
+
/* unblock updates */
dword = read32(RCOMP_MMIO + MAYBE_SMRCTL);
- dword &= ~(1<<9);
+ dword &= ~(1 << 9);
write32(RCOMP_MMIO + MAYBE_SMRCTL, dword);
// Force a RCOMP measurement cycle?
- dword |= (1<<8);
+ dword |= (1 << 8);
write32(RCOMP_MMIO + MAYBE_SMRCTL, dword);
- dword &= ~(1<<8);
+ dword &= ~(1 << 8);
write32(RCOMP_MMIO + MAYBE_SMRCTL, dword);
-
+
/* Wait 40 usec */
SLOW_DOWN_IO;
/*disable access to the rcomp bar */
dword = pci_read_config32(PCI_DEV(0, 0, 0), MAYBE_MCHTST);
- dword &= ~(1<<22);
- pci_write_config32(PCI_DEV(0, 0, 0), MAYBE_MCHTST, dword);
+ dword &= ~(1 << 22);
+ pci_write_config32(PCI_DEV(0, 0, 0), MAYBE_MCHTST, dword);
}
@@ -1787,16 +1862,17 @@ static void ram_set_rcomp_regs(void)
/**********************************************************************************/
//----------------------------------------------------------------------------------
-// Function: sdram_enable
-// Parameters: controllers - not used
-// ctrl - PCI addresses of memory controller functions, and
-// SMBus addresses of DIMM slots on the mainboard
-// Return Value: None
-// Description: Go through the JEDEC initialization sequence for all DIMMs,
-// then enable refresh and initialize ECC and memory to zero.
-// Upon exit, SDRAM is up and running.
+// Function: sdram_enable
+// Parameters: controllers - not used
+// ctrl - PCI addresses of memory controller functions, and
+// SMBus addresses of DIMM slots on the mainboard
+// Return Value: None
+// Description: Go through the JEDEC initialization sequence for all DIMMs,
+// then enable refresh and initialize ECC and memory to zero.
+// Upon exit, SDRAM is up and running.
//
-static void sdram_enable(int controllers, const struct mem_controller *ctrl)
+static void sdram_enable(int controllers,
+ const struct mem_controller *ctrl)
{
uint8_t dimm_mask = pci_read_config16(PCI_DEV(0, 0, 0), SKPD);
uint32_t dram_controller_mode;
@@ -1809,111 +1885,107 @@ static void sdram_enable(int controllers, const struct mem_controller *ctrl)
RAM_DEBUG_MESSAGE("Ram Enable 2\n");
/* A 200us delay is needed */
-
- DO_DELAY
- EXTRA_DELAY
+ DO_DELAY; EXTRA_DELAY;
/* 3. Apply NOP */
RAM_DEBUG_MESSAGE("Ram Enable 3\n");
do_ram_command(RAM_COMMAND_NOP, 0);
- EXTRA_DELAY
+ EXTRA_DELAY;
/* 4 Precharge all */
RAM_DEBUG_MESSAGE("Ram Enable 4\n");
do_ram_command(RAM_COMMAND_PRECHARGE, 0);
- EXTRA_DELAY
-
+ EXTRA_DELAY;
/* wait until the all banks idle state... */
+
/* 5. Issue EMRS to enable DLL */
RAM_DEBUG_MESSAGE("Ram Enable 5\n");
- do_ram_command(RAM_COMMAND_EMRS, SDRAM_EXTMODE_DLL_ENABLE | SDRAM_EXTMODE_DRIVE_NORMAL);
- EXTRA_DELAY
-
+ do_ram_command(RAM_COMMAND_EMRS,
+ SDRAM_EXTMODE_DLL_ENABLE |
+ SDRAM_EXTMODE_DRIVE_NORMAL);
+ EXTRA_DELAY;
+
/* 6. Reset DLL */
RAM_DEBUG_MESSAGE("Ram Enable 6\n");
set_ram_mode(E7501_SDRAM_MODE | SDRAM_MODE_DLL_RESET);
- EXTRA_DELAY
-
+ EXTRA_DELAY;
/* Ensure a 200us delay between the DLL reset in step 6 and the final
* mode register set in step 9.
