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wdenkfe8c2802002-11-03 00:38:21 +00001/*
Stefan Roese36d830c2007-02-20 10:35:42 +01002 * cpu/ppc4xx/44x_spd_ddr.c
3 * This SPD DDR detection code supports IBM/AMCC PPC44x cpu with a
4 * DDR controller. Those are 440GP/GX/EP/GR.
5 *
wdenkfe8c2802002-11-03 00:38:21 +00006 * (C) Copyright 2001
7 * Bill Hunter, Wave 7 Optics, williamhunter@attbi.com
8 *
9 * Based on code by:
10 *
wdenkdb2f721f2003-03-06 00:58:30 +000011 * Kenneth Johansson ,Ericsson AB.
12 * kenneth.johansson@etx.ericsson.se
wdenkfe8c2802002-11-03 00:38:21 +000013 *
14 * hacked up by bill hunter. fixed so we could run before
15 * serial_init and console_init. previous version avoided this by
16 * running out of cache memory during serial/console init, then running
17 * this code later.
18 *
19 * (C) Copyright 2002
20 * Jun Gu, Artesyn Technology, jung@artesyncp.com
Wolfgang Denk0c8721a2005-09-23 11:05:55 +020021 * Support for AMCC 440 based on OpenBIOS draminit.c from IBM.
wdenkfe8c2802002-11-03 00:38:21 +000022 *
Stefan Roesed2d43272007-06-01 15:09:50 +020023 * (C) Copyright 2005-2007
Stefan Roesec157d8e2005-08-01 16:41:48 +020024 * Stefan Roese, DENX Software Engineering, sr@denx.de.
25 *
wdenkfe8c2802002-11-03 00:38:21 +000026 * See file CREDITS for list of people who contributed to this
27 * project.
28 *
29 * This program is free software; you can redistribute it and/or
30 * modify it under the terms of the GNU General Public License as
31 * published by the Free Software Foundation; either version 2 of
32 * the License, or (at your option) any later version.
33 *
34 * This program is distributed in the hope that it will be useful,
35 * but WITHOUT ANY WARRANTY; without even the implied warranty of
36 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
37 * GNU General Public License for more details.
38 *
39 * You should have received a copy of the GNU General Public License
40 * along with this program; if not, write to the Free Software
41 * Foundation, Inc., 59 Temple Place, Suite 330, Boston,
42 * MA 02111-1307 USA
43 */
44
Stefan Roesed2d43272007-06-01 15:09:50 +020045/* define DEBUG for debugging output (obviously ;-)) */
46#if 0
47#define DEBUG
48#endif
49
wdenkfe8c2802002-11-03 00:38:21 +000050#include <common.h>
51#include <asm/processor.h>
52#include <i2c.h>
53#include <ppc4xx.h>
Stefan Roesee2ebe692007-03-07 16:39:36 +010054#include <asm/mmu.h>
wdenkfe8c2802002-11-03 00:38:21 +000055
Stefan Roese36d830c2007-02-20 10:35:42 +010056#if defined(CONFIG_SPD_EEPROM) && \
57 (defined(CONFIG_440GP) || defined(CONFIG_440GX) || \
58 defined(CONFIG_440EP) || defined(CONFIG_440GR))
wdenkfe8c2802002-11-03 00:38:21 +000059
60/*
61 * Set default values
62 */
Wolfgang Denkf013dac2005-12-04 00:40:34 +010063#ifndef CFG_I2C_SPEED
64#define CFG_I2C_SPEED 50000
wdenkfe8c2802002-11-03 00:38:21 +000065#endif
66
Wolfgang Denkf013dac2005-12-04 00:40:34 +010067#ifndef CFG_I2C_SLAVE
68#define CFG_I2C_SLAVE 0xFE
wdenkfe8c2802002-11-03 00:38:21 +000069#endif
70
Wolfgang Denkf013dac2005-12-04 00:40:34 +010071#define ONE_BILLION 1000000000
Stefan Roesec157d8e2005-08-01 16:41:48 +020072
wdenkfe8c2802002-11-03 00:38:21 +000073/*-----------------------------------------------------------------------------
Stefan Roesec157d8e2005-08-01 16:41:48 +020074 | Memory Controller Options 0
75 +-----------------------------------------------------------------------------*/
Wolfgang Denkf013dac2005-12-04 00:40:34 +010076#define SDRAM_CFG0_DCEN 0x80000000 /* SDRAM Controller Enable */
77#define SDRAM_CFG0_MCHK_MASK 0x30000000 /* Memory data errchecking mask */
78#define SDRAM_CFG0_MCHK_NON 0x00000000 /* No ECC generation */
79#define SDRAM_CFG0_MCHK_GEN 0x20000000 /* ECC generation */
80#define SDRAM_CFG0_MCHK_CHK 0x30000000 /* ECC generation and checking */
81#define SDRAM_CFG0_RDEN 0x08000000 /* Registered DIMM enable */
82#define SDRAM_CFG0_PMUD 0x04000000 /* Page management unit */
83#define SDRAM_CFG0_DMWD_MASK 0x02000000 /* DRAM width mask */
84#define SDRAM_CFG0_DMWD_32 0x00000000 /* 32 bits */
85#define SDRAM_CFG0_DMWD_64 0x02000000 /* 64 bits */
86#define SDRAM_CFG0_UIOS_MASK 0x00C00000 /* Unused IO State */
87#define SDRAM_CFG0_PDP 0x00200000 /* Page deallocation policy */
wdenkfe8c2802002-11-03 00:38:21 +000088
89/*-----------------------------------------------------------------------------
Stefan Roesec157d8e2005-08-01 16:41:48 +020090 | Memory Controller Options 1
91 +-----------------------------------------------------------------------------*/
Wolfgang Denkf013dac2005-12-04 00:40:34 +010092#define SDRAM_CFG1_SRE 0x80000000 /* Self-Refresh Entry */
93#define SDRAM_CFG1_PMEN 0x40000000 /* Power Management Enable */
wdenkfe8c2802002-11-03 00:38:21 +000094
95/*-----------------------------------------------------------------------------+
Stefan Roesec157d8e2005-08-01 16:41:48 +020096 | SDRAM DEVPOT Options
97 +-----------------------------------------------------------------------------*/
Wolfgang Denkf013dac2005-12-04 00:40:34 +010098#define SDRAM_DEVOPT_DLL 0x80000000
99#define SDRAM_DEVOPT_DS 0x40000000
wdenkfe8c2802002-11-03 00:38:21 +0000100
101/*-----------------------------------------------------------------------------+
Stefan Roesec157d8e2005-08-01 16:41:48 +0200102 | SDRAM MCSTS Options
103 +-----------------------------------------------------------------------------*/
Wolfgang Denkf013dac2005-12-04 00:40:34 +0100104#define SDRAM_MCSTS_MRSC 0x80000000
105#define SDRAM_MCSTS_SRMS 0x40000000
106#define SDRAM_MCSTS_CIS 0x20000000
wdenkfe8c2802002-11-03 00:38:21 +0000107
108/*-----------------------------------------------------------------------------
Stefan Roesec157d8e2005-08-01 16:41:48 +0200109 | SDRAM Refresh Timer Register
110 +-----------------------------------------------------------------------------*/
Wolfgang Denkf013dac2005-12-04 00:40:34 +0100111#define SDRAM_RTR_RINT_MASK 0xFFFF0000
wdenkfe8c2802002-11-03 00:38:21 +0000112#define SDRAM_RTR_RINT_ENCODE(n) (((n) << 16) & SDRAM_RTR_RINT_MASK)
Wolfgang Denkf013dac2005-12-04 00:40:34 +0100113#define sdram_HZ_to_ns(hertz) (1000000000/(hertz))
wdenkfe8c2802002-11-03 00:38:21 +0000114
115/*-----------------------------------------------------------------------------+
Stefan Roesec157d8e2005-08-01 16:41:48 +0200116 | SDRAM UABus Base Address Reg
117 +-----------------------------------------------------------------------------*/
Wolfgang Denkf013dac2005-12-04 00:40:34 +0100118#define SDRAM_UABBA_UBBA_MASK 0x0000000F
wdenkfe8c2802002-11-03 00:38:21 +0000119
120/*-----------------------------------------------------------------------------+
Stefan Roesec157d8e2005-08-01 16:41:48 +0200121 | Memory Bank 0-7 configuration
122 +-----------------------------------------------------------------------------*/
Wolfgang Denkf013dac2005-12-04 00:40:34 +0100123#define SDRAM_BXCR_SDBA_MASK 0xff800000 /* Base address */
124#define SDRAM_BXCR_SDSZ_MASK 0x000e0000 /* Size */
125#define SDRAM_BXCR_SDSZ_8 0x00020000 /* 8M */
126#define SDRAM_BXCR_SDSZ_16 0x00040000 /* 16M */
127#define SDRAM_BXCR_SDSZ_32 0x00060000 /* 32M */
128#define SDRAM_BXCR_SDSZ_64 0x00080000 /* 64M */
129#define SDRAM_BXCR_SDSZ_128 0x000a0000 /* 128M */
130#define SDRAM_BXCR_SDSZ_256 0x000c0000 /* 256M */
131#define SDRAM_BXCR_SDSZ_512 0x000e0000 /* 512M */
132#define SDRAM_BXCR_SDAM_MASK 0x0000e000 /* Addressing mode */
133#define SDRAM_BXCR_SDAM_1 0x00000000 /* Mode 1 */
134#define SDRAM_BXCR_SDAM_2 0x00002000 /* Mode 2 */
135#define SDRAM_BXCR_SDAM_3 0x00004000 /* Mode 3 */
136#define SDRAM_BXCR_SDAM_4 0x00006000 /* Mode 4 */
137#define SDRAM_BXCR_SDBE 0x00000001 /* Memory Bank Enable */
wdenkfe8c2802002-11-03 00:38:21 +0000138
139/*-----------------------------------------------------------------------------+
Stefan Roesec157d8e2005-08-01 16:41:48 +0200140 | SDRAM TR0 Options
