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Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001/*
2 * Copyright Altera Corporation (C) 2012-2015
3 *
4 * SPDX-License-Identifier: BSD-3-Clause
5 */
6
7#include <common.h>
8#include <asm/io.h>
9#include <asm/arch/sdram.h>
10#include "sequencer.h"
11#include "sequencer_auto.h"
12#include "sequencer_auto_ac_init.h"
13#include "sequencer_auto_inst_init.h"
14#include "sequencer_defines.h"
15
Dinh Nguyen135cc7f2015-06-02 22:52:49 -050016static struct socfpga_sdr_rw_load_manager *sdr_rw_load_mgr_regs =
Marek Vasut0dcb9e82015-07-12 18:46:52 +020017 (struct socfpga_sdr_rw_load_manager *)(SDR_PHYGRP_RWMGRGRP_ADDRESS | 0x800);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -050018
19static struct socfpga_sdr_rw_load_jump_manager *sdr_rw_load_jump_mgr_regs =
Marek Vasut0dcb9e82015-07-12 18:46:52 +020020 (struct socfpga_sdr_rw_load_jump_manager *)(SDR_PHYGRP_RWMGRGRP_ADDRESS | 0xC00);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -050021
22static struct socfpga_sdr_reg_file *sdr_reg_file =
Marek Vasut341ceec2015-07-12 18:31:05 +020023 (struct socfpga_sdr_reg_file *)SDR_PHYGRP_REGFILEGRP_ADDRESS;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -050024
25static struct socfpga_sdr_scc_mgr *sdr_scc_mgr =
Marek Vasut81df0a22015-07-12 18:42:34 +020026 (struct socfpga_sdr_scc_mgr *)(SDR_PHYGRP_SCCGRP_ADDRESS | 0xe00);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -050027
28static struct socfpga_phy_mgr_cmd *phy_mgr_cmd =
Marek Vasutc3b9b0f2015-07-12 18:54:37 +020029 (struct socfpga_phy_mgr_cmd *)SDR_PHYGRP_PHYMGRGRP_ADDRESS;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -050030
31static struct socfpga_phy_mgr_cfg *phy_mgr_cfg =
Marek Vasutc3b9b0f2015-07-12 18:54:37 +020032 (struct socfpga_phy_mgr_cfg *)(SDR_PHYGRP_PHYMGRGRP_ADDRESS | 0x40);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -050033
34static struct socfpga_data_mgr *data_mgr =
Marek Vasuta3340102015-07-12 19:03:33 +020035 (struct socfpga_data_mgr *)SDR_PHYGRP_DATAMGRGRP_ADDRESS;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -050036
Marek Vasutcd5d38e2015-07-12 20:49:39 +020037static struct socfpga_sdr_ctrl *sdr_ctrl =
38 (struct socfpga_sdr_ctrl *)SDR_CTRLGRP_ADDRESS;
39
Dinh Nguyen135cc7f2015-06-02 22:52:49 -050040#define DELTA_D 1
Dinh Nguyen135cc7f2015-06-02 22:52:49 -050041
42/*
43 * In order to reduce ROM size, most of the selectable calibration steps are
44 * decided at compile time based on the user's calibration mode selection,
45 * as captured by the STATIC_CALIB_STEPS selection below.
46 *
47 * However, to support simulation-time selection of fast simulation mode, where
48 * we skip everything except the bare minimum, we need a few of the steps to
49 * be dynamic. In those cases, we either use the DYNAMIC_CALIB_STEPS for the
50 * check, which is based on the rtl-supplied value, or we dynamically compute
51 * the value to use based on the dynamically-chosen calibration mode
52 */
53
54#define DLEVEL 0
55#define STATIC_IN_RTL_SIM 0
56#define STATIC_SKIP_DELAY_LOOPS 0
57
58#define STATIC_CALIB_STEPS (STATIC_IN_RTL_SIM | CALIB_SKIP_FULL_TEST | \
59 STATIC_SKIP_DELAY_LOOPS)
60
61/* calibration steps requested by the rtl */
62uint16_t dyn_calib_steps;
63
64/*
65 * To make CALIB_SKIP_DELAY_LOOPS a dynamic conditional option
66 * instead of static, we use boolean logic to select between
67 * non-skip and skip values
68 *
69 * The mask is set to include all bits when not-skipping, but is
70 * zero when skipping
71 */
72
73uint16_t skip_delay_mask; /* mask off bits when skipping/not-skipping */
74
75#define SKIP_DELAY_LOOP_VALUE_OR_ZERO(non_skip_value) \
76 ((non_skip_value) & skip_delay_mask)
77
78struct gbl_type *gbl;
79struct param_type *param;
80uint32_t curr_shadow_reg;
81
82static uint32_t rw_mgr_mem_calibrate_write_test(uint32_t rank_bgn,
83 uint32_t write_group, uint32_t use_dm,
84 uint32_t all_correct, uint32_t *bit_chk, uint32_t all_ranks);
85
Dinh Nguyen135cc7f2015-06-02 22:52:49 -050086static void set_failing_group_stage(uint32_t group, uint32_t stage,
87 uint32_t substage)
88{
89 /*
90 * Only set the global stage if there was not been any other
91 * failing group
92 */
93 if (gbl->error_stage == CAL_STAGE_NIL) {
94 gbl->error_substage = substage;
95 gbl->error_stage = stage;
96 gbl->error_group = group;
97 }
98}
99
Marek Vasut6eeb7472015-07-12 21:10:24 +0200100static void reg_file_set_group(u16 set_group)
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500101{
Marek Vasut6eeb7472015-07-12 21:10:24 +0200102 clrsetbits_le32(&sdr_reg_file->cur_stage, 0xffff0000, set_group << 16);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500103}
104
Marek Vasut6eeb7472015-07-12 21:10:24 +0200105static void reg_file_set_stage(u8 set_stage)
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500106{
Marek Vasut6eeb7472015-07-12 21:10:24 +0200107 clrsetbits_le32(&sdr_reg_file->cur_stage, 0xffff, set_stage & 0xff);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500108}
109
Marek Vasut6eeb7472015-07-12 21:10:24 +0200110static void reg_file_set_sub_stage(u8 set_sub_stage)
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500111{
Marek Vasut6eeb7472015-07-12 21:10:24 +0200112 set_sub_stage &= 0xff;
113 clrsetbits_le32(&sdr_reg_file->cur_stage, 0xff00, set_sub_stage << 8);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500114}
115
116static void initialize(void)
117{
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500118 debug("%s:%d\n", __func__, __LINE__);
119 /* USER calibration has control over path to memory */
120 /*
121 * In Hard PHY this is a 2-bit control:
122 * 0: AFI Mux Select
123 * 1: DDIO Mux Select
124 */
Marek Vasutb5450962015-07-12 21:05:08 +0200125 writel(0x3, &phy_mgr_cfg->mux_sel);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500126
127 /* USER memory clock is not stable we begin initialization */
Marek Vasutb5450962015-07-12 21:05:08 +0200128 writel(0, &phy_mgr_cfg->reset_mem_stbl);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500129
130 /* USER calibration status all set to zero */
Marek Vasutb5450962015-07-12 21:05:08 +0200131 writel(0, &phy_mgr_cfg->cal_status);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500132
Marek Vasutb5450962015-07-12 21:05:08 +0200133 writel(0, &phy_mgr_cfg->cal_debug_info);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500134
135 if ((dyn_calib_steps & CALIB_SKIP_ALL) != CALIB_SKIP_ALL) {
136 param->read_correct_mask_vg = ((uint32_t)1 <<
137 (RW_MGR_MEM_DQ_PER_READ_DQS /
138 RW_MGR_MEM_VIRTUAL_GROUPS_PER_READ_DQS)) - 1;
139 param->write_correct_mask_vg = ((uint32_t)1 <<
140 (RW_MGR_MEM_DQ_PER_READ_DQS /
141 RW_MGR_MEM_VIRTUAL_GROUPS_PER_READ_DQS)) - 1;
142 param->read_correct_mask = ((uint32_t)1 <<
143 RW_MGR_MEM_DQ_PER_READ_DQS) - 1;
144 param->write_correct_mask = ((uint32_t)1 <<
145 RW_MGR_MEM_DQ_PER_WRITE_DQS) - 1;
146 param->dm_correct_mask = ((uint32_t)1 <<
147 (RW_MGR_MEM_DATA_WIDTH / RW_MGR_MEM_DATA_MASK_WIDTH))
148 - 1;
149 }
150}
151
152static void set_rank_and_odt_mask(uint32_t rank, uint32_t odt_mode)
153{
154 uint32_t odt_mask_0 = 0;
155 uint32_t odt_mask_1 = 0;
156 uint32_t cs_and_odt_mask;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500157
158 if (odt_mode == RW_MGR_ODT_MODE_READ_WRITE) {
159 if (RW_MGR_MEM_NUMBER_OF_RANKS == 1) {
160 /*
161 * 1 Rank
162 * Read: ODT = 0
163 * Write: ODT = 1
164 */
165 odt_mask_0 = 0x0;
166 odt_mask_1 = 0x1;
167 } else if (RW_MGR_MEM_NUMBER_OF_RANKS == 2) {
168 /* 2 Ranks */
169 if (RW_MGR_MEM_NUMBER_OF_CS_PER_DIMM == 1) {
170 /* - Dual-Slot , Single-Rank
171 * (1 chip-select per DIMM)
172 * OR
173 * - RDIMM, 4 total CS (2 CS per DIMM)
174 * means 2 DIMM
175 * Since MEM_NUMBER_OF_RANKS is 2 they are
176 * both single rank
177 * with 2 CS each (special for RDIMM)
178 * Read: Turn on ODT on the opposite rank
179 * Write: Turn on ODT on all ranks
180 */
181 odt_mask_0 = 0x3 & ~(1 << rank);
182 odt_mask_1 = 0x3;
183 } else {
184 /*
185 * USER - Single-Slot , Dual-rank DIMMs
186 * (2 chip-selects per DIMM)
187 * USER Read: Turn on ODT off on all ranks
188 * USER Write: Turn on ODT on active rank
189 */
190 odt_mask_0 = 0x0;
191 odt_mask_1 = 0x3 & (1 << rank);
192 }
Marek Vasutf84348d2015-07-18 02:23:29 +0200193 } else {
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500194 /* 4 Ranks
195 * Read:
196 * ----------+-----------------------+
197 * | |
198 * | ODT |
199 * Read From +-----------------------+
200 * Rank | 3 | 2 | 1 | 0 |
201 * ----------+-----+-----+-----+-----+
202 * 0 | 0 | 1 | 0 | 0 |
203 * 1 | 1 | 0 | 0 | 0 |
204 * 2 | 0 | 0 | 0 | 1 |
205 * 3 | 0 | 0 | 1 | 0 |
206 * ----------+-----+-----+-----+-----+
207 *
208 * Write:
209 * ----------+-----------------------+
210 * | |
211 * | ODT |
212 * Write To +-----------------------+
213 * Rank | 3 | 2 | 1 | 0 |
214 * ----------+-----+-----+-----+-----+
215 * 0 | 0 | 1 | 0 | 1 |
216 * 1 | 1 | 0 | 1 | 0 |
217 * 2 | 0 | 1 | 0 | 1 |
218 * 3 | 1 | 0 | 1 | 0 |
219 * ----------+-----+-----+-----+-----+
220 */
221 switch (rank) {
222 case 0:
223 odt_mask_0 = 0x4;
224 odt_mask_1 = 0x5;
225 break;
226 case 1:
227 odt_mask_0 = 0x8;
228 odt_mask_1 = 0xA;
229 break;
230 case 2:
231 odt_mask_0 = 0x1;
232 odt_mask_1 = 0x5;
233 break;
234 case 3:
235 odt_mask_0 = 0x2;
236 odt_mask_1 = 0xA;
237 break;
238 }
239 }
240 } else {
241 odt_mask_0 = 0x0;
242 odt_mask_1 = 0x0;
243 }
244
245 cs_and_odt_mask =
246 (0xFF & ~(1 << rank)) |
247 ((0xFF & odt_mask_0) << 8) |
248 ((0xFF & odt_mask_1) << 16);
Marek Vasutb5450962015-07-12 21:05:08 +0200249 writel(cs_and_odt_mask, SDR_PHYGRP_RWMGRGRP_ADDRESS |
250 RW_MGR_SET_CS_AND_ODT_MASK_OFFSET);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500251}
252
Marek Vasut303a3dc2015-07-12 22:28:33 +0200253/**
254 * scc_mgr_set() - Set SCC Manager register
255 * @off: Base offset in SCC Manager space
256 * @grp: Read/Write group
257 * @val: Value to be set
258 *
259 * This function sets the SCC Manager (Scan Chain Control Manager) register.
260 */
261static void scc_mgr_set(u32 off, u32 grp, u32 val)
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500262{
Marek Vasut303a3dc2015-07-12 22:28:33 +0200263 writel(val, SDR_PHYGRP_SCCGRP_ADDRESS | off | (grp << 2));
264}
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500265
Marek Vasut8957b492015-07-20 07:16:42 +0200266/**
267 * scc_mgr_initialize() - Initialize SCC Manager registers
268 *
269 * Initialize SCC Manager registers.
270 */
Marek Vasut303a3dc2015-07-12 22:28:33 +0200271static void scc_mgr_initialize(void)
272{
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500273 /*
Marek Vasut8957b492015-07-20 07:16:42 +0200274 * Clear register file for HPS. 16 (2^4) is the size of the
275 * full register file in the scc mgr:
276 * RFILE_DEPTH = 1 + log2(MEM_DQ_PER_DQS + 1 + MEM_DM_PER_DQS +
277 * MEM_IF_READ_DQS_WIDTH - 1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500278 */
Marek Vasut303a3dc2015-07-12 22:28:33 +0200279 int i;
Marek Vasut8957b492015-07-20 07:16:42 +0200280
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500281 for (i = 0; i < 16; i++) {
Marek Vasut0eacf7e2015-06-26 18:56:54 +0200282 debug_cond(DLEVEL == 1, "%s:%d: Clearing SCC RFILE index %u\n",
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500283 __func__, __LINE__, i);
Marek Vasut303a3dc2015-07-12 22:28:33 +0200284 scc_mgr_set(SCC_MGR_HHP_RFILE_OFFSET, 0, i);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500285 }
286}
287
Marek Vasut7481b692015-07-12 22:11:55 +0200288static void scc_mgr_set_dqdqs_output_phase(uint32_t write_group, uint32_t phase)
289{
Marek Vasut303a3dc2015-07-12 22:28:33 +0200290 scc_mgr_set(SCC_MGR_DQDQS_OUT_PHASE_OFFSET, write_group, phase);
Marek Vasut7481b692015-07-12 22:11:55 +0200291}
292
293static void scc_mgr_set_dqs_bus_in_delay(uint32_t read_group, uint32_t delay)
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500294{
Marek Vasut303a3dc2015-07-12 22:28:33 +0200295 scc_mgr_set(SCC_MGR_DQS_IN_DELAY_OFFSET, read_group, delay);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500296}
297
Marek Vasut7481b692015-07-12 22:11:55 +0200298static void scc_mgr_set_dqs_en_phase(uint32_t read_group, uint32_t phase)
299{
Marek Vasut303a3dc2015-07-12 22:28:33 +0200300 scc_mgr_set(SCC_MGR_DQS_EN_PHASE_OFFSET, read_group, phase);
Marek Vasut7481b692015-07-12 22:11:55 +0200301}
302
303static void scc_mgr_set_dqs_en_delay(uint32_t read_group, uint32_t delay)
304{
Marek Vasut303a3dc2015-07-12 22:28:33 +0200305 scc_mgr_set(SCC_MGR_DQS_EN_DELAY_OFFSET, read_group, delay);
Marek Vasut7481b692015-07-12 22:11:55 +0200306}
307
308static void scc_mgr_set_dqs_io_in_delay(uint32_t write_group, uint32_t delay)
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500309{
Marek Vasut303a3dc2015-07-12 22:28:33 +0200310 scc_mgr_set(SCC_MGR_IO_IN_DELAY_OFFSET, RW_MGR_MEM_DQ_PER_WRITE_DQS,
311 delay);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500312}
313
Marek Vasut7481b692015-07-12 22:11:55 +0200314static void scc_mgr_set_dq_in_delay(uint32_t dq_in_group, uint32_t delay)
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500315{
Marek Vasut303a3dc2015-07-12 22:28:33 +0200316 scc_mgr_set(SCC_MGR_IO_IN_DELAY_OFFSET, dq_in_group, delay);
Marek Vasut7481b692015-07-12 22:11:55 +0200317}
318
319static void scc_mgr_set_dq_out1_delay(uint32_t dq_in_group, uint32_t delay)
320{
Marek Vasut303a3dc2015-07-12 22:28:33 +0200321 scc_mgr_set(SCC_MGR_IO_OUT1_DELAY_OFFSET, dq_in_group, delay);
Marek Vasut7481b692015-07-12 22:11:55 +0200322}
323
324static void scc_mgr_set_dqs_out1_delay(uint32_t write_group,
325 uint32_t delay)
326{
Marek Vasut303a3dc2015-07-12 22:28:33 +0200327 scc_mgr_set(SCC_MGR_IO_OUT1_DELAY_OFFSET, RW_MGR_MEM_DQ_PER_WRITE_DQS,
328 delay);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500329}
330
Marek Vasut7481b692015-07-12 22:11:55 +0200331static void scc_mgr_set_dm_out1_delay(uint32_t dm, uint32_t delay)
332{
Marek Vasut303a3dc2015-07-12 22:28:33 +0200333 scc_mgr_set(SCC_MGR_IO_OUT1_DELAY_OFFSET,
334 RW_MGR_MEM_DQ_PER_WRITE_DQS + 1 + dm,
335 delay);
Marek Vasut7481b692015-07-12 22:11:55 +0200336}
337
338/* load up dqs config settings */
339static void scc_mgr_load_dqs(uint32_t dqs)
340{
341 writel(dqs, &sdr_scc_mgr->dqs_ena);
342}
343
344/* load up dqs io config settings */
345static void scc_mgr_load_dqs_io(void)
346{
347 writel(0, &sdr_scc_mgr->dqs_io_ena);
348}
349
350/* load up dq config settings */
351static void scc_mgr_load_dq(uint32_t dq_in_group)
352{
353 writel(dq_in_group, &sdr_scc_mgr->dq_ena);
354}
355
356/* load up dm config settings */
357static void scc_mgr_load_dm(uint32_t dm)
358{
359 writel(dm, &sdr_scc_mgr->dm_ena);
360}
361
Marek Vasut1d3cde32015-07-12 23:25:21 +0200362/**
363 * scc_mgr_set_all_ranks() - Set SCC Manager register for all ranks
364 * @off: Base offset in SCC Manager space
365 * @grp: Read/Write group
366 * @val: Value to be set
367 * @update: If non-zero, trigger SCC Manager update for all ranks
368 *
369 * This function sets the SCC Manager (Scan Chain Control Manager) register
370 * and optionally triggers the SCC update for all ranks.