* Infineon needs this before any other command is sent to the ram.
*/
- DO_DELAY
- EXTRA_DELAY
-
+ DO_DELAY; EXTRA_DELAY;
+
/* 7 Precharge all */
RAM_DEBUG_MESSAGE("Ram Enable 7\n");
do_ram_command(RAM_COMMAND_PRECHARGE, 0);
- EXTRA_DELAY
-
+ EXTRA_DELAY;
+
/* 8 Now we need 2 AUTO REFRESH / CBR cycles to be performed */
RAM_DEBUG_MESSAGE("Ram Enable 8\n");
do_ram_command(RAM_COMMAND_CBR, 0);
- EXTRA_DELAY
+ EXTRA_DELAY;
do_ram_command(RAM_COMMAND_CBR, 0);
- EXTRA_DELAY
+ EXTRA_DELAY;
+
/* And for good luck 6 more CBRs */
do_ram_command(RAM_COMMAND_CBR, 0);
- EXTRA_DELAY
+ EXTRA_DELAY;
do_ram_command(RAM_COMMAND_CBR, 0);
- EXTRA_DELAY
+ EXTRA_DELAY;
do_ram_command(RAM_COMMAND_CBR, 0);
- EXTRA_DELAY
+ EXTRA_DELAY;
do_ram_command(RAM_COMMAND_CBR, 0);
- EXTRA_DELAY
+ EXTRA_DELAY;
do_ram_command(RAM_COMMAND_CBR, 0);
- EXTRA_DELAY
+ EXTRA_DELAY;
do_ram_command(RAM_COMMAND_CBR, 0);
- EXTRA_DELAY
+ EXTRA_DELAY;
/* 9 mode register set */
RAM_DEBUG_MESSAGE("Ram Enable 9\n");
set_ram_mode(E7501_SDRAM_MODE | SDRAM_MODE_NORMAL);
- EXTRA_DELAY
-
+ EXTRA_DELAY;
+
/* 10 DDR Receive FIFO RE-Sync */
RAM_DEBUG_MESSAGE("Ram Enable 10\n");
RAM_RESET_DDR_PTR();
- EXTRA_DELAY
-
+ EXTRA_DELAY;
+
/* 11 normal operation */
RAM_DEBUG_MESSAGE("Ram Enable 11\n");
do_ram_command(RAM_COMMAND_NORMAL, 0);
- EXTRA_DELAY
+ EXTRA_DELAY;
// Reconfigure the row boundaries and Top of Low Memory
// to match the true size of the DIMMs
configure_e7501_ram_addresses(ctrl, dimm_mask);
- /* Finally enable refresh */
+ /* Finally enable refresh */
dram_controller_mode = pci_read_config32(PCI_DEV(0, 0, 0), DRC);
dram_controller_mode |= (1 << 29);
pci_write_config32(PCI_DEV(0, 0, 0), DRC, dram_controller_mode);
- EXTRA_DELAY
-
+ EXTRA_DELAY;
initialize_ecc();
- dram_controller_mode = pci_read_config32(PCI_DEV(0, 0, 0), DRC); /* FCS_EN */
- dram_controller_mode |= (1<<17); // NOTE: undocumented reserved bit
+ dram_controller_mode = pci_read_config32(PCI_DEV(0, 0, 0), DRC); /* FCS_EN */
+ dram_controller_mode |= (1 << 17); // NOTE: undocumented reserved bit
pci_write_config32(PCI_DEV(0, 0, 0), DRC, dram_controller_mode);
RAM_DEBUG_MESSAGE("Northbridge following SDRAM init:\n");
DUMPNORTH();
-
-// verify_ram();
}
//----------------------------------------------------------------------------------
-// Function: sdram_set_spd_registers
-// Parameters: ctrl - PCI addresses of memory controller functions, and
-// SMBus addresses of DIMM slots on the mainboard
-// Return Value: None
-// Description: Configure SDRAM controller parameters that depend on
-// characteristics of the DIMMs installed in the system. These
-// characteristics are read from the DIMMs via the standard Serial
-// Presence Detect (SPD) interface.