141 +-----------------------------------------------------------------------------*/
Wolfgang Denkf013dac2005-12-04 00:40:34 +0100142#define SDRAM_TR0_SDWR_MASK 0x80000000
143#define SDRAM_TR0_SDWR_2_CLK 0x00000000
144#define SDRAM_TR0_SDWR_3_CLK 0x80000000
145#define SDRAM_TR0_SDWD_MASK 0x40000000
146#define SDRAM_TR0_SDWD_0_CLK 0x00000000
147#define SDRAM_TR0_SDWD_1_CLK 0x40000000
148#define SDRAM_TR0_SDCL_MASK 0x01800000
149#define SDRAM_TR0_SDCL_2_0_CLK 0x00800000
150#define SDRAM_TR0_SDCL_2_5_CLK 0x01000000
151#define SDRAM_TR0_SDCL_3_0_CLK 0x01800000
152#define SDRAM_TR0_SDPA_MASK 0x000C0000
153#define SDRAM_TR0_SDPA_2_CLK 0x00040000
154#define SDRAM_TR0_SDPA_3_CLK 0x00080000
155#define SDRAM_TR0_SDPA_4_CLK 0x000C0000
156#define SDRAM_TR0_SDCP_MASK 0x00030000
157#define SDRAM_TR0_SDCP_2_CLK 0x00000000
158#define SDRAM_TR0_SDCP_3_CLK 0x00010000
159#define SDRAM_TR0_SDCP_4_CLK 0x00020000
160#define SDRAM_TR0_SDCP_5_CLK 0x00030000
161#define SDRAM_TR0_SDLD_MASK 0x0000C000
162#define SDRAM_TR0_SDLD_1_CLK 0x00000000
163#define SDRAM_TR0_SDLD_2_CLK 0x00004000
164#define SDRAM_TR0_SDRA_MASK 0x0000001C
165#define SDRAM_TR0_SDRA_6_CLK 0x00000000
166#define SDRAM_TR0_SDRA_7_CLK 0x00000004
167#define SDRAM_TR0_SDRA_8_CLK 0x00000008
168#define SDRAM_TR0_SDRA_9_CLK 0x0000000C
169#define SDRAM_TR0_SDRA_10_CLK 0x00000010
170#define SDRAM_TR0_SDRA_11_CLK 0x00000014
171#define SDRAM_TR0_SDRA_12_CLK 0x00000018
172#define SDRAM_TR0_SDRA_13_CLK 0x0000001C
173#define SDRAM_TR0_SDRD_MASK 0x00000003
174#define SDRAM_TR0_SDRD_2_CLK 0x00000001
175#define SDRAM_TR0_SDRD_3_CLK 0x00000002
176#define SDRAM_TR0_SDRD_4_CLK 0x00000003
wdenkfe8c2802002-11-03 00:38:21 +0000177
178/*-----------------------------------------------------------------------------+
Stefan Roesec157d8e2005-08-01 16:41:48 +0200179 | SDRAM TR1 Options
180 +-----------------------------------------------------------------------------*/
Wolfgang Denkf013dac2005-12-04 00:40:34 +0100181#define SDRAM_TR1_RDSS_MASK 0xC0000000
182#define SDRAM_TR1_RDSS_TR0 0x00000000
183#define SDRAM_TR1_RDSS_TR1 0x40000000
184#define SDRAM_TR1_RDSS_TR2 0x80000000
185#define SDRAM_TR1_RDSS_TR3 0xC0000000
186#define SDRAM_TR1_RDSL_MASK 0x00C00000
187#define SDRAM_TR1_RDSL_STAGE1 0x00000000
188#define SDRAM_TR1_RDSL_STAGE2 0x00400000
189#define SDRAM_TR1_RDSL_STAGE3 0x00800000
190#define SDRAM_TR1_RDCD_MASK 0x00000800
191#define SDRAM_TR1_RDCD_RCD_0_0 0x00000000
192#define SDRAM_TR1_RDCD_RCD_1_2 0x00000800
193#define SDRAM_TR1_RDCT_MASK 0x000001FF
194#define SDRAM_TR1_RDCT_ENCODE(x) (((x) << 0) & SDRAM_TR1_RDCT_MASK)
195#define SDRAM_TR1_RDCT_DECODE(x) (((x) & SDRAM_TR1_RDCT_MASK) >> 0)
196#define SDRAM_TR1_RDCT_MIN 0x00000000
197#define SDRAM_TR1_RDCT_MAX 0x000001FF
wdenkfe8c2802002-11-03 00:38:21 +0000198
199/*-----------------------------------------------------------------------------+
Stefan Roesec157d8e2005-08-01 16:41:48 +0200200 | SDRAM WDDCTR Options
201 +-----------------------------------------------------------------------------*/
Wolfgang Denkf013dac2005-12-04 00:40:34 +0100202#define SDRAM_WDDCTR_WRCP_MASK 0xC0000000
203#define SDRAM_WDDCTR_WRCP_0DEG 0x00000000
204#define SDRAM_WDDCTR_WRCP_90DEG 0x40000000
205#define SDRAM_WDDCTR_WRCP_180DEG 0x80000000
206#define SDRAM_WDDCTR_DCD_MASK 0x000001FF
wdenkfe8c2802002-11-03 00:38:21 +0000207
208/*-----------------------------------------------------------------------------+
Stefan Roesec157d8e2005-08-01 16:41:48 +0200209 | SDRAM CLKTR Options
210 +-----------------------------------------------------------------------------*/
Wolfgang Denkf013dac2005-12-04 00:40:34 +0100211#define SDRAM_CLKTR_CLKP_MASK 0xC0000000
212#define SDRAM_CLKTR_CLKP_0DEG 0x00000000
213#define SDRAM_CLKTR_CLKP_90DEG 0x40000000
214#define SDRAM_CLKTR_CLKP_180DEG 0x80000000
215#define SDRAM_CLKTR_DCDT_MASK 0x000001FF
wdenkfe8c2802002-11-03 00:38:21 +0000216
217/*-----------------------------------------------------------------------------+
Stefan Roesec157d8e2005-08-01 16:41:48 +0200218 | SDRAM DLYCAL Options
219 +-----------------------------------------------------------------------------*/
Wolfgang Denkf013dac2005-12-04 00:40:34 +0100220#define SDRAM_DLYCAL_DLCV_MASK 0x000003FC
221#define SDRAM_DLYCAL_DLCV_ENCODE(x) (((x)<<2) & SDRAM_DLYCAL_DLCV_MASK)
222#define SDRAM_DLYCAL_DLCV_DECODE(x) (((x) & SDRAM_DLYCAL_DLCV_MASK)>>2)
wdenkfe8c2802002-11-03 00:38:21 +0000223
224/*-----------------------------------------------------------------------------+
Stefan Roesec157d8e2005-08-01 16:41:48 +0200225 | General Definition
226 +-----------------------------------------------------------------------------*/
Wolfgang Denkf013dac2005-12-04 00:40:34 +0100227#define DEFAULT_SPD_ADDR1 0x53
228#define DEFAULT_SPD_ADDR2 0x52
229#define MAXBANKS 4 /* at most 4 dimm banks */
230#define MAX_SPD_BYTES 256
231#define NUMHALFCYCLES 4
232#define NUMMEMTESTS 8
233#define NUMMEMWORDS 8
234#define MAXBXCR 4
235#define TRUE 1
236#define FALSE 0
wdenkfe8c2802002-11-03 00:38:21 +0000237
Stefan Roesee2ebe692007-03-07 16:39:36 +0100238/*
239 * This DDR2 setup code can dynamically setup the TLB entries for the DDR2 memory
240 * region. Right now the cache should still be disabled in U-Boot because of the
241 * EMAC driver, that need it's buffer descriptor to be located in non cached
242 * memory.
243 *
244 * If at some time this restriction doesn't apply anymore, just define
245 * CFG_ENABLE_SDRAM_CACHE in the board config file and this code should setup
246 * everything correctly.
247 */
248#ifdef CFG_ENABLE_SDRAM_CACHE
249#define MY_TLB_WORD2_I_ENABLE 0 /* enable caching on SDRAM */
250#else
251#define MY_TLB_WORD2_I_ENABLE TLB_WORD2_I_ENABLE /* disable caching on SDRAM */
252#endif
253
Stefan Roesefd49bf02005-11-15 16:04:58 +0100254/* bank_parms is used to sort the bank sizes by descending order */
255struct bank_param {
256 unsigned long cr;
257 unsigned long bank_size_bytes;
258};
259
260typedef struct bank_param BANKPARMS;
261
262#ifdef CFG_SIMULATE_SPD_EEPROM
263extern unsigned char cfg_simulate_spd_eeprom[128];
264#endif
Stefan Roesedbca2082007-06-14 11:14:32 +0200265void program_tlb(u32 phys_addr, u32 virt_addr, u32 size, u32 tlb_word2_i_value);
wdenkfe8c2802002-11-03 00:38:21 +0000266
Stefan Roesed2d43272007-06-01 15:09:50 +0200267static unsigned char spd_read(uchar chip, uint addr);
268static void get_spd_info(unsigned long *dimm_populated,
269 unsigned char *iic0_dimm_addr,
270 unsigned long num_dimm_banks);
271static void check_mem_type(unsigned long *dimm_populated,
272 unsigned char *iic0_dimm_addr,
273 unsigned long num_dimm_banks);
274static void check_volt_type(unsigned long *dimm_populated,
275 unsigned char *iic0_dimm_addr,
276 unsigned long num_dimm_banks);
277static void program_cfg0(unsigned long *dimm_populated,
278 unsigned char *iic0_dimm_addr,
279 unsigned long num_dimm_banks);
280static void program_cfg1(unsigned long *dimm_populated,
281 unsigned char *iic0_dimm_addr,
282 unsigned long num_dimm_banks);
283static void program_rtr(unsigned long *dimm_populated,
284 unsigned char *iic0_dimm_addr,
285 unsigned long num_dimm_banks);
286static void program_tr0(unsigned long *dimm_populated,
287 unsigned char *iic0_dimm_addr,
288 unsigned long num_dimm_banks);
289static void program_tr1(void);
wdenkfe8c2802002-11-03 00:38:21 +0000290
Stefan Roesed2d43272007-06-01 15:09:50 +0200291#ifdef CONFIG_DDR_ECC
292static void program_ecc(unsigned long num_bytes);
293#endif
wdenkfe8c2802002-11-03 00:38:21 +0000294
Stefan Roesed2d43272007-06-01 15:09:50 +0200295static unsigned long program_bxcr(unsigned long *dimm_populated,
296 unsigned char *iic0_dimm_addr,
297 unsigned long num_dimm_banks);
wdenkfe8c2802002-11-03 00:38:21 +0000298
299/*
300 * This function is reading data from the DIMM module EEPROM over the SPD bus
301 * and uses that to program the sdram controller.