371 */
372static void scc_mgr_set_all_ranks(const u32 off, const u32 grp, const u32 val,
373 const int update)
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500374{
Marek Vasut1d3cde32015-07-12 23:25:21 +0200375 u32 r;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500376
377 for (r = 0; r < RW_MGR_MEM_NUMBER_OF_RANKS;
378 r += NUM_RANKS_PER_SHADOW_REG) {
Marek Vasut1d3cde32015-07-12 23:25:21 +0200379 scc_mgr_set(off, grp, val);
Marek Vasut49722822015-07-12 23:14:33 +0200380
Marek Vasut1d3cde32015-07-12 23:25:21 +0200381 if (update || (r == 0)) {
382 writel(grp, &sdr_scc_mgr->dqs_ena);
Marek Vasutb5450962015-07-12 21:05:08 +0200383 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500384 }
385 }
386}
387
Marek Vasut1d3cde32015-07-12 23:25:21 +0200388static void scc_mgr_set_dqs_en_phase_all_ranks(u32 read_group, u32 phase)
389{
390 /*
391 * USER although the h/w doesn't support different phases per
392 * shadow register, for simplicity our scc manager modeling
393 * keeps different phase settings per shadow reg, and it's
394 * important for us to keep them in sync to match h/w.
395 * for efficiency, the scan chain update should occur only
396 * once to sr0.
397 */
398 scc_mgr_set_all_ranks(SCC_MGR_DQS_EN_PHASE_OFFSET,
399 read_group, phase, 0);
400}
401
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500402static void scc_mgr_set_dqdqs_output_phase_all_ranks(uint32_t write_group,
403 uint32_t phase)
404{
Marek Vasut1d3cde32015-07-12 23:25:21 +0200405 /*
406 * USER although the h/w doesn't support different phases per
407 * shadow register, for simplicity our scc manager modeling
408 * keeps different phase settings per shadow reg, and it's
409 * important for us to keep them in sync to match h/w.
410 * for efficiency, the scan chain update should occur only
411 * once to sr0.
412 */
413 scc_mgr_set_all_ranks(SCC_MGR_DQDQS_OUT_PHASE_OFFSET,
414 write_group, phase, 0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500415}
416
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500417static void scc_mgr_set_dqs_en_delay_all_ranks(uint32_t read_group,
418 uint32_t delay)
419{
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500420 /*
421 * In shadow register mode, the T11 settings are stored in
422 * registers in the core, which are updated by the DQS_ENA
423 * signals. Not issuing the SCC_MGR_UPD command allows us to
424 * save lots of rank switching overhead, by calling
425 * select_shadow_regs_for_update with update_scan_chains
426 * set to 0.
427 */
Marek Vasut1d3cde32015-07-12 23:25:21 +0200428 scc_mgr_set_all_ranks(SCC_MGR_DQS_EN_DELAY_OFFSET,
429 read_group, delay, 1);
Marek Vasutb5450962015-07-12 21:05:08 +0200430 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500431}
432
Marek Vasute62f6912015-07-12 23:39:06 +0200433/**
434 * scc_mgr_set_oct_out1_delay() - Set OCT output delay
435 * @write_group: Write group
436 * @delay: Delay value
437 *
438 * This function sets the OCT output delay in SCC manager.
439 */
440static void scc_mgr_set_oct_out1_delay(const u32 write_group, const u32 delay)
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500441{
Marek Vasute62f6912015-07-12 23:39:06 +0200442 const int ratio = RW_MGR_MEM_IF_READ_DQS_WIDTH /
443 RW_MGR_MEM_IF_WRITE_DQS_WIDTH;
444 const int base = write_group * ratio;
445 int i;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500446 /*
447 * Load the setting in the SCC manager
448 * Although OCT affects only write data, the OCT delay is controlled
449 * by the DQS logic block which is instantiated once per read group.
450 * For protocols where a write group consists of multiple read groups,
451 * the setting must be set multiple times.
452 */
Marek Vasute62f6912015-07-12 23:39:06 +0200453 for (i = 0; i < ratio; i++)
454 scc_mgr_set(SCC_MGR_OCT_OUT1_DELAY_OFFSET, base + i, delay);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500455}
456
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500457static void scc_mgr_set_hhp_extras(void)
458{
459 /*
460 * Load the fixed setting in the SCC manager
461 * bits: 0:0 = 1'b1 - dqs bypass
462 * bits: 1:1 = 1'b1 - dq bypass
463 * bits: 4:2 = 3'b001 - rfifo_mode
464 * bits: 6:5 = 2'b01 - rfifo clock_select
465 * bits: 7:7 = 1'b0 - separate gating from ungating setting
466 * bits: 8:8 = 1'b0 - separate OE from Output delay setting
467 */
468 uint32_t value = (0<<8) | (0<<7) | (1<<5) | (1<<2) | (1<<1) | (1<<0);
Marek Vasuta3340102015-07-12 19:03:33 +0200469 uint32_t addr = SDR_PHYGRP_SCCGRP_ADDRESS | SCC_MGR_HHP_GLOBALS_OFFSET;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500470
Marek Vasut33acf0f2015-07-12 20:05:54 +0200471 writel(value, addr + SCC_MGR_HHP_EXTRAS_OFFSET);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500472}
473
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500474/*
475 * USER Zero all DQS config
476 * TODO: maybe rename to scc_mgr_zero_dqs_config (or something)
477 */
478static void scc_mgr_zero_all(void)
479{
480 uint32_t i, r;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500481
482 /*
483 * USER Zero all DQS config settings, across all groups and all
484 * shadow registers
485 */
486 for (r = 0; r < RW_MGR_MEM_NUMBER_OF_RANKS; r +=
487 NUM_RANKS_PER_SHADOW_REG) {
488 for (i = 0; i < RW_MGR_MEM_IF_READ_DQS_WIDTH; i++) {
489 /*
490 * The phases actually don't exist on a per-rank basis,
491 * but there's no harm updating them several times, so
492 * let's keep the code simple.
493 */
494 scc_mgr_set_dqs_bus_in_delay(i, IO_DQS_IN_RESERVE);
495 scc_mgr_set_dqs_en_phase(i, 0);
496 scc_mgr_set_dqs_en_delay(i, 0);
497 }
498
499 for (i = 0; i < RW_MGR_MEM_IF_WRITE_DQS_WIDTH; i++) {
500 scc_mgr_set_dqdqs_output_phase(i, 0);
501 /* av/cv don't have out2 */
502 scc_mgr_set_oct_out1_delay(i, IO_DQS_OUT_RESERVE);
503 }
504 }
505
506 /* multicast to all DQS group enables */
Marek Vasutb5450962015-07-12 21:05:08 +0200507 writel(0xff, &sdr_scc_mgr->dqs_ena);
508 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500509}
510
Marek Vasut0341de42015-07-17 02:06:20 +0200511/**
512 * scc_set_bypass_mode() - Set bypass mode and trigger SCC update
513 * @write_group: Write group
514 *
515 * Set bypass mode and trigger SCC update.
516 */
517static void scc_set_bypass_mode(const u32 write_group)
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500518{
Marek Vasut0341de42015-07-17 02:06:20 +0200519 /* Only needed once to set all groups, pins, DQ, DQS, DM. */
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500520 if (write_group == 0) {
521 debug_cond(DLEVEL == 1, "%s:%d Setting HHP Extras\n", __func__,
522 __LINE__);
523 scc_mgr_set_hhp_extras();
524 debug_cond(DLEVEL == 1, "%s:%d Done Setting HHP Extras\n",
525 __func__, __LINE__);
526 }
Marek Vasut0341de42015-07-17 02:06:20 +0200527
528 /* Multicast to all DQ enables. */
Marek Vasutb5450962015-07-12 21:05:08 +0200529 writel(0xff, &sdr_scc_mgr->dq_ena);
530 writel(0xff, &sdr_scc_mgr->dm_ena);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500531
Marek Vasut0341de42015-07-17 02:06:20 +0200532 /* Update current DQS IO enable. */
Marek Vasutb5450962015-07-12 21:05:08 +0200533 writel(0, &sdr_scc_mgr->dqs_io_ena);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500534
Marek Vasut0341de42015-07-17 02:06:20 +0200535 /* Update the DQS logic. */
Marek Vasutb5450962015-07-12 21:05:08 +0200536 writel(write_group, &sdr_scc_mgr->dqs_ena);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500537
Marek Vasut0341de42015-07-17 02:06:20 +0200538 /* Hit update. */
Marek Vasutb5450962015-07-12 21:05:08 +0200539 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500540}
541
Marek Vasut5a4379e2015-07-13 00:30:09 +0200542/**
543 * scc_mgr_load_dqs_for_write_group() - Load DQS settings for Write Group
544 * @write_group: Write group
545 *
546 * Load DQS settings for Write Group, do not trigger SCC update.
547 */
548static void scc_mgr_load_dqs_for_write_group(const u32 write_group)
Marek Vasut7481b692015-07-12 22:11:55 +0200549{
Marek Vasut5a4379e2015-07-13 00:30:09 +0200550 const int ratio = RW_MGR_MEM_IF_READ_DQS_WIDTH /
551 RW_MGR_MEM_IF_WRITE_DQS_WIDTH;
552 const int base = write_group * ratio;
553 int i;
Marek Vasut7481b692015-07-12 22:11:55 +0200554 /*
Marek Vasut5a4379e2015-07-13 00:30:09 +0200555 * Load the setting in the SCC manager
Marek Vasut7481b692015-07-12 22:11:55 +0200556 * Although OCT affects only write data, the OCT delay is controlled
557 * by the DQS logic block which is instantiated once per read group.
558 * For protocols where a write group consists of multiple read groups,
Marek Vasut5a4379e2015-07-13 00:30:09 +0200559 * the setting must be set multiple times.
Marek Vasut7481b692015-07-12 22:11:55 +0200560 */
Marek Vasut5a4379e2015-07-13 00:30:09 +0200561 for (i = 0; i < ratio; i++)
562 writel(base + i, &sdr_scc_mgr->dqs_ena);
Marek Vasut7481b692015-07-12 22:11:55 +0200563}
564
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500565static void scc_mgr_zero_group(uint32_t write_group, uint32_t test_begin,
566 int32_t out_only)
567{
568 uint32_t i, r;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500569
570 for (r = 0; r < RW_MGR_MEM_NUMBER_OF_RANKS; r +=
571 NUM_RANKS_PER_SHADOW_REG) {
572 /* Zero all DQ config settings */
573 for (i = 0; i < RW_MGR_MEM_DQ_PER_WRITE_DQS; i++) {
Marek Vasutcab80792015-07-12 22:07:33 +0200574 scc_mgr_set_dq_out1_delay(i, 0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500575 if (!out_only)
Marek Vasutcab80792015-07-12 22:07:33 +0200576 scc_mgr_set_dq_in_delay(i, 0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500577 }
578
579 /* multicast to all DQ enables */
Marek Vasutb5450962015-07-12 21:05:08 +0200580 writel(0xff, &sdr_scc_mgr->dq_ena);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500581
582 /* Zero all DM config settings */
583 for (i = 0; i < RW_MGR_NUM_DM_PER_WRITE_GROUP; i++) {
Marek Vasutcab80792015-07-12 22:07:33 +0200584 scc_mgr_set_dm_out1_delay(i, 0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500585 }
586
587 /* multicast to all DM enables */
Marek Vasutb5450962015-07-12 21:05:08 +0200588 writel(0xff, &sdr_scc_mgr->dm_ena);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500589
590 /* zero all DQS io settings */
591 if (!out_only)
592 scc_mgr_set_dqs_io_in_delay(write_group, 0);
593 /* av/cv don't have out2 */
594 scc_mgr_set_dqs_out1_delay(write_group, IO_DQS_OUT_RESERVE);
595 scc_mgr_set_oct_out1_delay(write_group, IO_DQS_OUT_RESERVE);
596 scc_mgr_load_dqs_for_write_group(write_group);
597
598 /* multicast to all DQS IO enables (only 1) */
Marek Vasutb5450962015-07-12 21:05:08 +0200599 writel(0, &sdr_scc_mgr->dqs_io_ena);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500600
601 /* hit update to zero everything */
Marek Vasutb5450962015-07-12 21:05:08 +0200602 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500603 }
604}
605
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500606/*
607 * apply and load a particular input delay for the DQ pins in a group
608 * group_bgn is the index of the first dq pin (in the write group)
609 */
610static void scc_mgr_apply_group_dq_in_delay(uint32_t write_group,
611 uint32_t group_bgn, uint32_t delay)
612{
613 uint32_t i, p;
614
615 for (i = 0, p = group_bgn; i < RW_MGR_MEM_DQ_PER_READ_DQS; i++, p++) {
Marek Vasutcab80792015-07-12 22:07:33 +0200616 scc_mgr_set_dq_in_delay(p, delay);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500617 scc_mgr_load_dq(p);
618 }
619}
620
621/* apply and load a particular output delay for the DQ pins in a group */
622static void scc_mgr_apply_group_dq_out1_delay(uint32_t write_group,
623 uint32_t group_bgn,
624 uint32_t delay1)
625{
626 uint32_t i, p;
627
628 for (i = 0, p = group_bgn; i < RW_MGR_MEM_DQ_PER_WRITE_DQS; i++, p++) {
Marek Vasutcab80792015-07-12 22:07:33 +0200629 scc_mgr_set_dq_out1_delay(i, delay1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500630 scc_mgr_load_dq(i);
631 }
632}
633
634/* apply and load a particular output delay for the DM pins in a group */
635static void scc_mgr_apply_group_dm_out1_delay(uint32_t write_group,
636 uint32_t delay1)
637{
638 uint32_t i;
639
640 for (i = 0; i < RW_MGR_NUM_DM_PER_WRITE_GROUP; i++) {
Marek Vasutcab80792015-07-12 22:07:33 +0200641 scc_mgr_set_dm_out1_delay(i, delay1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500642 scc_mgr_load_dm(i);
643 }
644}
645
646
647/* apply and load delay on both DQS and OCT out1 */
648static void scc_mgr_apply_group_dqs_io_and_oct_out1(uint32_t write_group,
649 uint32_t delay)
650{
651 scc_mgr_set_dqs_out1_delay(write_group, delay);
652 scc_mgr_load_dqs_io();
653
654 scc_mgr_set_oct_out1_delay(write_group, delay);
655 scc_mgr_load_dqs_for_write_group(write_group);
656}
657
658/* apply a delay to the entire output side: DQ, DM, DQS, OCT */
659static void scc_mgr_apply_group_all_out_delay_add(uint32_t write_group,
660 uint32_t group_bgn,
661 uint32_t delay)
662{
663 uint32_t i, p, new_delay;
664
665 /* dq shift */
666 for (i = 0, p = group_bgn; i < RW_MGR_MEM_DQ_PER_WRITE_DQS; i++, p++) {
667 new_delay = READ_SCC_DQ_OUT2_DELAY;
668 new_delay += delay;
669
670 if (new_delay > IO_IO_OUT2_DELAY_MAX) {
671 debug_cond(DLEVEL == 1, "%s:%d (%u, %u, %u) DQ[%u,%u]:\
672 %u > %lu => %lu", __func__, __LINE__,
673 write_group, group_bgn, delay, i, p, new_delay,
674 (long unsigned int)IO_IO_OUT2_DELAY_MAX,
675 (long unsigned int)IO_IO_OUT2_DELAY_MAX);
676 new_delay = IO_IO_OUT2_DELAY_MAX;
677 }
678