+// Function: sdram_set_spd_registers
+// Parameters: ctrl - PCI addresses of memory controller functions, and
+// SMBus addresses of DIMM slots on the mainboard
+// Return Value: None
+// Description: Configure SDRAM controller parameters that depend on
+// characteristics of the DIMMs installed in the system. These
+// characteristics are read from the DIMMs via the standard Serial
+// Presence Detect (SPD) interface.
//
-static void sdram_set_spd_registers(const struct mem_controller *ctrl)
+static void sdram_set_spd_registers(const struct mem_controller *ctrl)
{
uint8_t dimm_mask;
@@ -1934,29 +2006,30 @@ static void sdram_set_spd_registers(const struct mem_controller *ctrl)
RAM_RESET_DDR_PTR();
configure_e7501_dram_timing(ctrl, dimm_mask);
- DO_DELAY
+ DO_DELAY;
RAM_DEBUG_MESSAGE("done\n");
}
- // NOTE: configure_e7501_ram_addresses() is NOT called here.
- // We want to keep the default 64 MB/row mapping until sdram_enable() is called,
- // even though the default mapping is almost certainly incorrect.
- // The default mapping makes it easy to initialize all of the DIMMs
- // even if the total system memory is > 4 GB.
- //
- // Save the dimm_mask for when sdram_enable is called, so it can call
- // configure_e7501_ram_addresses() without having to regenerate the bitmask
- // of usable DIMMs.
+ /* NOTE: configure_e7501_ram_addresses() is NOT called here.
+ * We want to keep the default 64 MB/row mapping until sdram_enable() is called,
+ * even though the default mapping is almost certainly incorrect.
+ * The default mapping makes it easy to initialize all of the DIMMs
+ * even if the total system memory is > 4 GB.
+ *
+ * Save the dimm_mask for when sdram_enable is called, so it can call
+ * configure_e7501_ram_addresses() without having to regenerate the bitmask
+ * of usable DIMMs.
+ */
pci_write_config16(PCI_DEV(0, 0, 0), SKPD, dimm_mask);
}
//----------------------------------------------------------------------------------
-// Function: sdram_set_registers
-// Parameters: ctrl - PCI addresses of memory controller functions, and
-// SMBus addresses of DIMM slots on the mainboard
-// Return Value: None
-// Description: Do basic ram setup that does NOT depend on serial presence detect
-// information (i.e. independent of DIMM specifics).
+// Function: sdram_set_registers
+// Parameters: ctrl - PCI addresses of memory controller functions, and
+// SMBus addresses of DIMM slots on the mainboard
+// Return Value: None
+// Description: Do basic ram setup that does NOT depend on serial presence detect
+// information (i.e. independent of DIMM specifics).
//
static void sdram_set_registers(const struct mem_controller *ctrl)
{
@@ -1968,5 +2041,5 @@ static void sdram_set_registers(const struct mem_controller *ctrl)
}
/*^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^*/
-/* PUBLIC INTERFACE */
+/* PUBLIC INTERFACE */
/**********************************************************************************/
diff --git a/src/northbridge/intel/e7501/raminit.h b/src/northbridge/intel/e7501/raminit.h
index 4f783b8cd7..0d09414904 100644
--- a/src/northbridge/intel/e7501/raminit.h
+++ b/src/northbridge/intel/e7501/raminit.h
@@ -15,5 +15,8 @@ struct mem_controller {
uint16_t channel1[MAX_DIMM_SOCKETS_PER_CHANNEL];
};
+#ifndef __ROMCC__
+void sdram_initialize(int controllers, const struct mem_controller *ctrl);
+#endif
#endif /* RAMINIT_H */