302 *
Wolfgang Denk0c8721a2005-09-23 11:05:55 +0200303 * This works on boards that has the same schematics that the AMCC walnut has.
wdenkfe8c2802002-11-03 00:38:21 +0000304 *
305 * BUG: Don't handle ECC memory
306 * BUG: A few values in the TR register is currently hardcoded
307 */
wdenkfe8c2802002-11-03 00:38:21 +0000308long int spd_sdram(void) {
Stefan Roesec157d8e2005-08-01 16:41:48 +0200309 unsigned char iic0_dimm_addr[] = SPD_EEPROM_ADDRESS;
310 unsigned long dimm_populated[sizeof(iic0_dimm_addr)];
311 unsigned long total_size;
312 unsigned long cfg0;
313 unsigned long mcsts;
Wolfgang Denkf013dac2005-12-04 00:40:34 +0100314 unsigned long num_dimm_banks; /* on board dimm banks */
wdenkfe8c2802002-11-03 00:38:21 +0000315
Stefan Roesec157d8e2005-08-01 16:41:48 +0200316 num_dimm_banks = sizeof(iic0_dimm_addr);
wdenkfe8c2802002-11-03 00:38:21 +0000317
318 /*
319 * Make sure I2C controller is initialized
320 * before continuing.
321 */
322 i2c_init(CFG_I2C_SPEED, CFG_I2C_SLAVE);
323
Stefan Roesec157d8e2005-08-01 16:41:48 +0200324 /*
325 * Read the SPD information using I2C interface. Check to see if the
326 * DIMM slots are populated.
327 */
328 get_spd_info(dimm_populated, iic0_dimm_addr, num_dimm_banks);
wdenkfe8c2802002-11-03 00:38:21 +0000329
Stefan Roesec157d8e2005-08-01 16:41:48 +0200330 /*
331 * Check the memory type for the dimms plugged.
332 */
333 check_mem_type(dimm_populated, iic0_dimm_addr, num_dimm_banks);
wdenkfe8c2802002-11-03 00:38:21 +0000334
Stefan Roesec157d8e2005-08-01 16:41:48 +0200335 /*
336 * Check the voltage type for the dimms plugged.
337 */
338 check_volt_type(dimm_populated, iic0_dimm_addr, num_dimm_banks);
wdenkfe8c2802002-11-03 00:38:21 +0000339
Stefan Roeseed4633c2006-06-13 18:55:07 +0200340#if defined(CONFIG_440GX) || defined(CONFIG_440EP) || defined(CONFIG_440GR) || defined(CONFIG_440SP)
Stefan Roesec157d8e2005-08-01 16:41:48 +0200341 /*
342 * Soft-reset SDRAM controller.
343 */
344 mtsdr(sdr_srst, SDR0_SRST_DMC);
345 mtsdr(sdr_srst, 0x00000000);
wdenk63153492005-04-03 20:55:38 +0000346#endif
347
Stefan Roesec157d8e2005-08-01 16:41:48 +0200348 /*
349 * program 440GP SDRAM controller options (SDRAM0_CFG0)
350 */
351 program_cfg0(dimm_populated, iic0_dimm_addr, num_dimm_banks);
wdenkfe8c2802002-11-03 00:38:21 +0000352
Stefan Roesec157d8e2005-08-01 16:41:48 +0200353 /*
354 * program 440GP SDRAM controller options (SDRAM0_CFG1)
355 */
356 program_cfg1(dimm_populated, iic0_dimm_addr, num_dimm_banks);
wdenkfe8c2802002-11-03 00:38:21 +0000357
Stefan Roesec157d8e2005-08-01 16:41:48 +0200358 /*
359 * program SDRAM refresh register (SDRAM0_RTR)
360 */
361 program_rtr(dimm_populated, iic0_dimm_addr, num_dimm_banks);
wdenkfe8c2802002-11-03 00:38:21 +0000362
Stefan Roesec157d8e2005-08-01 16:41:48 +0200363 /*
364 * program SDRAM Timing Register 0 (SDRAM0_TR0)
365 */
366 program_tr0(dimm_populated, iic0_dimm_addr, num_dimm_banks);
wdenkfe8c2802002-11-03 00:38:21 +0000367
Stefan Roesec157d8e2005-08-01 16:41:48 +0200368 /*
369 * program the BxCR registers to find out total sdram installed
370 */
371 total_size = program_bxcr(dimm_populated, iic0_dimm_addr,
372 num_dimm_banks);
wdenkfe8c2802002-11-03 00:38:21 +0000373
Stefan Roesee2ebe692007-03-07 16:39:36 +0100374#ifdef CONFIG_PROG_SDRAM_TLB /* this define should eventually be removed */
375 /* and program tlb entries for this size (dynamic) */
Stefan Roesedbca2082007-06-14 11:14:32 +0200376 program_tlb(0, 0, total_size, MY_TLB_WORD2_I_ENABLE);
Stefan Roesee2ebe692007-03-07 16:39:36 +0100377#endif
378
Stefan Roesec157d8e2005-08-01 16:41:48 +0200379 /*
380 * program SDRAM Clock Timing Register (SDRAM0_CLKTR)
381 */
382 mtsdram(mem_clktr, 0x40000000);
wdenkfe8c2802002-11-03 00:38:21 +0000383
Stefan Roesec157d8e2005-08-01 16:41:48 +0200384 /*
385 * delay to ensure 200 usec has elapsed
386 */
387 udelay(400);
wdenkfe8c2802002-11-03 00:38:21 +0000388
Stefan Roesec157d8e2005-08-01 16:41:48 +0200389 /*
390 * enable the memory controller
391 */
392 mfsdram(mem_cfg0, cfg0);
393 mtsdram(mem_cfg0, cfg0 | SDRAM_CFG0_DCEN);
wdenkfe8c2802002-11-03 00:38:21 +0000394
Stefan Roesec157d8e2005-08-01 16:41:48 +0200395 /*
396 * wait for SDRAM_CFG0_DC_EN to complete
397 */
398 while (1) {
399 mfsdram(mem_mcsts, mcsts);
Stefan Roesed2d43272007-06-01 15:09:50 +0200400 if ((mcsts & SDRAM_MCSTS_MRSC) != 0)
Stefan Roesec157d8e2005-08-01 16:41:48 +0200401 break;
wdenk8bde7f72003-06-27 21:31:46 +0000402 }
wdenkfe8c2802002-11-03 00:38:21 +0000403
Stefan Roesec157d8e2005-08-01 16:41:48 +0200404 /*
405 * program SDRAM Timing Register 1, adding some delays
406 */
407 program_tr1();
wdenkfe8c2802002-11-03 00:38:21 +0000408
Stefan Roesed2d43272007-06-01 15:09:50 +0200409#ifdef CONFIG_DDR_ECC
Stefan Roesec157d8e2005-08-01 16:41:48 +0200410 /*
Stefan Roesed2d43272007-06-01 15:09:50 +0200411 * If ecc is enabled, initialize the parity bits.
Stefan Roesec157d8e2005-08-01 16:41:48 +0200412 */
Stefan Roesed2d43272007-06-01 15:09:50 +0200413 program_ecc(total_size);
414#endif
wdenkfe8c2802002-11-03 00:38:21 +0000415
416 return total_size;
417}
418
Stefan Roesed2d43272007-06-01 15:09:50 +0200419static unsigned char spd_read(uchar chip, uint addr)
Stefan Roesefd49bf02005-11-15 16:04:58 +0100420{
wdenkfe8c2802002-11-03 00:38:21 +0000421 unsigned char data[2];
422
Stefan Roesefd49bf02005-11-15 16:04:58 +0100423#ifdef CFG_SIMULATE_SPD_EEPROM
424 if (chip == CFG_SIMULATE_SPD_EEPROM) {
425 /*
426 * Onboard spd eeprom requested -> simulate values
427 */
428 return cfg_simulate_spd_eeprom[addr];
429 }
430#endif /* CFG_SIMULATE_SPD_EEPROM */
431
Stefan Roesec157d8e2005-08-01 16:41:48 +0200432 if (i2c_probe(chip) == 0) {
433 if (i2c_read(chip, addr, 1, data, 1) == 0) {
434 return data[0];
435 }
436 }
437
438 return 0;
wdenkfe8c2802002-11-03 00:38:21 +0000439}
440
Stefan Roesed2d43272007-06-01 15:09:50 +0200441static void get_spd_info(unsigned long *dimm_populated,
442 unsigned char *iic0_dimm_addr,
443 unsigned long num_dimm_banks)
wdenkfe8c2802002-11-03 00:38:21 +0000444{
Stefan Roesec157d8e2005-08-01 16:41:48 +0200445 unsigned long dimm_num;
446 unsigned long dimm_found;
447 unsigned char num_of_bytes;
448 unsigned char total_size;
wdenkfe8c2802002-11-03 00:38:21 +0000449
Stefan Roesec157d8e2005-08-01 16:41:48 +0200450 dimm_found = FALSE;
451 for (dimm_num = 0; dimm_num < num_dimm_banks; dimm_num++) {