679 scc_mgr_load_dq(i);
680 }
681
682 /* dm shift */
683 for (i = 0; i < RW_MGR_NUM_DM_PER_WRITE_GROUP; i++) {
684 new_delay = READ_SCC_DM_IO_OUT2_DELAY;
685 new_delay += delay;
686
687 if (new_delay > IO_IO_OUT2_DELAY_MAX) {
688 debug_cond(DLEVEL == 1, "%s:%d (%u, %u, %u) DM[%u]:\
689 %u > %lu => %lu\n", __func__, __LINE__,
690 write_group, group_bgn, delay, i, new_delay,
691 (long unsigned int)IO_IO_OUT2_DELAY_MAX,
692 (long unsigned int)IO_IO_OUT2_DELAY_MAX);
693 new_delay = IO_IO_OUT2_DELAY_MAX;
694 }
695
696 scc_mgr_load_dm(i);
697 }
698
699 /* dqs shift */
700 new_delay = READ_SCC_DQS_IO_OUT2_DELAY;
701 new_delay += delay;
702
703 if (new_delay > IO_IO_OUT2_DELAY_MAX) {
704 debug_cond(DLEVEL == 1, "%s:%d (%u, %u, %u) DQS: %u > %d => %d;"
705 " adding %u to OUT1\n", __func__, __LINE__,
706 write_group, group_bgn, delay, new_delay,
707 IO_IO_OUT2_DELAY_MAX, IO_IO_OUT2_DELAY_MAX,
708 new_delay - IO_IO_OUT2_DELAY_MAX);
709 scc_mgr_set_dqs_out1_delay(write_group, new_delay -
710 IO_IO_OUT2_DELAY_MAX);
711 new_delay = IO_IO_OUT2_DELAY_MAX;
712 }
713
714 scc_mgr_load_dqs_io();
715
716 /* oct shift */
717 new_delay = READ_SCC_OCT_OUT2_DELAY;
718 new_delay += delay;
719
720 if (new_delay > IO_IO_OUT2_DELAY_MAX) {
721 debug_cond(DLEVEL == 1, "%s:%d (%u, %u, %u) DQS: %u > %d => %d;"
722 " adding %u to OUT1\n", __func__, __LINE__,
723 write_group, group_bgn, delay, new_delay,
724 IO_IO_OUT2_DELAY_MAX, IO_IO_OUT2_DELAY_MAX,
725 new_delay - IO_IO_OUT2_DELAY_MAX);
726 scc_mgr_set_oct_out1_delay(write_group, new_delay -
727 IO_IO_OUT2_DELAY_MAX);
728 new_delay = IO_IO_OUT2_DELAY_MAX;
729 }
730
731 scc_mgr_load_dqs_for_write_group(write_group);
732}
733
734/*
735 * USER apply a delay to the entire output side (DQ, DM, DQS, OCT)
736 * and to all ranks
737 */
738static void scc_mgr_apply_group_all_out_delay_add_all_ranks(
739 uint32_t write_group, uint32_t group_bgn, uint32_t delay)
740{
741 uint32_t r;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500742
743 for (r = 0; r < RW_MGR_MEM_NUMBER_OF_RANKS;
744 r += NUM_RANKS_PER_SHADOW_REG) {
745 scc_mgr_apply_group_all_out_delay_add(write_group,
746 group_bgn, delay);
Marek Vasutb5450962015-07-12 21:05:08 +0200747 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500748 }
749}
750
751/* optimization used to recover some slots in ddr3 inst_rom */
752/* could be applied to other protocols if we wanted to */
753static void set_jump_as_return(void)
754{
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500755 /*
756 * to save space, we replace return with jump to special shared
757 * RETURN instruction so we set the counter to large value so that
758 * we always jump
759 */
Marek Vasutb5450962015-07-12 21:05:08 +0200760 writel(0xff, &sdr_rw_load_mgr_regs->load_cntr0);
761 writel(RW_MGR_RETURN, &sdr_rw_load_jump_mgr_regs->load_jump_add0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500762}
763
764/*
765 * should always use constants as argument to ensure all computations are
766 * performed at compile time
767 */
768static void delay_for_n_mem_clocks(const uint32_t clocks)
769{
770 uint32_t afi_clocks;
771 uint8_t inner = 0;
772 uint8_t outer = 0;
773 uint16_t c_loop = 0;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500774
775 debug("%s:%d: clocks=%u ... start\n", __func__, __LINE__, clocks);
776
777
778 afi_clocks = (clocks + AFI_RATE_RATIO-1) / AFI_RATE_RATIO;
779 /* scale (rounding up) to get afi clocks */
780
781 /*
782 * Note, we don't bother accounting for being off a little bit
783 * because of a few extra instructions in outer loops
784 * Note, the loops have a test at the end, and do the test before
785 * the decrement, and so always perform the loop
786 * 1 time more than the counter value
787 */
788 if (afi_clocks == 0) {
789 ;
790 } else if (afi_clocks <= 0x100) {
791 inner = afi_clocks-1;
792 outer = 0;
793 c_loop = 0;
794 } else if (afi_clocks <= 0x10000) {
795 inner = 0xff;
796 outer = (afi_clocks-1) >> 8;
797 c_loop = 0;
798 } else {
799 inner = 0xff;
800 outer = 0xff;
801 c_loop = (afi_clocks-1) >> 16;
802 }
803
804 /*
805 * rom instructions are structured as follows:
806 *
807 * IDLE_LOOP2: jnz cntr0, TARGET_A
808 * IDLE_LOOP1: jnz cntr1, TARGET_B
809 * return
810 *
811 * so, when doing nested loops, TARGET_A is set to IDLE_LOOP2, and
812 * TARGET_B is set to IDLE_LOOP2 as well
813 *
814 * if we have no outer loop, though, then we can use IDLE_LOOP1 only,
815 * and set TARGET_B to IDLE_LOOP1 and we skip IDLE_LOOP2 entirely
816 *
817 * a little confusing, but it helps save precious space in the inst_rom
818 * and sequencer rom and keeps the delays more accurate and reduces
819 * overhead
820 */
821 if (afi_clocks <= 0x100) {
Marek Vasutb5450962015-07-12 21:05:08 +0200822 writel(SKIP_DELAY_LOOP_VALUE_OR_ZERO(inner),
823 &sdr_rw_load_mgr_regs->load_cntr1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500824
Marek Vasutb5450962015-07-12 21:05:08 +0200825 writel(RW_MGR_IDLE_LOOP1,
826 &sdr_rw_load_jump_mgr_regs->load_jump_add1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500827
Marek Vasutb5450962015-07-12 21:05:08 +0200828 writel(RW_MGR_IDLE_LOOP1, SDR_PHYGRP_RWMGRGRP_ADDRESS |
829 RW_MGR_RUN_SINGLE_GROUP_OFFSET);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500830 } else {
Marek Vasutb5450962015-07-12 21:05:08 +0200831 writel(SKIP_DELAY_LOOP_VALUE_OR_ZERO(inner),
832 &sdr_rw_load_mgr_regs->load_cntr0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500833
Marek Vasutb5450962015-07-12 21:05:08 +0200834 writel(SKIP_DELAY_LOOP_VALUE_OR_ZERO(outer),
835 &sdr_rw_load_mgr_regs->load_cntr1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500836
Marek Vasutb5450962015-07-12 21:05:08 +0200837 writel(RW_MGR_IDLE_LOOP2,
838 &sdr_rw_load_jump_mgr_regs->load_jump_add0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500839
Marek Vasutb5450962015-07-12 21:05:08 +0200840 writel(RW_MGR_IDLE_LOOP2,
841 &sdr_rw_load_jump_mgr_regs->load_jump_add1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500842
843 /* hack to get around compiler not being smart enough */
844 if (afi_clocks <= 0x10000) {
845 /* only need to run once */
Marek Vasutb5450962015-07-12 21:05:08 +0200846 writel(RW_MGR_IDLE_LOOP2, SDR_PHYGRP_RWMGRGRP_ADDRESS |
847 RW_MGR_RUN_SINGLE_GROUP_OFFSET);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500848 } else {
849 do {
Marek Vasutb5450962015-07-12 21:05:08 +0200850 writel(RW_MGR_IDLE_LOOP2,
851 SDR_PHYGRP_RWMGRGRP_ADDRESS |
852 RW_MGR_RUN_SINGLE_GROUP_OFFSET);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500853 } while (c_loop-- != 0);
854 }
855 }
856 debug("%s:%d clocks=%u ... end\n", __func__, __LINE__, clocks);
857}
858
859static void rw_mgr_mem_initialize(void)
860{
861 uint32_t r;
Marek Vasutb5450962015-07-12 21:05:08 +0200862 uint32_t grpaddr = SDR_PHYGRP_RWMGRGRP_ADDRESS |
863 RW_MGR_RUN_SINGLE_GROUP_OFFSET;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500864
865 debug("%s:%d\n", __func__, __LINE__);
866
867 /* The reset / cke part of initialization is broadcasted to all ranks */
Marek Vasutb5450962015-07-12 21:05:08 +0200868 writel(RW_MGR_RANK_ALL, SDR_PHYGRP_RWMGRGRP_ADDRESS |
869 RW_MGR_SET_CS_AND_ODT_MASK_OFFSET);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500870
871 /*
872 * Here's how you load register for a loop
873 * Counters are located @ 0x800
874 * Jump address are located @ 0xC00
875 * For both, registers 0 to 3 are selected using bits 3 and 2, like
876 * in 0x800, 0x804, 0x808, 0x80C and 0xC00, 0xC04, 0xC08, 0xC0C
877 * I know this ain't pretty, but Avalon bus throws away the 2 least
878 * significant bits
879 */
880
881 /* start with memory RESET activated */
882
883 /* tINIT = 200us */
884
885 /*
886 * 200us @ 266MHz (3.75 ns) ~ 54000 clock cycles
887 * If a and b are the number of iteration in 2 nested loops
888 * it takes the following number of cycles to complete the operation:
889 * number_of_cycles = ((2 + n) * a + 2) * b
890 * where n is the number of instruction in the inner loop
891 * One possible solution is n = 0 , a = 256 , b = 106 => a = FF,
892 * b = 6A
893 */
894
895 /* Load counters */
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500896 writel(SKIP_DELAY_LOOP_VALUE_OR_ZERO(SEQ_TINIT_CNTR0_VAL),
Marek Vasutb5450962015-07-12 21:05:08 +0200897 &sdr_rw_load_mgr_regs->load_cntr0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500898 writel(SKIP_DELAY_LOOP_VALUE_OR_ZERO(SEQ_TINIT_CNTR1_VAL),
Marek Vasutb5450962015-07-12 21:05:08 +0200899 &sdr_rw_load_mgr_regs->load_cntr1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500900 writel(SKIP_DELAY_LOOP_VALUE_OR_ZERO(SEQ_TINIT_CNTR2_VAL),
Marek Vasutb5450962015-07-12 21:05:08 +0200901 &sdr_rw_load_mgr_regs->load_cntr2);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500902
903 /* Load jump address */
Marek Vasutb5450962015-07-12 21:05:08 +0200904 writel(RW_MGR_INIT_RESET_0_CKE_0,
905 &sdr_rw_load_jump_mgr_regs->load_jump_add0);
906 writel(RW_MGR_INIT_RESET_0_CKE_0,
907 &sdr_rw_load_jump_mgr_regs->load_jump_add1);
908 writel(RW_MGR_INIT_RESET_0_CKE_0,
909 &sdr_rw_load_jump_mgr_regs->load_jump_add2);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500910
911 /* Execute count instruction */
Marek Vasutb5450962015-07-12 21:05:08 +0200912 writel(RW_MGR_INIT_RESET_0_CKE_0, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500913
914 /* indicate that memory is stable */
Marek Vasutb5450962015-07-12 21:05:08 +0200915 writel(1, &phy_mgr_cfg->reset_mem_stbl);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500916
917 /*
918 * transition the RESET to high
919 * Wait for 500us
920 */
921
922 /*
923 * 500us @ 266MHz (3.75 ns) ~ 134000 clock cycles
924 * If a and b are the number of iteration in 2 nested loops
925 * it takes the following number of cycles to complete the operation
926 * number_of_cycles = ((2 + n) * a + 2) * b
927 * where n is the number of instruction in the inner loop
928 * One possible solution is n = 2 , a = 131 , b = 256 => a = 83,
929 * b = FF
930 */
931
932 /* Load counters */
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500933 writel(SKIP_DELAY_LOOP_VALUE_OR_ZERO(SEQ_TRESET_CNTR0_VAL),
Marek Vasutb5450962015-07-12 21:05:08 +0200934 &sdr_rw_load_mgr_regs->load_cntr0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500935 writel(SKIP_DELAY_LOOP_VALUE_OR_ZERO(SEQ_TRESET_CNTR1_VAL),
Marek Vasutb5450962015-07-12 21:05:08 +0200936 &sdr_rw_load_mgr_regs->load_cntr1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500937 writel(SKIP_DELAY_LOOP_VALUE_OR_ZERO(SEQ_TRESET_CNTR2_VAL),
Marek Vasutb5450962015-07-12 21:05:08 +0200938 &sdr_rw_load_mgr_regs->load_cntr2);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500939
940 /* Load jump address */
Marek Vasutb5450962015-07-12 21:05:08 +0200941 writel(RW_MGR_INIT_RESET_1_CKE_0,
942 &sdr_rw_load_jump_mgr_regs->load_jump_add0);
943 writel(RW_MGR_INIT_RESET_1_CKE_0,
944 &sdr_rw_load_jump_mgr_regs->load_jump_add1);
945 writel(RW_MGR_INIT_RESET_1_CKE_0,
946 &sdr_rw_load_jump_mgr_regs->load_jump_add2);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500947
Marek Vasutb5450962015-07-12 21:05:08 +0200948 writel(RW_MGR_INIT_RESET_1_CKE_0, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500949
950 /* bring up clock enable */
951
952 /* tXRP < 250 ck cycles */
953 delay_for_n_mem_clocks(250);
954
955 for (r = 0; r < RW_MGR_MEM_NUMBER_OF_RANKS; r++) {
956 if (param->skip_ranks[r]) {
957 /* request to skip the rank */
958 continue;
959 }
960
961 /* set rank */
962 set_rank_and_odt_mask(r, RW_MGR_ODT_MODE_OFF);
963
964 /*
965 * USER Use Mirror-ed commands for odd ranks if address
966 * mirrorring is on
967 */
968 if ((RW_MGR_MEM_ADDRESS_MIRRORING >> r) & 0x1) {
969 set_jump_as_return();
Marek Vasutb5450962015-07-12 21:05:08 +0200970 writel(RW_MGR_MRS2_MIRR, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500971 delay_for_n_mem_clocks(4);
972 set_jump_as_return();
Marek Vasutb5450962015-07-12 21:05:08 +0200973 writel(RW_MGR_MRS3_MIRR, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500974 delay_for_n_mem_clocks(4);
975 set_jump_as_return();
Marek Vasutb5450962015-07-12 21:05:08 +0200976 writel(RW_MGR_MRS1_MIRR, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500977 delay_for_n_mem_clocks(4);
978 set_jump_as_return();
Marek Vasutb5450962015-07-12 21:05:08 +0200979 writel(RW_MGR_MRS0_DLL_RESET_MIRR, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500980 } else {
981 set_jump_as_return();
Marek Vasutb5450962015-07-12 21:05:08 +0200982 writel(RW_MGR_MRS2, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500983 delay_for_n_mem_clocks(4);
984 set_jump_as_return();
Marek Vasutb5450962015-07-12 21:05:08 +0200985 writel(RW_MGR_MRS3, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500986 delay_for_n_mem_clocks(4);
987 set_jump_as_return();
Marek Vasutb5450962015-07-12 21:05:08 +0200988 writel(RW_MGR_MRS1, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500989 set_jump_as_return();
Marek Vasutb5450962015-07-12 21:05:08 +0200990 writel(RW_MGR_MRS0_DLL_RESET, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500991 }
992 set_jump_as_return();
Marek Vasutb5450962015-07-12 21:05:08 +0200993 writel(RW_MGR_ZQCL, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -0500994
995 /* tZQinit = tDLLK = 512 ck cycles */
996 delay_for_n_mem_clocks(512);
997 }
998}
999
1000/*
1001 * At the end of calibration we have to program the user settings in, and
1002 * USER hand off the memory to the user.