452 num_of_bytes = 0;
453 total_size = 0;
wdenkfe8c2802002-11-03 00:38:21 +0000454
Stefan Roesec157d8e2005-08-01 16:41:48 +0200455 num_of_bytes = spd_read(iic0_dimm_addr[dimm_num], 0);
456 total_size = spd_read(iic0_dimm_addr[dimm_num], 1);
wdenkfe8c2802002-11-03 00:38:21 +0000457
Stefan Roesec157d8e2005-08-01 16:41:48 +0200458 if ((num_of_bytes != 0) && (total_size != 0)) {
459 dimm_populated[dimm_num] = TRUE;
460 dimm_found = TRUE;
Stefan Roesed2d43272007-06-01 15:09:50 +0200461 debug("DIMM slot %lu: populated\n", dimm_num);
Stefan Roesec157d8e2005-08-01 16:41:48 +0200462 } else {
463 dimm_populated[dimm_num] = FALSE;
Stefan Roesed2d43272007-06-01 15:09:50 +0200464 debug("DIMM slot %lu: Not populated\n", dimm_num);
Stefan Roesec157d8e2005-08-01 16:41:48 +0200465 }
wdenk8bde7f72003-06-27 21:31:46 +0000466 }
wdenkfe8c2802002-11-03 00:38:21 +0000467
Stefan Roesec157d8e2005-08-01 16:41:48 +0200468 if (dimm_found == FALSE) {
469 printf("ERROR - No memory installed. Install a DDR-SDRAM DIMM.\n\n");
470 hang();
471 }
wdenkfe8c2802002-11-03 00:38:21 +0000472}
473
Stefan Roesed2d43272007-06-01 15:09:50 +0200474static void check_mem_type(unsigned long *dimm_populated,
475 unsigned char *iic0_dimm_addr,
476 unsigned long num_dimm_banks)
wdenkfe8c2802002-11-03 00:38:21 +0000477{
Stefan Roesec157d8e2005-08-01 16:41:48 +0200478 unsigned long dimm_num;
479 unsigned char dimm_type;
wdenkfe8c2802002-11-03 00:38:21 +0000480
Stefan Roesec157d8e2005-08-01 16:41:48 +0200481 for (dimm_num = 0; dimm_num < num_dimm_banks; dimm_num++) {
482 if (dimm_populated[dimm_num] == TRUE) {
483 dimm_type = spd_read(iic0_dimm_addr[dimm_num], 2);
484 switch (dimm_type) {
485 case 7:
Stefan Roesed2d43272007-06-01 15:09:50 +0200486 debug("DIMM slot %lu: DDR SDRAM detected\n", dimm_num);
Stefan Roesec157d8e2005-08-01 16:41:48 +0200487 break;
488 default:
489 printf("ERROR: Unsupported DIMM detected in slot %lu.\n",
490 dimm_num);
491 printf("Only DDR SDRAM DIMMs are supported.\n");
492 printf("Replace the DIMM module with a supported DIMM.\n\n");
493 hang();
494 break;
495 }
496 }
wdenk8bde7f72003-06-27 21:31:46 +0000497 }
wdenkfe8c2802002-11-03 00:38:21 +0000498}
499
Stefan Roesed2d43272007-06-01 15:09:50 +0200500static void check_volt_type(unsigned long *dimm_populated,
501 unsigned char *iic0_dimm_addr,
502 unsigned long num_dimm_banks)
wdenkfe8c2802002-11-03 00:38:21 +0000503{
Stefan Roesec157d8e2005-08-01 16:41:48 +0200504 unsigned long dimm_num;
505 unsigned long voltage_type;
wdenkfe8c2802002-11-03 00:38:21 +0000506
Stefan Roesec157d8e2005-08-01 16:41:48 +0200507 for (dimm_num = 0; dimm_num < num_dimm_banks; dimm_num++) {
508 if (dimm_populated[dimm_num] == TRUE) {
509 voltage_type = spd_read(iic0_dimm_addr[dimm_num], 8);
510 if (voltage_type != 0x04) {
511 printf("ERROR: DIMM %lu with unsupported voltage level.\n",
512 dimm_num);
513 hang();
514 } else {
Stefan Roesed2d43272007-06-01 15:09:50 +0200515 debug("DIMM %lu voltage level supported.\n", dimm_num);
Stefan Roesec157d8e2005-08-01 16:41:48 +0200516 }
517 break;
518 }
wdenk8bde7f72003-06-27 21:31:46 +0000519 }
wdenkfe8c2802002-11-03 00:38:21 +0000520}
521
Stefan Roesed2d43272007-06-01 15:09:50 +0200522static void program_cfg0(unsigned long *dimm_populated,
523 unsigned char *iic0_dimm_addr,
524 unsigned long num_dimm_banks)
wdenkfe8c2802002-11-03 00:38:21 +0000525{
Stefan Roesec157d8e2005-08-01 16:41:48 +0200526 unsigned long dimm_num;
527 unsigned long cfg0;
528 unsigned long ecc_enabled;
529 unsigned char ecc;
530 unsigned char attributes;
531 unsigned long data_width;
532 unsigned long dimm_32bit;
533 unsigned long dimm_64bit;
wdenkfe8c2802002-11-03 00:38:21 +0000534
Stefan Roesec157d8e2005-08-01 16:41:48 +0200535 /*
536 * get Memory Controller Options 0 data
537 */
538 mfsdram(mem_cfg0, cfg0);
wdenkfe8c2802002-11-03 00:38:21 +0000539
Stefan Roesec157d8e2005-08-01 16:41:48 +0200540 /*
541 * clear bits
542 */
543 cfg0 &= ~(SDRAM_CFG0_DCEN | SDRAM_CFG0_MCHK_MASK |
544 SDRAM_CFG0_RDEN | SDRAM_CFG0_PMUD |
545 SDRAM_CFG0_DMWD_MASK |
546 SDRAM_CFG0_UIOS_MASK | SDRAM_CFG0_PDP);
wdenkfe8c2802002-11-03 00:38:21 +0000547
548
Stefan Roesec157d8e2005-08-01 16:41:48 +0200549 /*
550 * FIXME: assume the DDR SDRAMs in both banks are the same
551 */
552 ecc_enabled = TRUE;
553 for (dimm_num = 0; dimm_num < num_dimm_banks; dimm_num++) {
554 if (dimm_populated[dimm_num] == TRUE) {
555 ecc = spd_read(iic0_dimm_addr[dimm_num], 11);
556 if (ecc != 0x02) {
557 ecc_enabled = FALSE;
558 }
wdenkfe8c2802002-11-03 00:38:21 +0000559
Stefan Roesec157d8e2005-08-01 16:41:48 +0200560 /*
561 * program Registered DIMM Enable
562 */
563 attributes = spd_read(iic0_dimm_addr[dimm_num], 21);
564 if ((attributes & 0x02) != 0x00) {
565 cfg0 |= SDRAM_CFG0_RDEN;
566 }
wdenkfe8c2802002-11-03 00:38:21 +0000567
Stefan Roesec157d8e2005-08-01 16:41:48 +0200568 /*
569 * program DDR SDRAM Data Width
570 */
571 data_width =
572 (unsigned long)spd_read(iic0_dimm_addr[dimm_num],6) +
573 (((unsigned long)spd_read(iic0_dimm_addr[dimm_num],7)) << 8);
574 if (data_width == 64 || data_width == 72) {
575 dimm_64bit = TRUE;
576 cfg0 |= SDRAM_CFG0_DMWD_64;
577 } else if (data_width == 32 || data_width == 40) {
578 dimm_32bit = TRUE;
579 cfg0 |= SDRAM_CFG0_DMWD_32;
580 } else {
581 printf("WARNING: DIMM with datawidth of %lu bits.\n",
582 data_width);
583 printf("Only DIMMs with 32 or 64 bit datawidths supported.\n");
584 hang();
585 }
586 break;
587 }
wdenk8bde7f72003-06-27 21:31:46 +0000588 }
wdenkfe8c2802002-11-03 00:38:21 +0000589
Stefan Roesec157d8e2005-08-01 16:41:48 +0200590 /*
591 * program Memory Data Error Checking
592 */
593 if (ecc_enabled == TRUE) {
594 cfg0 |= SDRAM_CFG0_MCHK_GEN;
595 } else {
596 cfg0 |= SDRAM_CFG0_MCHK_NON;
597 }
wdenkfe8c2802002-11-03 00:38:21 +0000598
Stefan Roesec157d8e2005-08-01 16:41:48 +0200599 /*
Stefan Roesea2c95a72006-07-28 18:34:58 +0200600 * program Page Management Unit (0 == enabled)
Stefan Roesec157d8e2005-08-01 16:41:48 +0200601 */
Stefan Roesea2c95a72006-07-28 18:34:58 +0200602 cfg0 &= ~SDRAM_CFG0_PMUD;
wdenkfe8c2802002-11-03 00:38:21 +0000603
Stefan Roesec157d8e2005-08-01 16:41:48 +0200604 /*
605 * program Memory Controller Options 0
606 * Note: DCEN must be enabled after all DDR SDRAM controller
607 * configuration registers get initialized.
608 */
609 mtsdram(mem_cfg0, cfg0);
wdenkfe8c2802002-11-03 00:38:21 +0000610}
611
Stefan Roesed2d43272007-06-01 15:09:50 +0200612static void program_cfg1(unsigned long *dimm_populated,
613 unsigned char *iic0_dimm_addr,
614 unsigned long num_dimm_banks)
wdenkfe8c2802002-11-03 00:38:21 +0000615{
Stefan Roesec157d8e2005-08-01 16:41:48 +0200616 unsigned long cfg1;
617 mfsdram(mem_cfg1, cfg1);
wdenkfe8c2802002-11-03 00:38:21 +0000618
Stefan Roesec157d8e2005-08-01 16:41:48 +0200619 /*
620 * Self-refresh exit, disable PM
621 */
622 cfg1 &= ~(SDRAM_CFG1_SRE | SDRAM_CFG1_PMEN);
wdenkfe8c2802002-11-03 00:38:21 +0000623
Stefan Roesec157d8e2005-08-01 16:41:48 +0200624 /*
625 * program Memory Controller Options 1
626 */
627 mtsdram(mem_cfg1, cfg1);
wdenkfe8c2802002-11-03 00:38:21 +0000628}
629
Stefan Roesed2d43272007-06-01 15:09:50 +0200630static void program_rtr(unsigned long *dimm_populated,
631 unsigned char *iic0_dimm_addr,
632 unsigned long num_dimm_banks)
wdenkfe8c2802002-11-03 00:38:21 +0000633{
Stefan Roesec157d8e2005-08-01 16:41:48 +0200634 unsigned long dimm_num;
635 unsigned long bus_period_x_10;
636 unsigned long refresh_rate = 0;
637 unsigned char refresh_rate_type;
638 unsigned long refresh_interval;
639 unsigned long sdram_rtr;
640 PPC440_SYS_INFO sys_info;
wdenkfe8c2802002-11-03 00:38:21 +0000641
Stefan Roesec157d8e2005-08-01 16:41:48 +0200642 /*
643 * get the board info
644 */
645 get_sys_info(&sys_info);
646 bus_period_x_10 = ONE_BILLION / (sys_info.freqPLB / 10);
wdenkfe8c2802002-11-03 00:38:21 +0000647
Stefan Roesec157d8e2005-08-01 16:41:48 +0200648 for (dimm_num = 0; dimm_num < num_dimm_banks; dimm_num++) {
649 if (dimm_populated[dimm_num] == TRUE) {
650 refresh_rate_type = 0x7F & spd_read(iic0_dimm_addr[dimm_num], 12);
651 switch (refresh_rate_type) {
652 case 0x00:
653 refresh_rate = 15625;
654 break;
655 case 0x01:
656 refresh_rate = 15625/4;
657 break;
658 case 0x02:
659 refresh_rate = 15625/2;
660 break;
661 case 0x03:
662 refresh_rate = 15626*2;
663 break;
664 case 0x04:
665 refresh_rate = 15625*4;
666 break;
667 case 0x05:
668 refresh_rate = 15625*8;
669 break;
670 default:
671 printf("ERROR: DIMM %lu, unsupported refresh rate/type.\n",
672 dimm_num);
673 printf("Replace the DIMM module with a supported DIMM.\n");
674 break;
675 }
wdenkfe8c2802002-11-03 00:38:21 +0000676
Stefan Roesec157d8e2005-08-01 16:41:48 +0200677 break;
678 }
wdenk8bde7f72003-06-27 21:31:46 +0000679 }
wdenkfe8c2802002-11-03 00:38:21 +0000680
Stefan Roesec157d8e2005-08-01 16:41:48 +0200681 refresh_interval = refresh_rate * 10 / bus_period_x_10;
682 sdram_rtr = (refresh_interval & 0x3ff8) << 16;
wdenkfe8c2802002-11-03 00:38:21 +0000683
Stefan Roesec157d8e2005-08-01 16:41:48 +0200684 /*
685 * program Refresh Timer Register (SDRAM0_RTR)
686 */
687 mtsdram(mem_rtr, sdram_rtr);
wdenkfe8c2802002-11-03 00:38:21 +0000688}
689
Stefan Roesed2d43272007-06-01 15:09:50 +0200690static void program_tr0(unsigned long *dimm_populated,
691 unsigned char *iic0_dimm_addr,
692 unsigned long num_dimm_banks)
wdenkfe8c2802002-11-03 00:38:21 +0000693{
Stefan Roesec157d8e2005-08-01 16:41:48 +0200694 unsigned long dimm_num;
695 unsigned long tr0;
696 unsigned char wcsbc;
697 unsigned char t_rp_ns;
698 unsigned char t_rcd_ns;
699 unsigned char t_ras_ns;
700 unsigned long t_rp_clk;
701 unsigned long t_ras_rcd_clk;
702 unsigned long t_rcd_clk;
703 unsigned long t_rfc_clk;
704 unsigned long plb_check;
705 unsigned char cas_bit;
706 unsigned long cas_index;
707 unsigned char cas_2_0_available;
708 unsigned char cas_2_5_available;
709 unsigned char cas_3_0_available;
710 unsigned long cycle_time_ns_x_10[3];
711 unsigned long tcyc_3_0_ns_x_10;
712 unsigned long tcyc_2_5_ns_x_10;
713 unsigned long tcyc_2_0_ns_x_10;
714 unsigned long tcyc_reg;
715 unsigned long bus_period_x_10;
716 PPC440_SYS_INFO sys_info;
717 unsigned long residue;
wdenkfe8c2802002-11-03 00:38:21 +0000718
Stefan Roesec157d8e2005-08-01 16:41:48 +0200719 /*
720 * get the board info
721 */
722 get_sys_info(&sys_info);
723 bus_period_x_10 = ONE_BILLION / (sys_info.freqPLB / 10);
wdenkfe8c2802002-11-03 00:38:21 +0000724
Stefan Roesec157d8e2005-08-01 16:41:48 +0200725 /*
726 * get SDRAM Timing Register 0 (SDRAM_TR0) and clear bits
727 */
728 mfsdram(mem_tr0, tr0);
729 tr0 &= ~(SDRAM_TR0_SDWR_MASK | SDRAM_TR0_SDWD_MASK |
730 SDRAM_TR0_SDCL_MASK | SDRAM_TR0_SDPA_MASK |
731 SDRAM_TR0_SDCP_MASK | SDRAM_TR0_SDLD_MASK |
732 SDRAM_TR0_SDRA_MASK | SDRAM_TR0_SDRD_MASK);
wdenkfe8c2802002-11-03 00:38:21 +0000733
Stefan Roesec157d8e2005-08-01 16:41:48 +0200734 /*
735 * initialization
736 */
737 wcsbc = 0;
738 t_rp_ns = 0;
739 t_rcd_ns = 0;
740 t_ras_ns = 0;
741 cas_2_0_available = TRUE;
742 cas_2_5_available = TRUE;
743 cas_3_0_available = TRUE;
744 tcyc_2_0_ns_x_10 = 0;
745 tcyc_2_5_ns_x_10 = 0;
746 tcyc_3_0_ns_x_10 = 0;
wdenkfe8c2802002-11-03 00:38:21 +0000747
Stefan Roesec157d8e2005-08-01 16:41:48 +0200748 for (dimm_num = 0; dimm_num < num_dimm_banks; dimm_num++) {
749 if (dimm_populated[dimm_num] == TRUE) {
750 wcsbc = spd_read(iic0_dimm_addr[dimm_num], 15);
Wolfgang Denkf013dac2005-12-04 00:40:34 +0100751 t_rp_ns = spd_read(iic0_dimm_addr[dimm_num], 27) >> 2;
Stefan Roesec157d8e2005-08-01 16:41:48 +0200752 t_rcd_ns = spd_read(iic0_dimm_addr[dimm_num], 29) >> 2;
753 t_ras_ns = spd_read(iic0_dimm_addr[dimm_num], 30);
754 cas_bit = spd_read(iic0_dimm_addr[dimm_num], 18);
wdenkfe8c2802002-11-03 00:38:21 +0000755
Stefan Roesec157d8e2005-08-01 16:41:48 +0200756 for (cas_index = 0; cas_index < 3; cas_index++) {
757 switch (cas_index) {
758 case 0:
759 tcyc_reg = spd_read(iic0_dimm_addr[dimm_num], 9);
760 break;
761 case 1:
762 tcyc_reg = spd_read(iic0_dimm_addr[dimm_num], 23);
763 break;
764 default:
765 tcyc_reg = spd_read(iic0_dimm_addr[dimm_num], 25);
766 break;
767 }
768
769 if ((tcyc_reg & 0x0F) >= 10) {
770 printf("ERROR: Tcyc incorrect for DIMM in slot %lu\n",
771 dimm_num);
772 hang();
773 }
774
775 cycle_time_ns_x_10[cas_index] =
776 (((tcyc_reg & 0xF0) >> 4) * 10) + (tcyc_reg & 0x0F);
777 }
778
779 cas_index = 0;
780
781 if ((cas_bit & 0x80) != 0) {
782 cas_index += 3;
783 } else if ((cas_bit & 0x40) != 0) {
784 cas_index += 2;
785 } else if ((cas_bit & 0x20) != 0) {
786 cas_index += 1;
787 }
788
789 if (((cas_bit & 0x10) != 0) && (cas_index < 3)) {
790 tcyc_3_0_ns_x_10 = cycle_time_ns_x_10[cas_index];
791 cas_index++;
792 } else {
793 if (cas_index != 0) {
794 cas_index++;
795 }
796 cas_3_0_available = FALSE;
797 }
798
799 if (((cas_bit & 0x08) != 0) || (cas_index < 3)) {
800 tcyc_2_5_ns_x_10 = cycle_time_ns_x_10[cas_index];
801 cas_index++;
802 } else {
803 if (cas_index != 0) {
804 cas_index++;
805 }
806 cas_2_5_available = FALSE;
807 }
808
809 if (((cas_bit & 0x04) != 0) || (cas_index < 3)) {
810 tcyc_2_0_ns_x_10 = cycle_time_ns_x_10[cas_index];
811 cas_index++;
812 } else {
813 if (cas_index != 0) {
814 cas_index++;
815 }
816 cas_2_0_available = FALSE;
817 }
818
819 break;
wdenk8bde7f72003-06-27 21:31:46 +0000820 }
wdenk8bde7f72003-06-27 21:31:46 +0000821 }
wdenkfe8c2802002-11-03 00:38:21 +0000822
Stefan Roesec157d8e2005-08-01 16:41:48 +0200823 /*
824 * Program SD_WR and SD_WCSBC fields
825 */
Wolfgang Denkf013dac2005-12-04 00:40:34 +0100826 tr0 |= SDRAM_TR0_SDWR_2_CLK; /* Write Recovery: 2 CLK */
Stefan Roesec157d8e2005-08-01 16:41:48 +0200827 switch (wcsbc) {
828 case 0:
829 tr0 |= SDRAM_TR0_SDWD_0_CLK;
830 break;
831 default:
832 tr0 |= SDRAM_TR0_SDWD_1_CLK;
833 break;
834 }
wdenkfe8c2802002-11-03 00:38:21 +0000835
Stefan Roesec157d8e2005-08-01 16:41:48 +0200836 /*
837 * Program SD_CASL field
838 */
839 if ((cas_2_0_available == TRUE) &&
840 (bus_period_x_10 >= tcyc_2_0_ns_x_10)) {
841 tr0 |= SDRAM_TR0_SDCL_2_0_CLK;
842 } else if ((cas_2_5_available == TRUE) &&
843 (bus_period_x_10 >= tcyc_2_5_ns_x_10)) {
844 tr0 |= SDRAM_TR0_SDCL_2_5_CLK;
845 } else if ((cas_3_0_available == TRUE) &&
846 (bus_period_x_10 >= tcyc_3_0_ns_x_10)) {
847 tr0 |= SDRAM_TR0_SDCL_3_0_CLK;
848 } else {
849 printf("ERROR: No supported CAS latency with the installed DIMMs.\n");