1003 */
1004static void rw_mgr_mem_handoff(void)
1005{
1006 uint32_t r;
Marek Vasutb5450962015-07-12 21:05:08 +02001007 uint32_t grpaddr = SDR_PHYGRP_RWMGRGRP_ADDRESS |
1008 RW_MGR_RUN_SINGLE_GROUP_OFFSET;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001009
1010 debug("%s:%d\n", __func__, __LINE__);
1011 for (r = 0; r < RW_MGR_MEM_NUMBER_OF_RANKS; r++) {
1012 if (param->skip_ranks[r])
1013 /* request to skip the rank */
1014 continue;
1015 /* set rank */
1016 set_rank_and_odt_mask(r, RW_MGR_ODT_MODE_OFF);
1017
1018 /* precharge all banks ... */
Marek Vasutb5450962015-07-12 21:05:08 +02001019 writel(RW_MGR_PRECHARGE_ALL, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001020
1021 /* load up MR settings specified by user */
1022
1023 /*
1024 * Use Mirror-ed commands for odd ranks if address
1025 * mirrorring is on
1026 */
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001027 if ((RW_MGR_MEM_ADDRESS_MIRRORING >> r) & 0x1) {
1028 set_jump_as_return();
Marek Vasutb5450962015-07-12 21:05:08 +02001029 writel(RW_MGR_MRS2_MIRR, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001030 delay_for_n_mem_clocks(4);
1031 set_jump_as_return();
Marek Vasutb5450962015-07-12 21:05:08 +02001032 writel(RW_MGR_MRS3_MIRR, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001033 delay_for_n_mem_clocks(4);
1034 set_jump_as_return();
Marek Vasutb5450962015-07-12 21:05:08 +02001035 writel(RW_MGR_MRS1_MIRR, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001036 delay_for_n_mem_clocks(4);
1037 set_jump_as_return();
Marek Vasutb5450962015-07-12 21:05:08 +02001038 writel(RW_MGR_MRS0_USER_MIRR, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001039 } else {
1040 set_jump_as_return();
Marek Vasutb5450962015-07-12 21:05:08 +02001041 writel(RW_MGR_MRS2, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001042 delay_for_n_mem_clocks(4);
1043 set_jump_as_return();
Marek Vasutb5450962015-07-12 21:05:08 +02001044 writel(RW_MGR_MRS3, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001045 delay_for_n_mem_clocks(4);
1046 set_jump_as_return();
Marek Vasutb5450962015-07-12 21:05:08 +02001047 writel(RW_MGR_MRS1, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001048 delay_for_n_mem_clocks(4);
1049 set_jump_as_return();
Marek Vasutb5450962015-07-12 21:05:08 +02001050 writel(RW_MGR_MRS0_USER, grpaddr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001051 }
1052 /*
1053 * USER need to wait tMOD (12CK or 15ns) time before issuing
1054 * other commands, but we will have plenty of NIOS cycles before
1055 * actual handoff so its okay.
1056 */
1057 }
1058}
1059
1060/*
1061 * performs a guaranteed read on the patterns we are going to use during a
1062 * read test to ensure memory works
1063 */
1064static uint32_t rw_mgr_mem_calibrate_read_test_patterns(uint32_t rank_bgn,
1065 uint32_t group, uint32_t num_tries, uint32_t *bit_chk,
1066 uint32_t all_ranks)
1067{
1068 uint32_t r, vg;
1069 uint32_t correct_mask_vg;
1070 uint32_t tmp_bit_chk;
1071 uint32_t rank_end = all_ranks ? RW_MGR_MEM_NUMBER_OF_RANKS :
1072 (rank_bgn + NUM_RANKS_PER_SHADOW_REG);
1073 uint32_t addr;
1074 uint32_t base_rw_mgr;
1075
1076 *bit_chk = param->read_correct_mask;
1077 correct_mask_vg = param->read_correct_mask_vg;
1078
1079 for (r = rank_bgn; r < rank_end; r++) {
1080 if (param->skip_ranks[r])
1081 /* request to skip the rank */
1082 continue;
1083
1084 /* set rank */
1085 set_rank_and_odt_mask(r, RW_MGR_ODT_MODE_READ_WRITE);
1086
1087 /* Load up a constant bursts of read commands */
Marek Vasutb5450962015-07-12 21:05:08 +02001088 writel(0x20, &sdr_rw_load_mgr_regs->load_cntr0);
1089 writel(RW_MGR_GUARANTEED_READ,
1090 &sdr_rw_load_jump_mgr_regs->load_jump_add0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001091
Marek Vasutb5450962015-07-12 21:05:08 +02001092 writel(0x20, &sdr_rw_load_mgr_regs->load_cntr1);
1093 writel(RW_MGR_GUARANTEED_READ_CONT,
1094 &sdr_rw_load_jump_mgr_regs->load_jump_add1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001095
1096 tmp_bit_chk = 0;
1097 for (vg = RW_MGR_MEM_VIRTUAL_GROUPS_PER_READ_DQS-1; ; vg--) {
1098 /* reset the fifos to get pointers to known state */
1099
Marek Vasutb5450962015-07-12 21:05:08 +02001100 writel(0, &phy_mgr_cmd->fifo_reset);
1101 writel(0, SDR_PHYGRP_RWMGRGRP_ADDRESS |
1102 RW_MGR_RESET_READ_DATAPATH_OFFSET);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001103
1104 tmp_bit_chk = tmp_bit_chk << (RW_MGR_MEM_DQ_PER_READ_DQS
1105 / RW_MGR_MEM_VIRTUAL_GROUPS_PER_READ_DQS);
1106
Marek Vasuta3340102015-07-12 19:03:33 +02001107 addr = SDR_PHYGRP_RWMGRGRP_ADDRESS | RW_MGR_RUN_SINGLE_GROUP_OFFSET;
Marek Vasut33acf0f2015-07-12 20:05:54 +02001108 writel(RW_MGR_GUARANTEED_READ, addr +
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001109 ((group * RW_MGR_MEM_VIRTUAL_GROUPS_PER_READ_DQS +
1110 vg) << 2));
1111
Marek Vasutb5450962015-07-12 21:05:08 +02001112 base_rw_mgr = readl(SDR_PHYGRP_RWMGRGRP_ADDRESS);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001113 tmp_bit_chk = tmp_bit_chk | (correct_mask_vg & (~base_rw_mgr));
1114
1115 if (vg == 0)
1116 break;
1117 }
1118 *bit_chk &= tmp_bit_chk;
1119 }
1120
Marek Vasuta3340102015-07-12 19:03:33 +02001121 addr = SDR_PHYGRP_RWMGRGRP_ADDRESS | RW_MGR_RUN_SINGLE_GROUP_OFFSET;
Marek Vasut33acf0f2015-07-12 20:05:54 +02001122 writel(RW_MGR_CLEAR_DQS_ENABLE, addr + (group << 2));
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001123
1124 set_rank_and_odt_mask(0, RW_MGR_ODT_MODE_OFF);
1125 debug_cond(DLEVEL == 1, "%s:%d test_load_patterns(%u,ALL) => (%u == %u) =>\
1126 %lu\n", __func__, __LINE__, group, *bit_chk, param->read_correct_mask,
1127 (long unsigned int)(*bit_chk == param->read_correct_mask));
1128 return *bit_chk == param->read_correct_mask;
1129}
1130
1131static uint32_t rw_mgr_mem_calibrate_read_test_patterns_all_ranks
1132 (uint32_t group, uint32_t num_tries, uint32_t *bit_chk)
1133{
1134 return rw_mgr_mem_calibrate_read_test_patterns(0, group,
1135 num_tries, bit_chk, 1);
1136}
1137
1138/* load up the patterns we are going to use during a read test */
1139static void rw_mgr_mem_calibrate_read_load_patterns(uint32_t rank_bgn,
1140 uint32_t all_ranks)
1141{
1142 uint32_t r;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001143 uint32_t rank_end = all_ranks ? RW_MGR_MEM_NUMBER_OF_RANKS :
1144 (rank_bgn + NUM_RANKS_PER_SHADOW_REG);
1145
1146 debug("%s:%d\n", __func__, __LINE__);
1147 for (r = rank_bgn; r < rank_end; r++) {
1148 if (param->skip_ranks[r])
1149 /* request to skip the rank */
1150 continue;
1151
1152 /* set rank */
1153 set_rank_and_odt_mask(r, RW_MGR_ODT_MODE_READ_WRITE);
1154
1155 /* Load up a constant bursts */
Marek Vasutb5450962015-07-12 21:05:08 +02001156 writel(0x20, &sdr_rw_load_mgr_regs->load_cntr0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001157
Marek Vasutb5450962015-07-12 21:05:08 +02001158 writel(RW_MGR_GUARANTEED_WRITE_WAIT0,
1159 &sdr_rw_load_jump_mgr_regs->load_jump_add0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001160
Marek Vasutb5450962015-07-12 21:05:08 +02001161 writel(0x20, &sdr_rw_load_mgr_regs->load_cntr1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001162
Marek Vasutb5450962015-07-12 21:05:08 +02001163 writel(RW_MGR_GUARANTEED_WRITE_WAIT1,
1164 &sdr_rw_load_jump_mgr_regs->load_jump_add1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001165
Marek Vasutb5450962015-07-12 21:05:08 +02001166 writel(0x04, &sdr_rw_load_mgr_regs->load_cntr2);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001167
Marek Vasutb5450962015-07-12 21:05:08 +02001168 writel(RW_MGR_GUARANTEED_WRITE_WAIT2,
1169 &sdr_rw_load_jump_mgr_regs->load_jump_add2);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001170
Marek Vasutb5450962015-07-12 21:05:08 +02001171 writel(0x04, &sdr_rw_load_mgr_regs->load_cntr3);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001172
Marek Vasutb5450962015-07-12 21:05:08 +02001173 writel(RW_MGR_GUARANTEED_WRITE_WAIT3,
1174 &sdr_rw_load_jump_mgr_regs->load_jump_add3);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001175
Marek Vasutb5450962015-07-12 21:05:08 +02001176 writel(RW_MGR_GUARANTEED_WRITE, SDR_PHYGRP_RWMGRGRP_ADDRESS |
1177 RW_MGR_RUN_SINGLE_GROUP_OFFSET);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001178 }
1179
1180 set_rank_and_odt_mask(0, RW_MGR_ODT_MODE_OFF);
1181}
1182
1183/*
1184 * try a read and see if it returns correct data back. has dummy reads
1185 * inserted into the mix used to align dqs enable. has more thorough checks
1186 * than the regular read test.
1187 */
1188static uint32_t rw_mgr_mem_calibrate_read_test(uint32_t rank_bgn, uint32_t group,
1189 uint32_t num_tries, uint32_t all_correct, uint32_t *bit_chk,
1190 uint32_t all_groups, uint32_t all_ranks)
1191{
1192 uint32_t r, vg;
1193 uint32_t correct_mask_vg;
1194 uint32_t tmp_bit_chk;
1195 uint32_t rank_end = all_ranks ? RW_MGR_MEM_NUMBER_OF_RANKS :
1196 (rank_bgn + NUM_RANKS_PER_SHADOW_REG);
1197 uint32_t addr;
1198 uint32_t base_rw_mgr;
1199
1200 *bit_chk = param->read_correct_mask;
1201 correct_mask_vg = param->read_correct_mask_vg;
1202
1203 uint32_t quick_read_mode = (((STATIC_CALIB_STEPS) &
1204 CALIB_SKIP_DELAY_SWEEPS) && ENABLE_SUPER_QUICK_CALIBRATION);
1205
1206 for (r = rank_bgn; r < rank_end; r++) {
1207 if (param->skip_ranks[r])
1208 /* request to skip the rank */
1209 continue;
1210
1211 /* set rank */
1212 set_rank_and_odt_mask(r, RW_MGR_ODT_MODE_READ_WRITE);
1213
Marek Vasutb5450962015-07-12 21:05:08 +02001214 writel(0x10, &sdr_rw_load_mgr_regs->load_cntr1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001215
Marek Vasutb5450962015-07-12 21:05:08 +02001216 writel(RW_MGR_READ_B2B_WAIT1,
1217 &sdr_rw_load_jump_mgr_regs->load_jump_add1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001218
Marek Vasutb5450962015-07-12 21:05:08 +02001219 writel(0x10, &sdr_rw_load_mgr_regs->load_cntr2);
1220 writel(RW_MGR_READ_B2B_WAIT2,
1221 &sdr_rw_load_jump_mgr_regs->load_jump_add2);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001222
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001223 if (quick_read_mode)
Marek Vasutb5450962015-07-12 21:05:08 +02001224 writel(0x1, &sdr_rw_load_mgr_regs->load_cntr0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001225 /* need at least two (1+1) reads to capture failures */
1226 else if (all_groups)
Marek Vasutb5450962015-07-12 21:05:08 +02001227 writel(0x06, &sdr_rw_load_mgr_regs->load_cntr0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001228 else
Marek Vasutb5450962015-07-12 21:05:08 +02001229 writel(0x32, &sdr_rw_load_mgr_regs->load_cntr0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001230
Marek Vasutb5450962015-07-12 21:05:08 +02001231 writel(RW_MGR_READ_B2B,
1232 &sdr_rw_load_jump_mgr_regs->load_jump_add0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001233 if (all_groups)
1234 writel(RW_MGR_MEM_IF_READ_DQS_WIDTH *
1235 RW_MGR_MEM_VIRTUAL_GROUPS_PER_READ_DQS - 1,
Marek Vasutb5450962015-07-12 21:05:08 +02001236 &sdr_rw_load_mgr_regs->load_cntr3);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001237 else
Marek Vasutb5450962015-07-12 21:05:08 +02001238 writel(0x0, &sdr_rw_load_mgr_regs->load_cntr3);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001239
Marek Vasutb5450962015-07-12 21:05:08 +02001240 writel(RW_MGR_READ_B2B,
1241 &sdr_rw_load_jump_mgr_regs->load_jump_add3);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001242
1243 tmp_bit_chk = 0;
1244 for (vg = RW_MGR_MEM_VIRTUAL_GROUPS_PER_READ_DQS-1; ; vg--) {
1245 /* reset the fifos to get pointers to known state */
Marek Vasutb5450962015-07-12 21:05:08 +02001246 writel(0, &phy_mgr_cmd->fifo_reset);
1247 writel(0, SDR_PHYGRP_RWMGRGRP_ADDRESS |
1248 RW_MGR_RESET_READ_DATAPATH_OFFSET);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001249
1250 tmp_bit_chk = tmp_bit_chk << (RW_MGR_MEM_DQ_PER_READ_DQS
1251 / RW_MGR_MEM_VIRTUAL_GROUPS_PER_READ_DQS);
1252
Marek Vasuta3340102015-07-12 19:03:33 +02001253 if (all_groups)
1254 addr = SDR_PHYGRP_RWMGRGRP_ADDRESS | RW_MGR_RUN_ALL_GROUPS_OFFSET;
1255 else
1256 addr = SDR_PHYGRP_RWMGRGRP_ADDRESS | RW_MGR_RUN_SINGLE_GROUP_OFFSET;
1257
Marek Vasut33acf0f2015-07-12 20:05:54 +02001258 writel(RW_MGR_READ_B2B, addr +
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001259 ((group * RW_MGR_MEM_VIRTUAL_GROUPS_PER_READ_DQS +
1260 vg) << 2));
1261
Marek Vasutb5450962015-07-12 21:05:08 +02001262 base_rw_mgr = readl(SDR_PHYGRP_RWMGRGRP_ADDRESS);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001263 tmp_bit_chk = tmp_bit_chk | (correct_mask_vg & ~(base_rw_mgr));
1264
1265 if (vg == 0)
1266 break;
1267 }
1268 *bit_chk &= tmp_bit_chk;
1269 }
1270
Marek Vasuta3340102015-07-12 19:03:33 +02001271 addr = SDR_PHYGRP_RWMGRGRP_ADDRESS | RW_MGR_RUN_SINGLE_GROUP_OFFSET;
Marek Vasut33acf0f2015-07-12 20:05:54 +02001272 writel(RW_MGR_CLEAR_DQS_ENABLE, addr + (group << 2));
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001273
1274 if (all_correct) {
1275 set_rank_and_odt_mask(0, RW_MGR_ODT_MODE_OFF);
1276 debug_cond(DLEVEL == 2, "%s:%d read_test(%u,ALL,%u) =>\
1277 (%u == %u) => %lu", __func__, __LINE__, group,
1278 all_groups, *bit_chk, param->read_correct_mask,
1279 (long unsigned int)(*bit_chk ==
1280 param->read_correct_mask));
1281 return *bit_chk == param->read_correct_mask;
1282 } else {
1283 set_rank_and_odt_mask(0, RW_MGR_ODT_MODE_OFF);
1284 debug_cond(DLEVEL == 2, "%s:%d read_test(%u,ONE,%u) =>\
1285 (%u != %lu) => %lu\n", __func__, __LINE__,
1286 group, all_groups, *bit_chk, (long unsigned int)0,
1287 (long unsigned int)(*bit_chk != 0x00));
1288 return *bit_chk != 0x00;
1289 }
1290}
1291
1292static uint32_t rw_mgr_mem_calibrate_read_test_all_ranks(uint32_t group,
1293 uint32_t num_tries, uint32_t all_correct, uint32_t *bit_chk,
1294 uint32_t all_groups)
1295{
1296 return rw_mgr_mem_calibrate_read_test(0, group, num_tries, all_correct,
1297 bit_chk, all_groups, 1);
1298}
1299
1300static void rw_mgr_incr_vfifo(uint32_t grp, uint32_t *v)
1301{
Marek Vasutb5450962015-07-12 21:05:08 +02001302 writel(grp, &phy_mgr_cmd->inc_vfifo_hard_phy);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001303 (*v)++;
1304}
1305
1306static void rw_mgr_decr_vfifo(uint32_t grp, uint32_t *v)
1307{
1308 uint32_t i;
1309
1310 for (i = 0; i < VFIFO_SIZE-1; i++)
1311 rw_mgr_incr_vfifo(grp, v);
1312}
1313
1314static int find_vfifo_read(uint32_t grp, uint32_t *bit_chk)
1315{
1316 uint32_t v;
1317 uint32_t fail_cnt = 0;
1318 uint32_t test_status;
1319
1320 for (v = 0; v < VFIFO_SIZE; ) {
1321 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase: vfifo %u\n",
1322 __func__, __LINE__, v);
1323 test_status = rw_mgr_mem_calibrate_read_test_all_ranks
1324 (grp, 1, PASS_ONE_BIT, bit_chk, 0);
1325 if (!test_status) {
1326 fail_cnt++;
1327
1328 if (fail_cnt == 2)
1329 break;
1330 }
1331
1332 /* fiddle with FIFO */
1333 rw_mgr_incr_vfifo(grp, &v);
1334 }
1335
1336 if (v >= VFIFO_SIZE) {
1337 /* no failing read found!! Something must have gone wrong */
1338 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase: vfifo failed\n",
1339 __func__, __LINE__);
1340 return 0;
1341 } else {
1342 return v;
1343 }
1344}
1345
1346static int find_working_phase(uint32_t *grp, uint32_t *bit_chk,
1347 uint32_t dtaps_per_ptap, uint32_t *work_bgn,
1348 uint32_t *v, uint32_t *d, uint32_t *p,
1349 uint32_t *i, uint32_t *max_working_cnt)
1350{
1351 uint32_t found_begin = 0;
1352 uint32_t tmp_delay = 0;
1353 uint32_t test_status;
1354
1355 for (*d = 0; *d <= dtaps_per_ptap; (*d)++, tmp_delay +=
1356 IO_DELAY_PER_DQS_EN_DCHAIN_TAP) {
1357 *work_bgn = tmp_delay;
1358 scc_mgr_set_dqs_en_delay_all_ranks(*grp, *d);
1359
1360 for (*i = 0; *i < VFIFO_SIZE; (*i)++) {
1361 for (*p = 0; *p <= IO_DQS_EN_PHASE_MAX; (*p)++, *work_bgn +=
1362 IO_DELAY_PER_OPA_TAP) {
1363 scc_mgr_set_dqs_en_phase_all_ranks(*grp, *p);
1364
1365 test_status =
1366 rw_mgr_mem_calibrate_read_test_all_ranks
1367 (*grp, 1, PASS_ONE_BIT, bit_chk, 0);
1368
1369 if (test_status) {
1370 *max_working_cnt = 1;
1371 found_begin = 1;
1372 break;
1373 }
1374 }
1375
1376 if (found_begin)
1377 break;
1378
1379 if (*p > IO_DQS_EN_PHASE_MAX)
1380 /* fiddle with FIFO */
1381 rw_mgr_incr_vfifo(*grp, v);
1382 }
1383
1384 if (found_begin)
1385 break;
1386 }
1387
1388 if (*i >= VFIFO_SIZE) {
1389 /* cannot find working solution */
1390 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase: no vfifo/\
1391 ptap/dtap\n", __func__, __LINE__);
1392 return 0;
1393 } else {
1394 return 1;
1395 }
1396}
1397
1398static void sdr_backup_phase(uint32_t *grp, uint32_t *bit_chk,
1399 uint32_t *work_bgn, uint32_t *v, uint32_t *d,
1400 uint32_t *p, uint32_t *max_working_cnt)
1401{
1402 uint32_t found_begin = 0;
1403 uint32_t tmp_delay;
1404
1405 /* Special case code for backing up a phase */
1406 if (*p == 0) {
1407 *p = IO_DQS_EN_PHASE_MAX;
1408 rw_mgr_decr_vfifo(*grp, v);
1409 } else {
1410 (*p)--;
1411 }
1412 tmp_delay = *work_bgn - IO_DELAY_PER_OPA_TAP;
1413 scc_mgr_set_dqs_en_phase_all_ranks(*grp, *p);
1414
1415 for (*d = 0; *d <= IO_DQS_EN_DELAY_MAX && tmp_delay < *work_bgn;
1416 (*d)++, tmp_delay += IO_DELAY_PER_DQS_EN_DCHAIN_TAP) {
1417 scc_mgr_set_dqs_en_delay_all_ranks(*grp, *d);
1418
1419 if (rw_mgr_mem_calibrate_read_test_all_ranks(*grp, 1,
1420 PASS_ONE_BIT,
1421 bit_chk, 0)) {
1422 found_begin = 1;
1423 *work_bgn = tmp_delay;
1424 break;
1425 }
1426 }
1427
1428 /* We have found a working dtap before the ptap found above */
1429 if (found_begin == 1)
1430 (*max_working_cnt)++;
1431
1432 /*
1433 * Restore VFIFO to old state before we decremented it
1434 * (if needed).