850 printf("Only CAS latencies of 2.0, 2.5, and 3.0 are supported.\n");
851 printf("Make sure the PLB speed is within the supported range.\n");
852 hang();
853 }
wdenkfe8c2802002-11-03 00:38:21 +0000854
Stefan Roesec157d8e2005-08-01 16:41:48 +0200855 /*
856 * Calculate Trp in clock cycles and round up if necessary
857 * Program SD_PTA field
858 */
859 t_rp_clk = sys_info.freqPLB * t_rp_ns / ONE_BILLION;
860 plb_check = ONE_BILLION * t_rp_clk / t_rp_ns;
861 if (sys_info.freqPLB != plb_check) {
862 t_rp_clk++;
863 }
864 switch ((unsigned long)t_rp_clk) {
865 case 0:
866 case 1:
867 case 2:
868 tr0 |= SDRAM_TR0_SDPA_2_CLK;
869 break;
870 case 3:
871 tr0 |= SDRAM_TR0_SDPA_3_CLK;
872 break;
873 default:
874 tr0 |= SDRAM_TR0_SDPA_4_CLK;
875 break;
876 }
wdenkfe8c2802002-11-03 00:38:21 +0000877
Stefan Roesec157d8e2005-08-01 16:41:48 +0200878 /*
879 * Program SD_CTP field
880 */
881 t_ras_rcd_clk = sys_info.freqPLB * (t_ras_ns - t_rcd_ns) / ONE_BILLION;
882 plb_check = ONE_BILLION * t_ras_rcd_clk / (t_ras_ns - t_rcd_ns);
883 if (sys_info.freqPLB != plb_check) {
884 t_ras_rcd_clk++;
885 }
886 switch (t_ras_rcd_clk) {
887 case 0:
888 case 1:
889 case 2:
890 tr0 |= SDRAM_TR0_SDCP_2_CLK;
891 break;
892 case 3:
893 tr0 |= SDRAM_TR0_SDCP_3_CLK;
894 break;
895 case 4:
896 tr0 |= SDRAM_TR0_SDCP_4_CLK;
897 break;
898 default:
899 tr0 |= SDRAM_TR0_SDCP_5_CLK;
900 break;
901 }
wdenkfe8c2802002-11-03 00:38:21 +0000902
Stefan Roesec157d8e2005-08-01 16:41:48 +0200903 /*
904 * Program SD_LDF field
905 */
906 tr0 |= SDRAM_TR0_SDLD_2_CLK;
wdenkfe8c2802002-11-03 00:38:21 +0000907
Stefan Roesec157d8e2005-08-01 16:41:48 +0200908 /*
909 * Program SD_RFTA field
910 * FIXME tRFC hardcoded as 75 nanoseconds
911 */
912 t_rfc_clk = sys_info.freqPLB / (ONE_BILLION / 75);
913 residue = sys_info.freqPLB % (ONE_BILLION / 75);
914 if (residue >= (ONE_BILLION / 150)) {
915 t_rfc_clk++;
916 }
917 switch (t_rfc_clk) {
918 case 0:
919 case 1:
920 case 2:
921 case 3:
922 case 4:
923 case 5:
924 case 6:
925 tr0 |= SDRAM_TR0_SDRA_6_CLK;
926 break;
927 case 7:
928 tr0 |= SDRAM_TR0_SDRA_7_CLK;
929 break;
930 case 8:
931 tr0 |= SDRAM_TR0_SDRA_8_CLK;
932 break;
933 case 9:
934 tr0 |= SDRAM_TR0_SDRA_9_CLK;
935 break;
936 case 10:
937 tr0 |= SDRAM_TR0_SDRA_10_CLK;
938 break;
939 case 11:
940 tr0 |= SDRAM_TR0_SDRA_11_CLK;
941 break;
942 case 12:
943 tr0 |= SDRAM_TR0_SDRA_12_CLK;
944 break;
945 default:
946 tr0 |= SDRAM_TR0_SDRA_13_CLK;
947 break;
948 }
wdenkfe8c2802002-11-03 00:38:21 +0000949
Stefan Roesec157d8e2005-08-01 16:41:48 +0200950 /*
951 * Program SD_RCD field
952 */
953 t_rcd_clk = sys_info.freqPLB * t_rcd_ns / ONE_BILLION;
954 plb_check = ONE_BILLION * t_rcd_clk / t_rcd_ns;
955 if (sys_info.freqPLB != plb_check) {
956 t_rcd_clk++;
957 }
958 switch (t_rcd_clk) {
959 case 0:
960 case 1:
961 case 2:
962 tr0 |= SDRAM_TR0_SDRD_2_CLK;
963 break;
964 case 3:
965 tr0 |= SDRAM_TR0_SDRD_3_CLK;
966 break;
967 default:
968 tr0 |= SDRAM_TR0_SDRD_4_CLK;
969 break;
970 }
wdenkfe8c2802002-11-03 00:38:21 +0000971
Stefan Roesed2d43272007-06-01 15:09:50 +0200972 debug("tr0: %x\n", tr0);
Stefan Roesec157d8e2005-08-01 16:41:48 +0200973 mtsdram(mem_tr0, tr0);
wdenkfe8c2802002-11-03 00:38:21 +0000974}
975
Stefan Roesed2d43272007-06-01 15:09:50 +0200976static int short_mem_test(void)
977{
978 unsigned long i, j;
979 unsigned long bxcr_num;
980 unsigned long *membase;
981 const unsigned long test[NUMMEMTESTS][NUMMEMWORDS] = {
982 {0x00000000, 0x00000000, 0xFFFFFFFF, 0xFFFFFFFF,
983 0x00000000, 0x00000000, 0xFFFFFFFF, 0xFFFFFFFF},
984 {0xFFFFFFFF, 0xFFFFFFFF, 0x00000000, 0x00000000,
985 0xFFFFFFFF, 0xFFFFFFFF, 0x00000000, 0x00000000},
986 {0xAAAAAAAA, 0xAAAAAAAA, 0x55555555, 0x55555555,
987 0xAAAAAAAA, 0xAAAAAAAA, 0x55555555, 0x55555555},
988 {0x55555555, 0x55555555, 0xAAAAAAAA, 0xAAAAAAAA,
989 0x55555555, 0x55555555, 0xAAAAAAAA, 0xAAAAAAAA},
990 {0xA5A5A5A5, 0xA5A5A5A5, 0x5A5A5A5A, 0x5A5A5A5A,
991 0xA5A5A5A5, 0xA5A5A5A5, 0x5A5A5A5A, 0x5A5A5A5A},
992 {0x5A5A5A5A, 0x5A5A5A5A, 0xA5A5A5A5, 0xA5A5A5A5,
993 0x5A5A5A5A, 0x5A5A5A5A, 0xA5A5A5A5, 0xA5A5A5A5},
994 {0xAA55AA55, 0xAA55AA55, 0x55AA55AA, 0x55AA55AA,
995 0xAA55AA55, 0xAA55AA55, 0x55AA55AA, 0x55AA55AA},
996 {0x55AA55AA, 0x55AA55AA, 0xAA55AA55, 0xAA55AA55,
997 0x55AA55AA, 0x55AA55AA, 0xAA55AA55, 0xAA55AA55}};
998
999 for (bxcr_num = 0; bxcr_num < MAXBXCR; bxcr_num++) {
1000 mtdcr(memcfga, mem_b0cr + (bxcr_num << 2));
1001 if ((mfdcr(memcfgd) & SDRAM_BXCR_SDBE) == SDRAM_BXCR_SDBE) {
1002 /* Bank is enabled */
1003 membase = (unsigned long*)
1004 (mfdcr(memcfgd) & SDRAM_BXCR_SDBA_MASK);
1005
1006 /*
1007 * Run the short memory test
1008 */
1009 for (i = 0; i < NUMMEMTESTS; i++) {
1010 for (j = 0; j < NUMMEMWORDS; j++) {
1011 membase[j] = test[i][j];
1012 ppcDcbf((unsigned long)&(membase[j]));
1013 }
1014
1015 for (j = 0; j < NUMMEMWORDS; j++) {
1016 if (membase[j] != test[i][j]) {
1017 ppcDcbf((unsigned long)&(membase[j]));
1018 return 0;
1019 }
1020 ppcDcbf((unsigned long)&(membase[j]));
1021 }
1022
1023 if (j < NUMMEMWORDS)
1024 return 0;
1025 }
1026
1027 /*
1028 * see if the rdclt value passed
1029 */
1030 if (i < NUMMEMTESTS)
1031 return 0;
1032 }
1033 }
1034
1035 return 1;
1036}
1037
1038static void program_tr1(void)
wdenkfe8c2802002-11-03 00:38:21 +00001039{
Stefan Roesec157d8e2005-08-01 16:41:48 +02001040 unsigned long tr0;
1041 unsigned long tr1;
1042 unsigned long cfg0;
1043 unsigned long ecc_temp;
1044 unsigned long dlycal;
1045 unsigned long dly_val;
Stefan Roesed2d43272007-06-01 15:09:50 +02001046 unsigned long k;
Stefan Roesec157d8e2005-08-01 16:41:48 +02001047 unsigned long max_pass_length;
1048 unsigned long current_pass_length;
1049 unsigned long current_fail_length;
1050 unsigned long current_start;
1051 unsigned long rdclt;
1052 unsigned long rdclt_offset;
1053 long max_start;
1054 long max_end;
1055 long rdclt_average;
1056 unsigned char window_found;
1057 unsigned char fail_found;
1058 unsigned char pass_found;
Stefan Roesec157d8e2005-08-01 16:41:48 +02001059 PPC440_SYS_INFO sys_info;
wdenkfe8c2802002-11-03 00:38:21 +00001060
Stefan Roesec157d8e2005-08-01 16:41:48 +02001061 /*
1062 * get the board info
1063 */
1064 get_sys_info(&sys_info);
wdenkfe8c2802002-11-03 00:38:21 +00001065
Stefan Roesec157d8e2005-08-01 16:41:48 +02001066 /*
1067 * get SDRAM Timing Register 0 (SDRAM_TR0) and clear bits
1068 */
1069 mfsdram(mem_tr1, tr1);
1070 tr1 &= ~(SDRAM_TR1_RDSS_MASK | SDRAM_TR1_RDSL_MASK |
1071 SDRAM_TR1_RDCD_MASK | SDRAM_TR1_RDCT_MASK);
wdenkfe8c2802002-11-03 00:38:21 +00001072
Stefan Roesec157d8e2005-08-01 16:41:48 +02001073 mfsdram(mem_tr0, tr0);
1074 if (((tr0 & SDRAM_TR0_SDCL_MASK) == SDRAM_TR0_SDCL_2_5_CLK) &&
1075 (sys_info.freqPLB > 100000000)) {
1076 tr1 |= SDRAM_TR1_RDSS_TR2;
1077 tr1 |= SDRAM_TR1_RDSL_STAGE3;
1078 tr1 |= SDRAM_TR1_RDCD_RCD_1_2;
1079 } else {
1080 tr1 |= SDRAM_TR1_RDSS_TR1;
1081 tr1 |= SDRAM_TR1_RDSL_STAGE2;
1082 tr1 |= SDRAM_TR1_RDCD_RCD_0_0;
wdenk8bde7f72003-06-27 21:31:46 +00001083 }
wdenkfe8c2802002-11-03 00:38:21 +00001084
Stefan Roesec157d8e2005-08-01 16:41:48 +02001085 /*
1086 * save CFG0 ECC setting to a temporary variable and turn ECC off
1087 */
1088 mfsdram(mem_cfg0, cfg0);
1089 ecc_temp = cfg0 & SDRAM_CFG0_MCHK_MASK;
1090 mtsdram(mem_cfg0, (cfg0 & ~SDRAM_CFG0_MCHK_MASK) | SDRAM_CFG0_MCHK_NON);
1091
1092 /*
1093 * get the delay line calibration register value
1094 */
1095 mfsdram(mem_dlycal, dlycal);
1096 dly_val = SDRAM_DLYCAL_DLCV_DECODE(dlycal) << 2;
1097
1098 max_pass_length = 0;
1099 max_start = 0;
1100 max_end = 0;
1101 current_pass_length = 0;
1102 current_fail_length = 0;
1103 current_start = 0;
1104 rdclt_offset = 0;
1105 window_found = FALSE;
1106 fail_found = FALSE;
1107 pass_found = FALSE;
Stefan Roesed2d43272007-06-01 15:09:50 +02001108 debug("Starting memory test ");
1109
Stefan Roesec157d8e2005-08-01 16:41:48 +02001110 for (k = 0; k < NUMHALFCYCLES; k++) {
Stefan Roesed2d43272007-06-01 15:09:50 +02001111 for (rdclt = 0; rdclt < dly_val; rdclt++) {
Stefan Roesec157d8e2005-08-01 16:41:48 +02001112 /*
1113 * Set the timing reg for the test.
1114 */
1115 mtsdram(mem_tr1, (tr1 | SDRAM_TR1_RDCT_ENCODE(rdclt)));
1116
Stefan Roesed2d43272007-06-01 15:09:50 +02001117 if (short_mem_test()) {
Stefan Roesec157d8e2005-08-01 16:41:48 +02001118 if (fail_found == TRUE) {
1119 pass_found = TRUE;
1120 if (current_pass_length == 0) {
1121 current_start = rdclt_offset + rdclt;
1122 }
1123
1124 current_fail_length = 0;
1125 current_pass_length++;
1126
1127 if (current_pass_length > max_pass_length) {
1128 max_pass_length = current_pass_length;
1129 max_start = current_start;
1130 max_end = rdclt_offset + rdclt;
1131 }
1132 }
1133 } else {
1134 current_pass_length = 0;
1135 current_fail_length++;
1136
1137 if (current_fail_length >= (dly_val>>2)) {
1138 if (fail_found == FALSE) {
1139 fail_found = TRUE;
1140 } else if (pass_found == TRUE) {
1141 window_found = TRUE;
1142 break;
1143 }
1144 }
1145 }
1146 }
Stefan Roesed2d43272007-06-01 15:09:50 +02001147 debug(".");
1148
Stefan Roesec157d8e2005-08-01 16:41:48 +02001149 if (window_found == TRUE) {
1150 break;
1151 }
1152
1153 tr1 = tr1 ^ SDRAM_TR1_RDCD_MASK;
1154 rdclt_offset += dly_val;
1155 }
Stefan Roesed2d43272007-06-01 15:09:50 +02001156 debug("\n");
wdenkfe8c2802002-11-03 00:38:21 +00001157
Stefan Roesec157d8e2005-08-01 16:41:48 +02001158 /*
1159 * make sure we find the window
1160 */
1161 if (window_found == FALSE) {
1162 printf("ERROR: Cannot determine a common read delay.\n");
1163 hang();
1164 }
wdenkfe8c2802002-11-03 00:38:21 +00001165
Stefan Roesec157d8e2005-08-01 16:41:48 +02001166 /*
1167 * restore the orignal ECC setting
1168 */
1169 mtsdram(mem_cfg0, (cfg0 & ~SDRAM_CFG0_MCHK_MASK) | ecc_temp);
wdenkfe8c2802002-11-03 00:38:21 +00001170
Stefan Roesec157d8e2005-08-01 16:41:48 +02001171 /*
1172 * set the SDRAM TR1 RDCD value
1173 */
1174 tr1 &= ~SDRAM_TR1_RDCD_MASK;
1175 if ((tr0 & SDRAM_TR0_SDCL_MASK) == SDRAM_TR0_SDCL_2_5_CLK) {
1176 tr1 |= SDRAM_TR1_RDCD_RCD_1_2;
1177 } else {
1178 tr1 |= SDRAM_TR1_RDCD_RCD_0_0;
1179 }
wdenkfe8c2802002-11-03 00:38:21 +00001180
Stefan Roesec157d8e2005-08-01 16:41:48 +02001181 /*
1182 * set the SDRAM TR1 RDCLT value
1183 */
1184 tr1 &= ~SDRAM_TR1_RDCT_MASK;
1185 while (max_end >= (dly_val << 1)) {
1186 max_end -= (dly_val << 1);
1187 max_start -= (dly_val << 1);
1188 }
wdenkfe8c2802002-11-03 00:38:21 +00001189
Stefan Roesec157d8e2005-08-01 16:41:48 +02001190 rdclt_average = ((max_start + max_end) >> 1);
1191 if (rdclt_average >= 0x60)
1192 while (1)
1193 ;
wdenkfe8c2802002-11-03 00:38:21 +00001194
Stefan Roesec157d8e2005-08-01 16:41:48 +02001195 if (rdclt_average < 0) {
1196 rdclt_average = 0;
1197 }
wdenkfe8c2802002-11-03 00:38:21 +00001198
Stefan Roesec157d8e2005-08-01 16:41:48 +02001199 if (rdclt_average >= dly_val) {
1200 rdclt_average -= dly_val;
1201 tr1 = tr1 ^ SDRAM_TR1_RDCD_MASK;
1202 }
1203 tr1 |= SDRAM_TR1_RDCT_ENCODE(rdclt_average);
wdenkfe8c2802002-11-03 00:38:21 +00001204
Stefan Roesed2d43272007-06-01 15:09:50 +02001205 debug("tr1: %x\n", tr1);
1206
Stefan Roesec157d8e2005-08-01 16:41:48 +02001207 /*
1208 * program SDRAM Timing Register 1 TR1
1209 */
1210 mtsdram(mem_tr1, tr1);
wdenkfe8c2802002-11-03 00:38:21 +00001211}
1212
Stefan Roesed2d43272007-06-01 15:09:50 +02001213static unsigned long program_bxcr(unsigned long *dimm_populated,
1214 unsigned char *iic0_dimm_addr,
1215 unsigned long num_dimm_banks)
wdenkfe8c2802002-11-03 00:38:21 +00001216{
Stefan Roesec157d8e2005-08-01 16:41:48 +02001217 unsigned long dimm_num;
Stefan Roesec157d8e2005-08-01 16:41:48 +02001218 unsigned long bank_base_addr;
Stefan Roesec157d8e2005-08-01 16:41:48 +02001219 unsigned long cr;
1220 unsigned long i;
Stefan Roesefd49bf02005-11-15 16:04:58 +01001221 unsigned long j;
Stefan Roesec157d8e2005-08-01 16:41:48 +02001222 unsigned long temp;
1223 unsigned char num_row_addr;
1224 unsigned char num_col_addr;
1225 unsigned char num_banks;
1226 unsigned char bank_size_id;
Stefan Roesefd49bf02005-11-15 16:04:58 +01001227 unsigned long ctrl_bank_num[MAXBANKS];
1228 unsigned long bx_cr_num;
1229 unsigned long largest_size_index;
Wolfgang Denkf013dac2005-12-04 00:40:34 +01001230 unsigned long largest_size;
1231 unsigned long current_size_index;
Stefan Roesefd49bf02005-11-15 16:04:58 +01001232 BANKPARMS bank_parms[MAXBXCR];
1233 unsigned long sorted_bank_num[MAXBXCR]; /* DDR Controller bank number table (sorted by size) */
1234 unsigned long sorted_bank_size[MAXBXCR]; /* DDR Controller bank size table (sorted by size)*/
wdenkfe8c2802002-11-03 00:38:21 +00001235
Stefan Roesec157d8e2005-08-01 16:41:48 +02001236 /*
1237 * Set the BxCR regs. First, wipe out the bank config registers.
1238 */
Stefan Roesefd49bf02005-11-15 16:04:58 +01001239 for (bx_cr_num = 0; bx_cr_num < MAXBXCR; bx_cr_num++) {
1240 mtdcr(memcfga, mem_b0cr + (bx_cr_num << 2));
Stefan Roesec157d8e2005-08-01 16:41:48 +02001241 mtdcr(memcfgd, 0x00000000);
Stefan Roesefd49bf02005-11-15 16:04:58 +01001242 bank_parms[bx_cr_num].bank_size_bytes = 0;
wdenk8bde7f72003-06-27 21:31:46 +00001243 }
Stefan Roesefd49bf02005-11-15 16:04:58 +01001244
1245#ifdef CONFIG_BAMBOO
1246 /*
1247 * This next section is hardware dependent and must be programmed
Stefan Roesed2d43272007-06-01 15:09:50 +02001248 * to match the hardware. For bamboo, the following holds...