1435 */
1436 (*p)++;
1437 if (*p > IO_DQS_EN_PHASE_MAX) {
1438 *p = 0;
1439 rw_mgr_incr_vfifo(*grp, v);
1440 }
1441
1442 scc_mgr_set_dqs_en_delay_all_ranks(*grp, 0);
1443}
1444
1445static int sdr_nonworking_phase(uint32_t *grp, uint32_t *bit_chk,
1446 uint32_t *work_bgn, uint32_t *v, uint32_t *d,
1447 uint32_t *p, uint32_t *i, uint32_t *max_working_cnt,
1448 uint32_t *work_end)
1449{
1450 uint32_t found_end = 0;
1451
1452 (*p)++;
1453 *work_end += IO_DELAY_PER_OPA_TAP;
1454 if (*p > IO_DQS_EN_PHASE_MAX) {
1455 /* fiddle with FIFO */
1456 *p = 0;
1457 rw_mgr_incr_vfifo(*grp, v);
1458 }
1459
1460 for (; *i < VFIFO_SIZE + 1; (*i)++) {
1461 for (; *p <= IO_DQS_EN_PHASE_MAX; (*p)++, *work_end
1462 += IO_DELAY_PER_OPA_TAP) {
1463 scc_mgr_set_dqs_en_phase_all_ranks(*grp, *p);
1464
1465 if (!rw_mgr_mem_calibrate_read_test_all_ranks
1466 (*grp, 1, PASS_ONE_BIT, bit_chk, 0)) {
1467 found_end = 1;
1468 break;
1469 } else {
1470 (*max_working_cnt)++;
1471 }
1472 }
1473
1474 if (found_end)
1475 break;
1476
1477 if (*p > IO_DQS_EN_PHASE_MAX) {
1478 /* fiddle with FIFO */
1479 rw_mgr_incr_vfifo(*grp, v);
1480 *p = 0;
1481 }
1482 }
1483
1484 if (*i >= VFIFO_SIZE + 1) {
1485 /* cannot see edge of failing read */
1486 debug_cond(DLEVEL == 2, "%s:%d sdr_nonworking_phase: end:\
1487 failed\n", __func__, __LINE__);
1488 return 0;
1489 } else {
1490 return 1;
1491 }
1492}
1493
1494static int sdr_find_window_centre(uint32_t *grp, uint32_t *bit_chk,
1495 uint32_t *work_bgn, uint32_t *v, uint32_t *d,
1496 uint32_t *p, uint32_t *work_mid,
1497 uint32_t *work_end)
1498{
1499 int i;
1500 int tmp_delay = 0;
1501
1502 *work_mid = (*work_bgn + *work_end) / 2;
1503
1504 debug_cond(DLEVEL == 2, "work_bgn=%d work_end=%d work_mid=%d\n",
1505 *work_bgn, *work_end, *work_mid);
1506 /* Get the middle delay to be less than a VFIFO delay */
1507 for (*p = 0; *p <= IO_DQS_EN_PHASE_MAX;
1508 (*p)++, tmp_delay += IO_DELAY_PER_OPA_TAP)
1509 ;
1510 debug_cond(DLEVEL == 2, "vfifo ptap delay %d\n", tmp_delay);
1511 while (*work_mid > tmp_delay)
1512 *work_mid -= tmp_delay;
1513 debug_cond(DLEVEL == 2, "new work_mid %d\n", *work_mid);
1514
1515 tmp_delay = 0;
1516 for (*p = 0; *p <= IO_DQS_EN_PHASE_MAX && tmp_delay < *work_mid;
1517 (*p)++, tmp_delay += IO_DELAY_PER_OPA_TAP)
1518 ;
1519 tmp_delay -= IO_DELAY_PER_OPA_TAP;
1520 debug_cond(DLEVEL == 2, "new p %d, tmp_delay=%d\n", (*p) - 1, tmp_delay);
1521 for (*d = 0; *d <= IO_DQS_EN_DELAY_MAX && tmp_delay < *work_mid; (*d)++,
1522 tmp_delay += IO_DELAY_PER_DQS_EN_DCHAIN_TAP)
1523 ;
1524 debug_cond(DLEVEL == 2, "new d %d, tmp_delay=%d\n", *d, tmp_delay);
1525
1526 scc_mgr_set_dqs_en_phase_all_ranks(*grp, (*p) - 1);
1527 scc_mgr_set_dqs_en_delay_all_ranks(*grp, *d);
1528
1529 /*
1530 * push vfifo until we can successfully calibrate. We can do this
1531 * because the largest possible margin in 1 VFIFO cycle.
1532 */
1533 for (i = 0; i < VFIFO_SIZE; i++) {
1534 debug_cond(DLEVEL == 2, "find_dqs_en_phase: center: vfifo=%u\n",
1535 *v);
1536 if (rw_mgr_mem_calibrate_read_test_all_ranks(*grp, 1,
1537 PASS_ONE_BIT,
1538 bit_chk, 0)) {
1539 break;
1540 }
1541
1542 /* fiddle with FIFO */
1543 rw_mgr_incr_vfifo(*grp, v);
1544 }
1545
1546 if (i >= VFIFO_SIZE) {
1547 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase: center: \
1548 failed\n", __func__, __LINE__);
1549 return 0;
1550 } else {
1551 return 1;
1552 }
1553}
1554
1555/* find a good dqs enable to use */
1556static uint32_t rw_mgr_mem_calibrate_vfifo_find_dqs_en_phase(uint32_t grp)
1557{
1558 uint32_t v, d, p, i;
1559 uint32_t max_working_cnt;
1560 uint32_t bit_chk;
1561 uint32_t dtaps_per_ptap;
1562 uint32_t work_bgn, work_mid, work_end;
1563 uint32_t found_passing_read, found_failing_read, initial_failing_dtap;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001564
1565 debug("%s:%d %u\n", __func__, __LINE__, grp);
1566
1567 reg_file_set_sub_stage(CAL_SUBSTAGE_VFIFO_CENTER);
1568
1569 scc_mgr_set_dqs_en_delay_all_ranks(grp, 0);
1570 scc_mgr_set_dqs_en_phase_all_ranks(grp, 0);
1571
1572 /* ************************************************************** */
1573 /* * Step 0 : Determine number of delay taps for each phase tap * */
1574 dtaps_per_ptap = IO_DELAY_PER_OPA_TAP/IO_DELAY_PER_DQS_EN_DCHAIN_TAP;
1575
1576 /* ********************************************************* */
1577 /* * Step 1 : First push vfifo until we get a failing read * */
1578 v = find_vfifo_read(grp, &bit_chk);
1579
1580 max_working_cnt = 0;
1581
1582 /* ******************************************************** */
1583 /* * step 2: find first working phase, increment in ptaps * */
1584 work_bgn = 0;
1585 if (find_working_phase(&grp, &bit_chk, dtaps_per_ptap, &work_bgn, &v, &d,
1586 &p, &i, &max_working_cnt) == 0)
1587 return 0;
1588
1589 work_end = work_bgn;
1590
1591 /*
1592 * If d is 0 then the working window covers a phase tap and
1593 * we can follow the old procedure otherwise, we've found the beginning,
1594 * and we need to increment the dtaps until we find the end.
1595 */
1596 if (d == 0) {
1597 /* ********************************************************* */
1598 /* * step 3a: if we have room, back off by one and
1599 increment in dtaps * */
1600
1601 sdr_backup_phase(&grp, &bit_chk, &work_bgn, &v, &d, &p,
1602 &max_working_cnt);
1603
1604 /* ********************************************************* */
1605 /* * step 4a: go forward from working phase to non working
1606 phase, increment in ptaps * */
1607 if (sdr_nonworking_phase(&grp, &bit_chk, &work_bgn, &v, &d, &p,
1608 &i, &max_working_cnt, &work_end) == 0)
1609 return 0;
1610
1611 /* ********************************************************* */
1612 /* * step 5a: back off one from last, increment in dtaps * */
1613
1614 /* Special case code for backing up a phase */
1615 if (p == 0) {
1616 p = IO_DQS_EN_PHASE_MAX;
1617 rw_mgr_decr_vfifo(grp, &v);
1618 } else {
1619 p = p - 1;
1620 }
1621
1622 work_end -= IO_DELAY_PER_OPA_TAP;
1623 scc_mgr_set_dqs_en_phase_all_ranks(grp, p);
1624
1625 /* * The actual increment of dtaps is done outside of
1626 the if/else loop to share code */
1627 d = 0;
1628
1629 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase: v/p: \
1630 vfifo=%u ptap=%u\n", __func__, __LINE__,
1631 v, p);
1632 } else {
1633 /* ******************************************************* */
1634 /* * step 3-5b: Find the right edge of the window using
1635 delay taps * */
1636 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase:vfifo=%u \
1637 ptap=%u dtap=%u bgn=%u\n", __func__, __LINE__,
1638 v, p, d, work_bgn);
1639
1640 work_end = work_bgn;
1641
1642 /* * The actual increment of dtaps is done outside of the
1643 if/else loop to share code */
1644
1645 /* Only here to counterbalance a subtract later on which is
1646 not needed if this branch of the algorithm is taken */
1647 max_working_cnt++;
1648 }
1649
1650 /* The dtap increment to find the failing edge is done here */
1651 for (; d <= IO_DQS_EN_DELAY_MAX; d++, work_end +=
1652 IO_DELAY_PER_DQS_EN_DCHAIN_TAP) {
1653 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase: \
1654 end-2: dtap=%u\n", __func__, __LINE__, d);
1655 scc_mgr_set_dqs_en_delay_all_ranks(grp, d);
1656
1657 if (!rw_mgr_mem_calibrate_read_test_all_ranks(grp, 1,
1658 PASS_ONE_BIT,
1659 &bit_chk, 0)) {
1660 break;
1661 }
1662 }
1663
1664 /* Go back to working dtap */
1665 if (d != 0)
1666 work_end -= IO_DELAY_PER_DQS_EN_DCHAIN_TAP;
1667
1668 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase: v/p/d: vfifo=%u \
1669 ptap=%u dtap=%u end=%u\n", __func__, __LINE__,
1670 v, p, d-1, work_end);
1671
1672 if (work_end < work_bgn) {
1673 /* nil range */
1674 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase: end-2: \
1675 failed\n", __func__, __LINE__);
1676 return 0;
1677 }
1678
1679 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase: found range [%u,%u]\n",
1680 __func__, __LINE__, work_bgn, work_end);
1681
1682 /* *************************************************************** */
1683 /*
1684 * * We need to calculate the number of dtaps that equal a ptap
1685 * * To do that we'll back up a ptap and re-find the edge of the
1686 * * window using dtaps
1687 */
1688
1689 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase: calculate dtaps_per_ptap \
1690 for tracking\n", __func__, __LINE__);
1691
1692 /* Special case code for backing up a phase */
1693 if (p == 0) {
1694 p = IO_DQS_EN_PHASE_MAX;
1695 rw_mgr_decr_vfifo(grp, &v);
1696 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase: backedup \
1697 cycle/phase: v=%u p=%u\n", __func__, __LINE__,
1698 v, p);
1699 } else {
1700 p = p - 1;
1701 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase: backedup \
1702 phase only: v=%u p=%u", __func__, __LINE__,
1703 v, p);
1704 }
1705
1706 scc_mgr_set_dqs_en_phase_all_ranks(grp, p);
1707
1708 /*
1709 * Increase dtap until we first see a passing read (in case the
1710 * window is smaller than a ptap),
1711 * and then a failing read to mark the edge of the window again
1712 */
1713
1714 /* Find a passing read */
1715 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase: find passing read\n",
1716 __func__, __LINE__);
1717 found_passing_read = 0;
1718 found_failing_read = 0;
1719 initial_failing_dtap = d;
1720 for (; d <= IO_DQS_EN_DELAY_MAX; d++) {
1721 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase: testing \
1722 read d=%u\n", __func__, __LINE__, d);
1723 scc_mgr_set_dqs_en_delay_all_ranks(grp, d);
1724
1725 if (rw_mgr_mem_calibrate_read_test_all_ranks(grp, 1,
1726 PASS_ONE_BIT,
1727 &bit_chk, 0)) {
1728 found_passing_read = 1;
1729 break;
1730 }
1731 }
1732
1733 if (found_passing_read) {
1734 /* Find a failing read */
1735 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase: find failing \
1736 read\n", __func__, __LINE__);
1737 for (d = d + 1; d <= IO_DQS_EN_DELAY_MAX; d++) {
1738 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase: \
1739 testing read d=%u\n", __func__, __LINE__, d);
1740 scc_mgr_set_dqs_en_delay_all_ranks(grp, d);
1741
1742 if (!rw_mgr_mem_calibrate_read_test_all_ranks
1743 (grp, 1, PASS_ONE_BIT, &bit_chk, 0)) {
1744 found_failing_read = 1;
1745 break;
1746 }
1747 }
1748 } else {
1749 debug_cond(DLEVEL == 1, "%s:%d find_dqs_en_phase: failed to \
1750 calculate dtaps", __func__, __LINE__);
1751 debug_cond(DLEVEL == 1, "per ptap. Fall back on static value\n");
1752 }
1753
1754 /*
1755 * The dynamically calculated dtaps_per_ptap is only valid if we
1756 * found a passing/failing read. If we didn't, it means d hit the max
1757 * (IO_DQS_EN_DELAY_MAX). Otherwise, dtaps_per_ptap retains its
1758 * statically calculated value.
1759 */
1760 if (found_passing_read && found_failing_read)
1761 dtaps_per_ptap = d - initial_failing_dtap;
1762
Marek Vasutb5450962015-07-12 21:05:08 +02001763 writel(dtaps_per_ptap, &sdr_reg_file->dtaps_per_ptap);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001764 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase: dtaps_per_ptap=%u \
1765 - %u = %u", __func__, __LINE__, d,
1766 initial_failing_dtap, dtaps_per_ptap);
1767
1768 /* ******************************************** */
1769 /* * step 6: Find the centre of the window * */
1770 if (sdr_find_window_centre(&grp, &bit_chk, &work_bgn, &v, &d, &p,
1771 &work_mid, &work_end) == 0)
1772 return 0;
1773
1774 debug_cond(DLEVEL == 2, "%s:%d find_dqs_en_phase: center found: \
1775 vfifo=%u ptap=%u dtap=%u\n", __func__, __LINE__,
1776 v, p-1, d);
1777 return 1;
1778}
1779
1780/*
1781 * Try rw_mgr_mem_calibrate_vfifo_find_dqs_en_phase across different
1782 * dq_in_delay values
1783 */
1784static uint32_t
1785rw_mgr_mem_calibrate_vfifo_find_dqs_en_phase_sweep_dq_in_delay
1786(uint32_t write_group, uint32_t read_group, uint32_t test_bgn)
1787{
1788 uint32_t found;
1789 uint32_t i;
1790 uint32_t p;
1791 uint32_t d;
1792 uint32_t r;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001793
1794 const uint32_t delay_step = IO_IO_IN_DELAY_MAX /
1795 (RW_MGR_MEM_DQ_PER_READ_DQS-1);
1796 /* we start at zero, so have one less dq to devide among */
1797
1798 debug("%s:%d (%u,%u,%u)", __func__, __LINE__, write_group, read_group,
1799 test_bgn);
1800
1801 /* try different dq_in_delays since the dq path is shorter than dqs */
1802
1803 for (r = 0; r < RW_MGR_MEM_NUMBER_OF_RANKS;
1804 r += NUM_RANKS_PER_SHADOW_REG) {
1805 for (i = 0, p = test_bgn, d = 0; i < RW_MGR_MEM_DQ_PER_READ_DQS;
1806 i++, p++, d += delay_step) {
1807 debug_cond(DLEVEL == 1, "%s:%d rw_mgr_mem_calibrate_\
1808 vfifo_find_dqs_", __func__, __LINE__);
1809 debug_cond(DLEVEL == 1, "en_phase_sweep_dq_in_delay: g=%u/%u ",
1810 write_group, read_group);
1811 debug_cond(DLEVEL == 1, "r=%u, i=%u p=%u d=%u\n", r, i , p, d);
Marek Vasutcab80792015-07-12 22:07:33 +02001812 scc_mgr_set_dq_in_delay(p, d);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001813 scc_mgr_load_dq(p);
1814 }
Marek Vasutb5450962015-07-12 21:05:08 +02001815 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001816 }
1817
1818 found = rw_mgr_mem_calibrate_vfifo_find_dqs_en_phase(read_group);
1819
1820 debug_cond(DLEVEL == 1, "%s:%d rw_mgr_mem_calibrate_vfifo_find_dqs_\
1821 en_phase_sweep_dq", __func__, __LINE__);
1822 debug_cond(DLEVEL == 1, "_in_delay: g=%u/%u found=%u; Reseting delay \
1823 chain to zero\n", write_group, read_group, found);
1824
1825 for (r = 0; r < RW_MGR_MEM_NUMBER_OF_RANKS;
1826 r += NUM_RANKS_PER_SHADOW_REG) {
1827 for (i = 0, p = test_bgn; i < RW_MGR_MEM_DQ_PER_READ_DQS;
1828 i++, p++) {
Marek Vasutcab80792015-07-12 22:07:33 +02001829 scc_mgr_set_dq_in_delay(p, 0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001830 scc_mgr_load_dq(p);
1831 }
Marek Vasutb5450962015-07-12 21:05:08 +02001832 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001833 }
1834
1835 return found;
1836}
1837
1838/* per-bit deskew DQ and center */
1839static uint32_t rw_mgr_mem_calibrate_vfifo_center(uint32_t rank_bgn,
1840 uint32_t write_group, uint32_t read_group, uint32_t test_bgn,
1841 uint32_t use_read_test, uint32_t update_fom)
1842{
1843 uint32_t i, p, d, min_index;
1844 /*
1845 * Store these as signed since there are comparisons with
1846 * signed numbers.
1847 */
1848 uint32_t bit_chk;
1849 uint32_t sticky_bit_chk;
1850 int32_t left_edge[RW_MGR_MEM_DQ_PER_READ_DQS];
1851 int32_t right_edge[RW_MGR_MEM_DQ_PER_READ_DQS];
1852 int32_t final_dq[RW_MGR_MEM_DQ_PER_READ_DQS];
1853 int32_t mid;
1854 int32_t orig_mid_min, mid_min;
1855 int32_t new_dqs, start_dqs, start_dqs_en, shift_dq, final_dqs,
1856 final_dqs_en;
1857 int32_t dq_margin, dqs_margin;
1858 uint32_t stop;
1859 uint32_t temp_dq_in_delay1, temp_dq_in_delay2;
1860 uint32_t addr;
1861
1862 debug("%s:%d: %u %u", __func__, __LINE__, read_group, test_bgn);
1863
Marek Vasuta3340102015-07-12 19:03:33 +02001864 addr = SDR_PHYGRP_SCCGRP_ADDRESS | SCC_MGR_DQS_IN_DELAY_OFFSET;
Marek Vasut33acf0f2015-07-12 20:05:54 +02001865 start_dqs = readl(addr + (read_group << 2));
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001866 if (IO_SHIFT_DQS_EN_WHEN_SHIFT_DQS)
Marek Vasut33acf0f2015-07-12 20:05:54 +02001867 start_dqs_en = readl(addr + ((read_group << 2)
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001868 - IO_DQS_EN_DELAY_OFFSET));
1869
1870 /* set the left and right edge of each bit to an illegal value */
1871 /* use (IO_IO_IN_DELAY_MAX + 1) as an illegal value */
1872 sticky_bit_chk = 0;
1873 for (i = 0; i < RW_MGR_MEM_DQ_PER_READ_DQS; i++) {
1874 left_edge[i] = IO_IO_IN_DELAY_MAX + 1;
1875 right_edge[i] = IO_IO_IN_DELAY_MAX + 1;
1876 }
1877
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001878 /* Search for the left edge of the window for each bit */
1879 for (d = 0; d <= IO_IO_IN_DELAY_MAX; d++) {
1880 scc_mgr_apply_group_dq_in_delay(write_group, test_bgn, d);
1881
Marek Vasutb5450962015-07-12 21:05:08 +02001882 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001883
1884 /*
1885 * Stop searching when the read test doesn't pass AND when
1886 * we've seen a passing read on every bit.
1887 */
1888 if (use_read_test) {
1889 stop = !rw_mgr_mem_calibrate_read_test(rank_bgn,
1890 read_group, NUM_READ_PB_TESTS, PASS_ONE_BIT,
1891 &bit_chk, 0, 0);
1892 } else {
1893 rw_mgr_mem_calibrate_write_test(rank_bgn, write_group,
1894 0, PASS_ONE_BIT,
1895 &bit_chk, 0);
1896 bit_chk = bit_chk >> (RW_MGR_MEM_DQ_PER_READ_DQS *
1897 (read_group - (write_group *
1898 RW_MGR_MEM_IF_READ_DQS_WIDTH /
1899 RW_MGR_MEM_IF_WRITE_DQS_WIDTH)));
1900 stop = (bit_chk == 0);
1901 }
1902 sticky_bit_chk = sticky_bit_chk | bit_chk;
1903 stop = stop && (sticky_bit_chk == param->read_correct_mask);
1904 debug_cond(DLEVEL == 2, "%s:%d vfifo_center(left): dtap=%u => %u == %u \
1905 && %u", __func__, __LINE__, d,
1906 sticky_bit_chk,
1907 param->read_correct_mask, stop);
1908
1909 if (stop == 1) {
1910 break;
1911 } else {
1912 for (i = 0; i < RW_MGR_MEM_DQ_PER_READ_DQS; i++) {
1913 if (bit_chk & 1) {
1914 /* Remember a passing test as the
1915 left_edge */
1916 left_edge[i] = d;
1917 } else {
1918 /* If a left edge has not been seen yet,
1919 then a future passing test will mark
1920 this edge as the right edge */
1921 if (left_edge[i] ==
1922 IO_IO_IN_DELAY_MAX + 1) {
1923 right_edge[i] = -(d + 1);
1924 }
1925 }
1926 bit_chk = bit_chk >> 1;
1927 }
1928 }
1929 }
1930
1931 /* Reset DQ delay chains to 0 */
1932 scc_mgr_apply_group_dq_in_delay(write_group, test_bgn, 0);
1933 sticky_bit_chk = 0;
1934 for (i = RW_MGR_MEM_DQ_PER_READ_DQS - 1;; i--) {
1935 debug_cond(DLEVEL == 2, "%s:%d vfifo_center: left_edge[%u]: \
1936 %d right_edge[%u]: %d\n", __func__, __LINE__,
1937 i, left_edge[i], i, right_edge[i]);
1938
1939 /*
1940 * Check for cases where we haven't found the left edge,
1941 * which makes our assignment of the the right edge invalid.
1942 * Reset it to the illegal value.
1943 */
1944 if ((left_edge[i] == IO_IO_IN_DELAY_MAX + 1) && (
1945 right_edge[i] != IO_IO_IN_DELAY_MAX + 1)) {
1946 right_edge[i] = IO_IO_IN_DELAY_MAX + 1;
1947 debug_cond(DLEVEL == 2, "%s:%d vfifo_center: reset \
1948 right_edge[%u]: %d\n", __func__, __LINE__,
1949 i, right_edge[i]);
1950 }
1951
1952 /*
1953 * Reset sticky bit (except for bits where we have seen
1954 * both the left and right edge).
1955 */
1956 sticky_bit_chk = sticky_bit_chk << 1;
1957 if ((left_edge[i] != IO_IO_IN_DELAY_MAX + 1) &&
1958 (right_edge[i] != IO_IO_IN_DELAY_MAX + 1)) {
1959 sticky_bit_chk = sticky_bit_chk | 1;
1960 }
1961
1962 if (i == 0)
1963 break;
1964 }
1965
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001966 /* Search for the right edge of the window for each bit */
1967 for (d = 0; d <= IO_DQS_IN_DELAY_MAX - start_dqs; d++) {
1968 scc_mgr_set_dqs_bus_in_delay(read_group, d + start_dqs);
1969 if (IO_SHIFT_DQS_EN_WHEN_SHIFT_DQS) {
1970 uint32_t delay = d + start_dqs_en;
1971 if (delay > IO_DQS_EN_DELAY_MAX)
1972 delay = IO_DQS_EN_DELAY_MAX;
1973 scc_mgr_set_dqs_en_delay(read_group, delay);
1974 }
1975 scc_mgr_load_dqs(read_group);
1976
Marek Vasutb5450962015-07-12 21:05:08 +02001977 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05001978
1979 /*
1980 * Stop searching when the read test doesn't pass AND when
1981 * we've seen a passing read on every bit.
1982 */
1983 if (use_read_test) {
1984 stop = !rw_mgr_mem_calibrate_read_test(rank_bgn,
1985 read_group, NUM_READ_PB_TESTS, PASS_ONE_BIT,
1986 &bit_chk, 0, 0);
1987 } else {
1988 rw_mgr_mem_calibrate_write_test(rank_bgn, write_group,
1989 0, PASS_ONE_BIT,
1990 &bit_chk, 0);
1991 bit_chk = bit_chk >> (RW_MGR_MEM_DQ_PER_READ_DQS *
1992 (read_group - (write_group *
1993 RW_MGR_MEM_IF_READ_DQS_WIDTH /
1994 RW_MGR_MEM_IF_WRITE_DQS_WIDTH)));
1995 stop = (bit_chk == 0);
1996 }
1997 sticky_bit_chk = sticky_bit_chk | bit_chk;
1998 stop = stop && (sticky_bit_chk == param->read_correct_mask);
1999
2000 debug_cond(DLEVEL == 2, "%s:%d vfifo_center(right): dtap=%u => %u == \
2001 %u && %u", __func__, __LINE__, d,
2002 sticky_bit_chk, param->read_correct_mask, stop);
2003
2004 if (stop == 1) {
2005 break;
2006 } else {
2007 for (i = 0; i < RW_MGR_MEM_DQ_PER_READ_DQS; i++) {
2008 if (bit_chk & 1) {
2009 /* Remember a passing test as
2010 the right_edge */
2011 right_edge[i] = d;
2012 } else {
2013 if (d != 0) {
2014 /* If a right edge has not been
2015 seen yet, then a future passing
2016 test will mark this edge as the
2017 left edge */
2018 if (right_edge[i] ==
2019 IO_IO_IN_DELAY_MAX + 1) {
2020 left_edge[i] = -(d + 1);
2021 }
2022 } else {
2023 /* d = 0 failed, but it passed
2024 when testing the left edge,
2025 so it must be marginal,
2026 set it to -1 */
2027 if (right_edge[i] ==
2028 IO_IO_IN_DELAY_MAX + 1 &&
2029 left_edge[i] !=
2030 IO_IO_IN_DELAY_MAX
2031 + 1) {
2032 right_edge[i] = -1;
2033 }
2034 /* If a right edge has not been
2035 seen yet, then a future passing
2036 test will mark this edge as the
2037 left edge */
2038 else if (right_edge[i] ==
2039 IO_IO_IN_DELAY_MAX +
2040 1) {
2041 left_edge[i] = -(d + 1);
2042 }
2043 }
2044 }
2045
2046 debug_cond(DLEVEL == 2, "%s:%d vfifo_center[r,\
2047 d=%u]: ", __func__, __LINE__, d);
2048 debug_cond(DLEVEL == 2, "bit_chk_test=%d left_edge[%u]: %d ",
2049 (int)(bit_chk & 1), i, left_edge[i]);
2050 debug_cond(DLEVEL == 2, "right_edge[%u]: %d\n", i,
2051 right_edge[i]);
2052 bit_chk = bit_chk >> 1;
2053 }
2054 }
2055 }
2056
2057 /* Check that all bits have a window */
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002058 for (i = 0; i < RW_MGR_MEM_DQ_PER_READ_DQS; i++) {
2059 debug_cond(DLEVEL == 2, "%s:%d vfifo_center: left_edge[%u]: \
2060 %d right_edge[%u]: %d", __func__, __LINE__,
2061 i, left_edge[i], i, right_edge[i]);
2062 if ((left_edge[i] == IO_IO_IN_DELAY_MAX + 1) || (right_edge[i]
2063 == IO_IO_IN_DELAY_MAX + 1)) {
2064 /*
2065 * Restore delay chain settings before letting the loop
2066 * in rw_mgr_mem_calibrate_vfifo to retry different
2067 * dqs/ck relationships.
2068 */
2069 scc_mgr_set_dqs_bus_in_delay(read_group, start_dqs);
2070 if (IO_SHIFT_DQS_EN_WHEN_SHIFT_DQS) {
2071 scc_mgr_set_dqs_en_delay(read_group,
2072 start_dqs_en);
2073 }
2074 scc_mgr_load_dqs(read_group);
Marek Vasutb5450962015-07-12 21:05:08 +02002075 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002076
2077 debug_cond(DLEVEL == 1, "%s:%d vfifo_center: failed to \
2078 find edge [%u]: %d %d", __func__, __LINE__,
2079 i, left_edge[i], right_edge[i]);
2080 if (use_read_test) {
2081 set_failing_group_stage(read_group *
2082 RW_MGR_MEM_DQ_PER_READ_DQS + i,
2083 CAL_STAGE_VFIFO,
2084 CAL_SUBSTAGE_VFIFO_CENTER);
2085 } else {
2086 set_failing_group_stage(read_group *
2087 RW_MGR_MEM_DQ_PER_READ_DQS + i,
2088 CAL_STAGE_VFIFO_AFTER_WRITES,
2089 CAL_SUBSTAGE_VFIFO_CENTER);
2090 }
2091 return 0;
2092 }
2093 }
2094
2095 /* Find middle of window for each DQ bit */
2096 mid_min = left_edge[0] - right_edge[0];
2097 min_index = 0;
2098 for (i = 1; i < RW_MGR_MEM_DQ_PER_READ_DQS; i++) {
2099 mid = left_edge[i] - right_edge[i];
2100 if (mid < mid_min) {
2101 mid_min = mid;
2102 min_index = i;
2103 }
2104 }
2105
2106 /*
2107 * -mid_min/2 represents the amount that we need to move DQS.