1249 * 1. SDRAM0_B0CR: Bank 0 of dimm 0 ctrl_bank_num : 0 (soldered onboard)
Stefan Roesefd49bf02005-11-15 16:04:58 +01001250 * 2. SDRAM0_B1CR: Bank 0 of dimm 1 ctrl_bank_num : 1
1251 * 3. SDRAM0_B2CR: Bank 1 of dimm 1 ctrl_bank_num : 1
1252 * 4. SDRAM0_B3CR: Bank 0 of dimm 2 ctrl_bank_num : 3
1253 * ctrl_bank_num corresponds to the first usable DDR controller bank number by DIMM
1254 */
1255 ctrl_bank_num[0] = 0;
1256 ctrl_bank_num[1] = 1;
1257 ctrl_bank_num[2] = 3;
1258#else
Stefan Roesed2d43272007-06-01 15:09:50 +02001259 /*
1260 * Ocotea, Ebony and the other IBM/AMCC eval boards have
1261 * 2 DIMM slots with each max 2 banks
1262 */
Stefan Roesefd49bf02005-11-15 16:04:58 +01001263 ctrl_bank_num[0] = 0;
Stefan Roesed2d43272007-06-01 15:09:50 +02001264 ctrl_bank_num[1] = 2;
Stefan Roese17f50f222005-08-04 17:09:16 +02001265#endif
wdenkfe8c2802002-11-03 00:38:21 +00001266
Stefan Roesec157d8e2005-08-01 16:41:48 +02001267 /*
1268 * reset the bank_base address
1269 */
1270 bank_base_addr = CFG_SDRAM_BASE;
1271
1272 for (dimm_num = 0; dimm_num < num_dimm_banks; dimm_num++) {
1273 if (dimm_populated[dimm_num] == TRUE) {
1274 num_row_addr = spd_read(iic0_dimm_addr[dimm_num], 3);
1275 num_col_addr = spd_read(iic0_dimm_addr[dimm_num], 4);
1276 num_banks = spd_read(iic0_dimm_addr[dimm_num], 5);
1277 bank_size_id = spd_read(iic0_dimm_addr[dimm_num], 31);
Stefan Roesed2d43272007-06-01 15:09:50 +02001278 debug("DIMM%d: row=%d col=%d banks=%d\n", dimm_num,
1279 num_row_addr, num_col_addr, num_banks);
Stefan Roesec157d8e2005-08-01 16:41:48 +02001280
1281 /*
1282 * Set the SDRAM0_BxCR regs
1283 */
1284 cr = 0;
Stefan Roesec157d8e2005-08-01 16:41:48 +02001285 switch (bank_size_id) {
1286 case 0x02:
1287 cr |= SDRAM_BXCR_SDSZ_8;
1288 break;
1289 case 0x04:
1290 cr |= SDRAM_BXCR_SDSZ_16;
1291 break;
1292 case 0x08:
1293 cr |= SDRAM_BXCR_SDSZ_32;
1294 break;
1295 case 0x10:
1296 cr |= SDRAM_BXCR_SDSZ_64;
1297 break;
1298 case 0x20:
1299 cr |= SDRAM_BXCR_SDSZ_128;
1300 break;
1301 case 0x40:
1302 cr |= SDRAM_BXCR_SDSZ_256;
1303 break;
1304 case 0x80:
1305 cr |= SDRAM_BXCR_SDSZ_512;
1306 break;
1307 default:
1308 printf("DDR-SDRAM: DIMM %lu BxCR configuration.\n",
1309 dimm_num);
1310 printf("ERROR: Unsupported value for the banksize: %d.\n",
1311 bank_size_id);
1312 printf("Replace the DIMM module with a supported DIMM.\n\n");
1313 hang();
1314 }
1315
1316 switch (num_col_addr) {
1317 case 0x08:
1318 cr |= SDRAM_BXCR_SDAM_1;
1319 break;
1320 case 0x09:
1321 cr |= SDRAM_BXCR_SDAM_2;
1322 break;
1323 case 0x0A:
1324 cr |= SDRAM_BXCR_SDAM_3;
1325 break;
1326 case 0x0B:
1327 cr |= SDRAM_BXCR_SDAM_4;
1328 break;
1329 default:
1330 printf("DDR-SDRAM: DIMM %lu BxCR configuration.\n",
1331 dimm_num);
1332 printf("ERROR: Unsupported value for number of "
1333 "column addresses: %d.\n", num_col_addr);
1334 printf("Replace the DIMM module with a supported DIMM.\n\n");
1335 hang();
1336 }
1337
1338 /*
1339 * enable the bank
1340 */
1341 cr |= SDRAM_BXCR_SDBE;
1342
Wolfgang Denk1636d1c2007-06-22 23:59:00 +02001343 for (i = 0; i < num_banks; i++) {
Stefan Roesed2d43272007-06-01 15:09:50 +02001344 bank_parms[ctrl_bank_num[dimm_num]+i].bank_size_bytes =
1345 (4 << 20) * bank_size_id;
1346 bank_parms[ctrl_bank_num[dimm_num]+i].cr = cr;
1347 debug("DIMM%d-bank %d (SDRAM0_B%dCR): bank_size_bytes=%d\n",
1348 dimm_num, i, ctrl_bank_num[dimm_num]+i,
1349 bank_parms[ctrl_bank_num[dimm_num]+i].bank_size_bytes);
Wolfgang Denk1636d1c2007-06-22 23:59:00 +02001350 }
Stefan Roesec157d8e2005-08-01 16:41:48 +02001351 }
1352 }
1353
Stefan Roesefd49bf02005-11-15 16:04:58 +01001354 /* Initialize sort tables */
1355 for (i = 0; i < MAXBXCR; i++) {
1356 sorted_bank_num[i] = i;
1357 sorted_bank_size[i] = bank_parms[i].bank_size_bytes;
1358 }
1359
1360 for (i = 0; i < MAXBXCR-1; i++) {
1361 largest_size = sorted_bank_size[i];
1362 largest_size_index = 255;
1363
1364 /* Find the largest remaining value */
1365 for (j = i + 1; j < MAXBXCR; j++) {
1366 if (sorted_bank_size[j] > largest_size) {
1367 /* Save largest remaining value and its index */
1368 largest_size = sorted_bank_size[j];
1369 largest_size_index = j;
1370 }
1371 }
1372
1373 if (largest_size_index != 255) {
1374 /* Swap the current and largest values */
1375 current_size_index = sorted_bank_num[largest_size_index];
1376 sorted_bank_size[largest_size_index] = sorted_bank_size[i];
1377 sorted_bank_size[i] = largest_size;
1378 sorted_bank_num[largest_size_index] = sorted_bank_num[i];
1379 sorted_bank_num[i] = current_size_index;
1380 }
1381 }
1382
1383 /* Set the SDRAM0_BxCR regs thanks to sort tables */
1384 for (bx_cr_num = 0, bank_base_addr = 0; bx_cr_num < MAXBXCR; bx_cr_num++) {
1385 if (bank_parms[sorted_bank_num[bx_cr_num]].bank_size_bytes) {
1386 mtdcr(memcfga, mem_b0cr + (sorted_bank_num[bx_cr_num] << 2));
1387 temp = mfdcr(memcfgd) & ~(SDRAM_BXCR_SDBA_MASK | SDRAM_BXCR_SDSZ_MASK |
1388 SDRAM_BXCR_SDAM_MASK | SDRAM_BXCR_SDBE);
1389 temp = temp | (bank_base_addr & SDRAM_BXCR_SDBA_MASK) |
1390 bank_parms[sorted_bank_num[bx_cr_num]].cr;
1391 mtdcr(memcfgd, temp);
1392 bank_base_addr += bank_parms[sorted_bank_num[bx_cr_num]].bank_size_bytes;
Stefan Roesed2d43272007-06-01 15:09:50 +02001393 debug("SDRAM0_B%dCR=0x%08lx\n", sorted_bank_num[bx_cr_num], temp);
Stefan Roesefd49bf02005-11-15 16:04:58 +01001394 }
1395 }
1396
Stefan Roesec157d8e2005-08-01 16:41:48 +02001397 return(bank_base_addr);
wdenkfe8c2802002-11-03 00:38:21 +00001398}
1399
Stefan Roesed2d43272007-06-01 15:09:50 +02001400#ifdef CONFIG_DDR_ECC
1401static void program_ecc(unsigned long num_bytes)
wdenkfe8c2802002-11-03 00:38:21 +00001402{
Stefan Roesec157d8e2005-08-01 16:41:48 +02001403 unsigned long bank_base_addr;
1404 unsigned long current_address;
1405 unsigned long end_address;
1406 unsigned long address_increment;
1407 unsigned long cfg0;
wdenkfe8c2802002-11-03 00:38:21 +00001408
Stefan Roesec157d8e2005-08-01 16:41:48 +02001409 /*
1410 * get Memory Controller Options 0 data
1411 */
1412 mfsdram(mem_cfg0, cfg0);
wdenkfe8c2802002-11-03 00:38:21 +00001413
Stefan Roesec157d8e2005-08-01 16:41:48 +02001414 /*
1415 * reset the bank_base address
1416 */
1417 bank_base_addr = CFG_SDRAM_BASE;
wdenkfe8c2802002-11-03 00:38:21 +00001418
Stefan Roesec157d8e2005-08-01 16:41:48 +02001419 if ((cfg0 & SDRAM_CFG0_MCHK_MASK) != SDRAM_CFG0_MCHK_NON) {
Stefan Roesed2d43272007-06-01 15:09:50 +02001420 mtsdram(mem_cfg0, (cfg0 & ~SDRAM_CFG0_MCHK_MASK) | SDRAM_CFG0_MCHK_GEN);
wdenkfe8c2802002-11-03 00:38:21 +00001421
Stefan Roesed2d43272007-06-01 15:09:50 +02001422 if ((cfg0 & SDRAM_CFG0_DMWD_MASK) == SDRAM_CFG0_DMWD_32)
Stefan Roesec157d8e2005-08-01 16:41:48 +02001423 address_increment = 4;
Stefan Roesed2d43272007-06-01 15:09:50 +02001424 else
Stefan Roesec157d8e2005-08-01 16:41:48 +02001425 address_increment = 8;
Stefan Roesec157d8e2005-08-01 16:41:48 +02001426
1427 current_address = (unsigned long)(bank_base_addr);
1428 end_address = (unsigned long)(bank_base_addr) + num_bytes;
1429
1430 while (current_address < end_address) {
1431 *((unsigned long*)current_address) = 0x00000000;
1432 current_address += address_increment;
1433 }
1434
1435 mtsdram(mem_cfg0, (cfg0 & ~SDRAM_CFG0_MCHK_MASK) |
1436 SDRAM_CFG0_MCHK_CHK);
wdenk8bde7f72003-06-27 21:31:46 +00001437 }
wdenkfe8c2802002-11-03 00:38:21 +00001438}
Stefan Roesed2d43272007-06-01 15:09:50 +02001439#endif /* CONFIG_DDR_ECC */
wdenkfe8c2802002-11-03 00:38:21 +00001440#endif /* CONFIG_SPD_EEPROM */