2108 * If mid_min is odd and positive we'll need to add one to
2109 * make sure the rounding in further calculations is correct
2110 * (always bias to the right), so just add 1 for all positive values.
2111 */
2112 if (mid_min > 0)
2113 mid_min++;
2114
2115 mid_min = mid_min / 2;
2116
2117 debug_cond(DLEVEL == 1, "%s:%d vfifo_center: mid_min=%d (index=%u)\n",
2118 __func__, __LINE__, mid_min, min_index);
2119
2120 /* Determine the amount we can change DQS (which is -mid_min) */
2121 orig_mid_min = mid_min;
2122 new_dqs = start_dqs - mid_min;
2123 if (new_dqs > IO_DQS_IN_DELAY_MAX)
2124 new_dqs = IO_DQS_IN_DELAY_MAX;
2125 else if (new_dqs < 0)
2126 new_dqs = 0;
2127
2128 mid_min = start_dqs - new_dqs;
2129 debug_cond(DLEVEL == 1, "vfifo_center: new mid_min=%d new_dqs=%d\n",
2130 mid_min, new_dqs);
2131
2132 if (IO_SHIFT_DQS_EN_WHEN_SHIFT_DQS) {
2133 if (start_dqs_en - mid_min > IO_DQS_EN_DELAY_MAX)
2134 mid_min += start_dqs_en - mid_min - IO_DQS_EN_DELAY_MAX;
2135 else if (start_dqs_en - mid_min < 0)
2136 mid_min += start_dqs_en - mid_min;
2137 }
2138 new_dqs = start_dqs - mid_min;
2139
2140 debug_cond(DLEVEL == 1, "vfifo_center: start_dqs=%d start_dqs_en=%d \
2141 new_dqs=%d mid_min=%d\n", start_dqs,
2142 IO_SHIFT_DQS_EN_WHEN_SHIFT_DQS ? start_dqs_en : -1,
2143 new_dqs, mid_min);
2144
2145 /* Initialize data for export structures */
2146 dqs_margin = IO_IO_IN_DELAY_MAX + 1;
2147 dq_margin = IO_IO_IN_DELAY_MAX + 1;
2148
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002149 /* add delay to bring centre of all DQ windows to the same "level" */
2150 for (i = 0, p = test_bgn; i < RW_MGR_MEM_DQ_PER_READ_DQS; i++, p++) {
2151 /* Use values before divide by 2 to reduce round off error */
2152 shift_dq = (left_edge[i] - right_edge[i] -
2153 (left_edge[min_index] - right_edge[min_index]))/2 +
2154 (orig_mid_min - mid_min);
2155
2156 debug_cond(DLEVEL == 2, "vfifo_center: before: \
2157 shift_dq[%u]=%d\n", i, shift_dq);
2158
Marek Vasutb5450962015-07-12 21:05:08 +02002159 addr = SDR_PHYGRP_SCCGRP_ADDRESS | SCC_MGR_IO_IN_DELAY_OFFSET;
Marek Vasut33acf0f2015-07-12 20:05:54 +02002160 temp_dq_in_delay1 = readl(addr + (p << 2));
2161 temp_dq_in_delay2 = readl(addr + (i << 2));
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002162
2163 if (shift_dq + (int32_t)temp_dq_in_delay1 >
2164 (int32_t)IO_IO_IN_DELAY_MAX) {
2165 shift_dq = (int32_t)IO_IO_IN_DELAY_MAX - temp_dq_in_delay2;
2166 } else if (shift_dq + (int32_t)temp_dq_in_delay1 < 0) {
2167 shift_dq = -(int32_t)temp_dq_in_delay1;
2168 }
2169 debug_cond(DLEVEL == 2, "vfifo_center: after: \
2170 shift_dq[%u]=%d\n", i, shift_dq);
2171 final_dq[i] = temp_dq_in_delay1 + shift_dq;
Marek Vasutcab80792015-07-12 22:07:33 +02002172 scc_mgr_set_dq_in_delay(p, final_dq[i]);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002173 scc_mgr_load_dq(p);
2174
2175 debug_cond(DLEVEL == 2, "vfifo_center: margin[%u]=[%d,%d]\n", i,
2176 left_edge[i] - shift_dq + (-mid_min),
2177 right_edge[i] + shift_dq - (-mid_min));
2178 /* To determine values for export structures */
2179 if (left_edge[i] - shift_dq + (-mid_min) < dq_margin)
2180 dq_margin = left_edge[i] - shift_dq + (-mid_min);
2181
2182 if (right_edge[i] + shift_dq - (-mid_min) < dqs_margin)
2183 dqs_margin = right_edge[i] + shift_dq - (-mid_min);
2184 }
2185
2186 final_dqs = new_dqs;
2187 if (IO_SHIFT_DQS_EN_WHEN_SHIFT_DQS)
2188 final_dqs_en = start_dqs_en - mid_min;
2189
2190 /* Move DQS-en */
2191 if (IO_SHIFT_DQS_EN_WHEN_SHIFT_DQS) {
2192 scc_mgr_set_dqs_en_delay(read_group, final_dqs_en);
2193 scc_mgr_load_dqs(read_group);
2194 }
2195
2196 /* Move DQS */
2197 scc_mgr_set_dqs_bus_in_delay(read_group, final_dqs);
2198 scc_mgr_load_dqs(read_group);
2199 debug_cond(DLEVEL == 2, "%s:%d vfifo_center: dq_margin=%d \
2200 dqs_margin=%d", __func__, __LINE__,
2201 dq_margin, dqs_margin);
2202
2203 /*
2204 * Do not remove this line as it makes sure all of our decisions
2205 * have been applied. Apply the update bit.
2206 */
Marek Vasutb5450962015-07-12 21:05:08 +02002207 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002208
2209 return (dq_margin >= 0) && (dqs_margin >= 0);
2210}
2211
2212/*
2213 * calibrate the read valid prediction FIFO.
2214 *
2215 * - read valid prediction will consist of finding a good DQS enable phase,
2216 * DQS enable delay, DQS input phase, and DQS input delay.
2217 * - we also do a per-bit deskew on the DQ lines.
2218 */
2219static uint32_t rw_mgr_mem_calibrate_vfifo(uint32_t read_group,
2220 uint32_t test_bgn)
2221{
2222 uint32_t p, d, rank_bgn, sr;
2223 uint32_t dtaps_per_ptap;
2224 uint32_t tmp_delay;
2225 uint32_t bit_chk;
2226 uint32_t grp_calibrated;
2227 uint32_t write_group, write_test_bgn;
2228 uint32_t failed_substage;
2229
Marek Vasut0eacf7e2015-06-26 18:56:54 +02002230 debug("%s:%d: %u %u\n", __func__, __LINE__, read_group, test_bgn);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002231
2232 /* update info for sims */
2233 reg_file_set_stage(CAL_STAGE_VFIFO);
2234
2235 write_group = read_group;
2236 write_test_bgn = test_bgn;
2237
2238 /* USER Determine number of delay taps for each phase tap */
2239 dtaps_per_ptap = 0;
2240 tmp_delay = 0;
2241 while (tmp_delay < IO_DELAY_PER_OPA_TAP) {
2242 dtaps_per_ptap++;
2243 tmp_delay += IO_DELAY_PER_DQS_EN_DCHAIN_TAP;
2244 }
2245 dtaps_per_ptap--;
2246 tmp_delay = 0;
2247
2248 /* update info for sims */
2249 reg_file_set_group(read_group);
2250
2251 grp_calibrated = 0;
2252
2253 reg_file_set_sub_stage(CAL_SUBSTAGE_GUARANTEED_READ);
2254 failed_substage = CAL_SUBSTAGE_GUARANTEED_READ;
2255
2256 for (d = 0; d <= dtaps_per_ptap && grp_calibrated == 0; d += 2) {
2257 /*
2258 * In RLDRAMX we may be messing the delay of pins in
2259 * the same write group but outside of the current read
2260 * the group, but that's ok because we haven't
2261 * calibrated output side yet.
2262 */
2263 if (d > 0) {
2264 scc_mgr_apply_group_all_out_delay_add_all_ranks
2265 (write_group, write_test_bgn, d);
2266 }
2267
2268 for (p = 0; p <= IO_DQDQS_OUT_PHASE_MAX && grp_calibrated == 0;
2269 p++) {
2270 /* set a particular dqdqs phase */
2271 scc_mgr_set_dqdqs_output_phase_all_ranks(read_group, p);
2272
2273 debug_cond(DLEVEL == 1, "%s:%d calibrate_vfifo: g=%u \
2274 p=%u d=%u\n", __func__, __LINE__,
2275 read_group, p, d);
2276
2277 /*
2278 * Load up the patterns used by read calibration
2279 * using current DQDQS phase.
2280 */
2281 rw_mgr_mem_calibrate_read_load_patterns(0, 1);
2282 if (!(gbl->phy_debug_mode_flags &
2283 PHY_DEBUG_DISABLE_GUARANTEED_READ)) {
2284 if (!rw_mgr_mem_calibrate_read_test_patterns_all_ranks
2285 (read_group, 1, &bit_chk)) {
2286 debug_cond(DLEVEL == 1, "%s:%d Guaranteed read test failed:",
2287 __func__, __LINE__);
2288 debug_cond(DLEVEL == 1, " g=%u p=%u d=%u\n",
2289 read_group, p, d);
2290 break;
2291 }
2292 }
2293
2294/* case:56390 */
2295 grp_calibrated = 1;
2296 if (rw_mgr_mem_calibrate_vfifo_find_dqs_en_phase_sweep_dq_in_delay
2297 (write_group, read_group, test_bgn)) {
2298 /*
2299 * USER Read per-bit deskew can be done on a
2300 * per shadow register basis.
2301 */
2302 for (rank_bgn = 0, sr = 0;
2303 rank_bgn < RW_MGR_MEM_NUMBER_OF_RANKS;
2304 rank_bgn += NUM_RANKS_PER_SHADOW_REG,
2305 ++sr) {
2306 /*
2307 * Determine if this set of ranks
2308 * should be skipped entirely.
2309 */
2310 if (!param->skip_shadow_regs[sr]) {
2311 /*
2312 * If doing read after write
2313 * calibration, do not update
2314 * FOM, now - do it then.
2315 */
2316 if (!rw_mgr_mem_calibrate_vfifo_center
2317 (rank_bgn, write_group,
2318 read_group, test_bgn, 1, 0)) {
2319 grp_calibrated = 0;
2320 failed_substage =
2321 CAL_SUBSTAGE_VFIFO_CENTER;
2322 }
2323 }
2324 }
2325 } else {
2326 grp_calibrated = 0;
2327 failed_substage = CAL_SUBSTAGE_DQS_EN_PHASE;
2328 }
2329 }
2330 }
2331
2332 if (grp_calibrated == 0) {
2333 set_failing_group_stage(write_group, CAL_STAGE_VFIFO,
2334 failed_substage);
2335 return 0;
2336 }
2337
2338 /*
2339 * Reset the delay chains back to zero if they have moved > 1
2340 * (check for > 1 because loop will increase d even when pass in
2341 * first case).
2342 */
2343 if (d > 2)
2344 scc_mgr_zero_group(write_group, write_test_bgn, 1);
2345
2346 return 1;
2347}
2348
2349/* VFIFO Calibration -- Read Deskew Calibration after write deskew */
2350static uint32_t rw_mgr_mem_calibrate_vfifo_end(uint32_t read_group,
2351 uint32_t test_bgn)
2352{
2353 uint32_t rank_bgn, sr;
2354 uint32_t grp_calibrated;
2355 uint32_t write_group;
2356
2357 debug("%s:%d %u %u", __func__, __LINE__, read_group, test_bgn);
2358
2359 /* update info for sims */
2360
2361 reg_file_set_stage(CAL_STAGE_VFIFO_AFTER_WRITES);
2362 reg_file_set_sub_stage(CAL_SUBSTAGE_VFIFO_CENTER);
2363
2364 write_group = read_group;
2365
2366 /* update info for sims */
2367 reg_file_set_group(read_group);
2368
2369 grp_calibrated = 1;
2370 /* Read per-bit deskew can be done on a per shadow register basis */
2371 for (rank_bgn = 0, sr = 0; rank_bgn < RW_MGR_MEM_NUMBER_OF_RANKS;
2372 rank_bgn += NUM_RANKS_PER_SHADOW_REG, ++sr) {
2373 /* Determine if this set of ranks should be skipped entirely */
2374 if (!param->skip_shadow_regs[sr]) {
2375 /* This is the last calibration round, update FOM here */
2376 if (!rw_mgr_mem_calibrate_vfifo_center(rank_bgn,
2377 write_group,
2378 read_group,
2379 test_bgn, 0,
2380 1)) {
2381 grp_calibrated = 0;
2382 }
2383 }
2384 }
2385
2386
2387 if (grp_calibrated == 0) {
2388 set_failing_group_stage(write_group,
2389 CAL_STAGE_VFIFO_AFTER_WRITES,
2390 CAL_SUBSTAGE_VFIFO_CENTER);
2391 return 0;
2392 }
2393
2394 return 1;
2395}
2396
2397/* Calibrate LFIFO to find smallest read latency */
2398static uint32_t rw_mgr_mem_calibrate_lfifo(void)
2399{
2400 uint32_t found_one;
2401 uint32_t bit_chk;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002402
2403 debug("%s:%d\n", __func__, __LINE__);
2404
2405 /* update info for sims */
2406 reg_file_set_stage(CAL_STAGE_LFIFO);
2407 reg_file_set_sub_stage(CAL_SUBSTAGE_READ_LATENCY);
2408
2409 /* Load up the patterns used by read calibration for all ranks */
2410 rw_mgr_mem_calibrate_read_load_patterns(0, 1);
2411 found_one = 0;
2412
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002413 do {
Marek Vasutb5450962015-07-12 21:05:08 +02002414 writel(gbl->curr_read_lat, &phy_mgr_cfg->phy_rlat);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002415 debug_cond(DLEVEL == 2, "%s:%d lfifo: read_lat=%u",
2416 __func__, __LINE__, gbl->curr_read_lat);
2417
2418 if (!rw_mgr_mem_calibrate_read_test_all_ranks(0,
2419 NUM_READ_TESTS,
2420 PASS_ALL_BITS,
2421 &bit_chk, 1)) {
2422 break;
2423 }
2424
2425 found_one = 1;
2426 /* reduce read latency and see if things are working */
2427 /* correctly */
2428 gbl->curr_read_lat--;
2429 } while (gbl->curr_read_lat > 0);
2430
2431 /* reset the fifos to get pointers to known state */
2432
Marek Vasutb5450962015-07-12 21:05:08 +02002433 writel(0, &phy_mgr_cmd->fifo_reset);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002434
2435 if (found_one) {
2436 /* add a fudge factor to the read latency that was determined */
2437 gbl->curr_read_lat += 2;
Marek Vasutb5450962015-07-12 21:05:08 +02002438 writel(gbl->curr_read_lat, &phy_mgr_cfg->phy_rlat);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002439 debug_cond(DLEVEL == 2, "%s:%d lfifo: success: using \
2440 read_lat=%u\n", __func__, __LINE__,
2441 gbl->curr_read_lat);
2442 return 1;
2443 } else {
2444 set_failing_group_stage(0xff, CAL_STAGE_LFIFO,
2445 CAL_SUBSTAGE_READ_LATENCY);
2446
2447 debug_cond(DLEVEL == 2, "%s:%d lfifo: failed at initial \
2448 read_lat=%u\n", __func__, __LINE__,
2449 gbl->curr_read_lat);
2450 return 0;
2451 }
2452}
2453
2454/*
2455 * issue write test command.
2456 * two variants are provided. one that just tests a write pattern and
2457 * another that tests datamask functionality.
2458 */
2459static void rw_mgr_mem_calibrate_write_test_issue(uint32_t group,
2460 uint32_t test_dm)
2461{
2462 uint32_t mcc_instruction;
2463 uint32_t quick_write_mode = (((STATIC_CALIB_STEPS) & CALIB_SKIP_WRITES) &&
2464 ENABLE_SUPER_QUICK_CALIBRATION);
2465 uint32_t rw_wl_nop_cycles;
2466 uint32_t addr;
2467
2468 /*
2469 * Set counter and jump addresses for the right
2470 * number of NOP cycles.
2471 * The number of supported NOP cycles can range from -1 to infinity
2472 * Three different cases are handled:
2473 *
2474 * 1. For a number of NOP cycles greater than 0, the RW Mgr looping
2475 * mechanism will be used to insert the right number of NOPs
2476 *
2477 * 2. For a number of NOP cycles equals to 0, the micro-instruction
2478 * issuing the write command will jump straight to the
2479 * micro-instruction that turns on DQS (for DDRx), or outputs write
2480 * data (for RLD), skipping
2481 * the NOP micro-instruction all together
2482 *
2483 * 3. A number of NOP cycles equal to -1 indicates that DQS must be
2484 * turned on in the same micro-instruction that issues the write
2485 * command. Then we need
2486 * to directly jump to the micro-instruction that sends out the data
2487 *
2488 * NOTE: Implementing this mechanism uses 2 RW Mgr jump-counters
2489 * (2 and 3). One jump-counter (0) is used to perform multiple
2490 * write-read operations.
2491 * one counter left to issue this command in "multiple-group" mode
2492 */
2493
2494 rw_wl_nop_cycles = gbl->rw_wl_nop_cycles;
2495
2496 if (rw_wl_nop_cycles == -1) {
2497 /*
2498 * CNTR 2 - We want to execute the special write operation that
2499 * turns on DQS right away and then skip directly to the
2500 * instruction that sends out the data. We set the counter to a
2501 * large number so that the jump is always taken.
2502 */
Marek Vasutb5450962015-07-12 21:05:08 +02002503 writel(0xFF, &sdr_rw_load_mgr_regs->load_cntr2);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002504
2505 /* CNTR 3 - Not used */
2506 if (test_dm) {
2507 mcc_instruction = RW_MGR_LFSR_WR_RD_DM_BANK_0_WL_1;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002508 writel(RW_MGR_LFSR_WR_RD_DM_BANK_0_DATA,
Marek Vasutb5450962015-07-12 21:05:08 +02002509 &sdr_rw_load_jump_mgr_regs->load_jump_add2);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002510 writel(RW_MGR_LFSR_WR_RD_DM_BANK_0_NOP,
Marek Vasutb5450962015-07-12 21:05:08 +02002511 &sdr_rw_load_jump_mgr_regs->load_jump_add3);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002512 } else {
2513 mcc_instruction = RW_MGR_LFSR_WR_RD_BANK_0_WL_1;
Marek Vasutb5450962015-07-12 21:05:08 +02002514 writel(RW_MGR_LFSR_WR_RD_BANK_0_DATA,
2515 &sdr_rw_load_jump_mgr_regs->load_jump_add2);
2516 writel(RW_MGR_LFSR_WR_RD_BANK_0_NOP,
2517 &sdr_rw_load_jump_mgr_regs->load_jump_add3);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002518 }
2519 } else if (rw_wl_nop_cycles == 0) {
2520 /*
2521 * CNTR 2 - We want to skip the NOP operation and go straight
2522 * to the DQS enable instruction. We set the counter to a large
2523 * number so that the jump is always taken.
2524 */
Marek Vasutb5450962015-07-12 21:05:08 +02002525 writel(0xFF, &sdr_rw_load_mgr_regs->load_cntr2);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002526
2527 /* CNTR 3 - Not used */
2528 if (test_dm) {
2529 mcc_instruction = RW_MGR_LFSR_WR_RD_DM_BANK_0;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002530 writel(RW_MGR_LFSR_WR_RD_DM_BANK_0_DQS,
Marek Vasutb5450962015-07-12 21:05:08 +02002531 &sdr_rw_load_jump_mgr_regs->load_jump_add2);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002532 } else {
2533 mcc_instruction = RW_MGR_LFSR_WR_RD_BANK_0;
Marek Vasutb5450962015-07-12 21:05:08 +02002534 writel(RW_MGR_LFSR_WR_RD_BANK_0_DQS,
2535 &sdr_rw_load_jump_mgr_regs->load_jump_add2);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002536 }
2537 } else {
2538 /*
2539 * CNTR 2 - In this case we want to execute the next instruction
2540 * and NOT take the jump. So we set the counter to 0. The jump
2541 * address doesn't count.
2542 */
Marek Vasutb5450962015-07-12 21:05:08 +02002543 writel(0x0, &sdr_rw_load_mgr_regs->load_cntr2);
2544 writel(0x0, &sdr_rw_load_jump_mgr_regs->load_jump_add2);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002545
2546 /*
2547 * CNTR 3 - Set the nop counter to the number of cycles we
2548 * need to loop for, minus 1.
2549 */
Marek Vasutb5450962015-07-12 21:05:08 +02002550 writel(rw_wl_nop_cycles - 1, &sdr_rw_load_mgr_regs->load_cntr3);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002551 if (test_dm) {
2552 mcc_instruction = RW_MGR_LFSR_WR_RD_DM_BANK_0;
Marek Vasutb5450962015-07-12 21:05:08 +02002553 writel(RW_MGR_LFSR_WR_RD_DM_BANK_0_NOP,
2554 &sdr_rw_load_jump_mgr_regs->load_jump_add3);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002555 } else {
2556 mcc_instruction = RW_MGR_LFSR_WR_RD_BANK_0;
Marek Vasutb5450962015-07-12 21:05:08 +02002557 writel(RW_MGR_LFSR_WR_RD_BANK_0_NOP,
2558 &sdr_rw_load_jump_mgr_regs->load_jump_add3);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002559 }
2560 }
2561
Marek Vasutb5450962015-07-12 21:05:08 +02002562 writel(0, SDR_PHYGRP_RWMGRGRP_ADDRESS |
2563 RW_MGR_RESET_READ_DATAPATH_OFFSET);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002564
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002565 if (quick_write_mode)
Marek Vasutb5450962015-07-12 21:05:08 +02002566 writel(0x08, &sdr_rw_load_mgr_regs->load_cntr0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002567 else
Marek Vasutb5450962015-07-12 21:05:08 +02002568 writel(0x40, &sdr_rw_load_mgr_regs->load_cntr0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002569
Marek Vasutb5450962015-07-12 21:05:08 +02002570 writel(mcc_instruction, &sdr_rw_load_jump_mgr_regs->load_jump_add0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002571
2572 /*
2573 * CNTR 1 - This is used to ensure enough time elapses
2574 * for read data to come back.
2575 */
Marek Vasutb5450962015-07-12 21:05:08 +02002576 writel(0x30, &sdr_rw_load_mgr_regs->load_cntr1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002577
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002578 if (test_dm) {
Marek Vasutb5450962015-07-12 21:05:08 +02002579 writel(RW_MGR_LFSR_WR_RD_DM_BANK_0_WAIT,
2580 &sdr_rw_load_jump_mgr_regs->load_jump_add1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002581 } else {
Marek Vasutb5450962015-07-12 21:05:08 +02002582 writel(RW_MGR_LFSR_WR_RD_BANK_0_WAIT,
2583 &sdr_rw_load_jump_mgr_regs->load_jump_add1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002584 }
2585
Marek Vasuta3340102015-07-12 19:03:33 +02002586 addr = SDR_PHYGRP_RWMGRGRP_ADDRESS | RW_MGR_RUN_SINGLE_GROUP_OFFSET;
Marek Vasut33acf0f2015-07-12 20:05:54 +02002587 writel(mcc_instruction, addr + (group << 2));
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002588}
2589
2590/* Test writes, can check for a single bit pass or multiple bit pass */
2591static uint32_t rw_mgr_mem_calibrate_write_test(uint32_t rank_bgn,
2592 uint32_t write_group, uint32_t use_dm, uint32_t all_correct,
2593 uint32_t *bit_chk, uint32_t all_ranks)
2594{
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002595 uint32_t r;
2596 uint32_t correct_mask_vg;
2597 uint32_t tmp_bit_chk;
2598 uint32_t vg;
2599 uint32_t rank_end = all_ranks ? RW_MGR_MEM_NUMBER_OF_RANKS :
2600 (rank_bgn + NUM_RANKS_PER_SHADOW_REG);
2601 uint32_t addr_rw_mgr;
2602 uint32_t base_rw_mgr;
2603
2604 *bit_chk = param->write_correct_mask;
2605 correct_mask_vg = param->write_correct_mask_vg;
2606
2607 for (r = rank_bgn; r < rank_end; r++) {
2608 if (param->skip_ranks[r]) {
2609 /* request to skip the rank */
2610 continue;
2611 }
2612
2613 /* set rank */
2614 set_rank_and_odt_mask(r, RW_MGR_ODT_MODE_READ_WRITE);
2615
2616 tmp_bit_chk = 0;
Marek Vasut1fa95892015-07-12 17:52:36 +02002617 addr_rw_mgr = SDR_PHYGRP_RWMGRGRP_ADDRESS;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002618 for (vg = RW_MGR_MEM_VIRTUAL_GROUPS_PER_WRITE_DQS-1; ; vg--) {
2619 /* reset the fifos to get pointers to known state */
Marek Vasutb5450962015-07-12 21:05:08 +02002620 writel(0, &phy_mgr_cmd->fifo_reset);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002621
2622 tmp_bit_chk = tmp_bit_chk <<
2623 (RW_MGR_MEM_DQ_PER_WRITE_DQS /
2624 RW_MGR_MEM_VIRTUAL_GROUPS_PER_WRITE_DQS);
2625 rw_mgr_mem_calibrate_write_test_issue(write_group *
2626 RW_MGR_MEM_VIRTUAL_GROUPS_PER_WRITE_DQS+vg,
2627 use_dm);
2628
Marek Vasut33acf0f2015-07-12 20:05:54 +02002629 base_rw_mgr = readl(addr_rw_mgr);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002630 tmp_bit_chk = tmp_bit_chk | (correct_mask_vg & ~(base_rw_mgr));
2631 if (vg == 0)
2632 break;
2633 }
2634 *bit_chk &= tmp_bit_chk;
2635 }
2636
2637 if (all_correct) {
2638 set_rank_and_odt_mask(0, RW_MGR_ODT_MODE_OFF);
2639 debug_cond(DLEVEL == 2, "write_test(%u,%u,ALL) : %u == \
2640 %u => %lu", write_group, use_dm,
2641 *bit_chk, param->write_correct_mask,
2642 (long unsigned int)(*bit_chk ==
2643 param->write_correct_mask));
2644 return *bit_chk == param->write_correct_mask;
2645 } else {
2646 set_rank_and_odt_mask(0, RW_MGR_ODT_MODE_OFF);
2647 debug_cond(DLEVEL == 2, "write_test(%u,%u,ONE) : %u != ",
2648 write_group, use_dm, *bit_chk);
2649 debug_cond(DLEVEL == 2, "%lu" " => %lu", (long unsigned int)0,
2650 (long unsigned int)(*bit_chk != 0));
2651 return *bit_chk != 0x00;
2652 }
2653}
2654
2655/*
2656 * center all windows. do per-bit-deskew to possibly increase size of
2657 * certain windows.
2658 */
2659static uint32_t rw_mgr_mem_calibrate_writes_center(uint32_t rank_bgn,
2660 uint32_t write_group, uint32_t test_bgn)
2661{
2662 uint32_t i, p, min_index;
2663 int32_t d;
2664 /*
2665 * Store these as signed since there are comparisons with
2666 * signed numbers.
2667 */
2668 uint32_t bit_chk;
2669 uint32_t sticky_bit_chk;
2670 int32_t left_edge[RW_MGR_MEM_DQ_PER_WRITE_DQS];
2671 int32_t right_edge[RW_MGR_MEM_DQ_PER_WRITE_DQS];
2672 int32_t mid;
2673 int32_t mid_min, orig_mid_min;
2674 int32_t new_dqs, start_dqs, shift_dq;
2675 int32_t dq_margin, dqs_margin, dm_margin;
2676 uint32_t stop;
2677 uint32_t temp_dq_out1_delay;
2678 uint32_t addr;
2679
2680 debug("%s:%d %u %u", __func__, __LINE__, write_group, test_bgn);
2681
2682 dm_margin = 0;
2683
Marek Vasuta3340102015-07-12 19:03:33 +02002684 addr = SDR_PHYGRP_SCCGRP_ADDRESS | SCC_MGR_IO_OUT1_DELAY_OFFSET;
Marek Vasut33acf0f2015-07-12 20:05:54 +02002685 start_dqs = readl(addr +
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002686 (RW_MGR_MEM_DQ_PER_WRITE_DQS << 2));
2687
2688 /* per-bit deskew */
2689
2690 /*
2691 * set the left and right edge of each bit to an illegal value
2692 * use (IO_IO_OUT1_DELAY_MAX + 1) as an illegal value.
2693 */
2694 sticky_bit_chk = 0;
2695 for (i = 0; i < RW_MGR_MEM_DQ_PER_WRITE_DQS; i++) {
2696 left_edge[i] = IO_IO_OUT1_DELAY_MAX + 1;
2697 right_edge[i] = IO_IO_OUT1_DELAY_MAX + 1;
2698 }
2699
2700 /* Search for the left edge of the window for each bit */
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002701 for (d = 0; d <= IO_IO_OUT1_DELAY_MAX; d++) {
2702 scc_mgr_apply_group_dq_out1_delay(write_group, test_bgn, d);
2703
Marek Vasutb5450962015-07-12 21:05:08 +02002704 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002705
2706 /*
2707 * Stop searching when the read test doesn't pass AND when
2708 * we've seen a passing read on every bit.
2709 */
2710 stop = !rw_mgr_mem_calibrate_write_test(rank_bgn, write_group,
2711 0, PASS_ONE_BIT, &bit_chk, 0);
2712 sticky_bit_chk = sticky_bit_chk | bit_chk;
2713 stop = stop && (sticky_bit_chk == param->write_correct_mask);
2714 debug_cond(DLEVEL == 2, "write_center(left): dtap=%d => %u \
2715 == %u && %u [bit_chk= %u ]\n",
2716 d, sticky_bit_chk, param->write_correct_mask,
2717 stop, bit_chk);
2718
2719 if (stop == 1) {
2720 break;
2721 } else {
2722 for (i = 0; i < RW_MGR_MEM_DQ_PER_WRITE_DQS; i++) {
2723 if (bit_chk & 1) {
2724 /*
2725 * Remember a passing test as the
2726 * left_edge.
2727 */
2728 left_edge[i] = d;
2729 } else {
2730 /*
2731 * If a left edge has not been seen
2732 * yet, then a future passing test will
2733 * mark this edge as the right edge.
2734 */
2735 if (left_edge[i] ==
2736 IO_IO_OUT1_DELAY_MAX + 1) {
2737 right_edge[i] = -(d + 1);
2738 }
2739 }
2740 debug_cond(DLEVEL == 2, "write_center[l,d=%d):", d);
2741 debug_cond(DLEVEL == 2, "bit_chk_test=%d left_edge[%u]: %d",
2742 (int)(bit_chk & 1), i, left_edge[i]);
2743 debug_cond(DLEVEL == 2, "right_edge[%u]: %d\n", i,
2744 right_edge[i]);
2745 bit_chk = bit_chk >> 1;
2746 }
2747 }
2748 }
2749
2750 /* Reset DQ delay chains to 0 */
2751 scc_mgr_apply_group_dq_out1_delay(write_group, test_bgn, 0);
2752 sticky_bit_chk = 0;
2753 for (i = RW_MGR_MEM_DQ_PER_WRITE_DQS - 1;; i--) {
2754 debug_cond(DLEVEL == 2, "%s:%d write_center: left_edge[%u]: \
2755 %d right_edge[%u]: %d\n", __func__, __LINE__,
2756 i, left_edge[i], i, right_edge[i]);
2757
2758 /*
2759 * Check for cases where we haven't found the left edge,
2760 * which makes our assignment of the the right edge invalid.
2761 * Reset it to the illegal value.
2762 */
2763 if ((left_edge[i] == IO_IO_OUT1_DELAY_MAX + 1) &&
2764 (right_edge[i] != IO_IO_OUT1_DELAY_MAX + 1)) {
2765 right_edge[i] = IO_IO_OUT1_DELAY_MAX + 1;
2766 debug_cond(DLEVEL == 2, "%s:%d write_center: reset \
2767 right_edge[%u]: %d\n", __func__, __LINE__,
2768 i, right_edge[i]);
2769 }
2770
2771 /*
2772 * Reset sticky bit (except for bits where we have
2773 * seen the left edge).
2774 */
2775 sticky_bit_chk = sticky_bit_chk << 1;
2776 if ((left_edge[i] != IO_IO_OUT1_DELAY_MAX + 1))
2777 sticky_bit_chk = sticky_bit_chk | 1;
2778
2779 if (i == 0)
2780 break;
2781 }
2782
2783 /* Search for the right edge of the window for each bit */
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002784 for (d = 0; d <= IO_IO_OUT1_DELAY_MAX - start_dqs; d++) {
2785 scc_mgr_apply_group_dqs_io_and_oct_out1(write_group,
2786 d + start_dqs);
2787
Marek Vasutb5450962015-07-12 21:05:08 +02002788 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002789
2790 /*
2791 * Stop searching when the read test doesn't pass AND when
2792 * we've seen a passing read on every bit.
2793 */
2794 stop = !rw_mgr_mem_calibrate_write_test(rank_bgn, write_group,
2795 0, PASS_ONE_BIT, &bit_chk, 0);
2796
2797 sticky_bit_chk = sticky_bit_chk | bit_chk;
2798 stop = stop && (sticky_bit_chk == param->write_correct_mask);
2799
2800 debug_cond(DLEVEL == 2, "write_center (right): dtap=%u => %u == \
2801 %u && %u\n", d, sticky_bit_chk,
2802 param->write_correct_mask, stop);
2803
2804 if (stop == 1) {
2805 if (d == 0) {
2806 for (i = 0; i < RW_MGR_MEM_DQ_PER_WRITE_DQS;
2807 i++) {
2808 /* d = 0 failed, but it passed when
2809 testing the left edge, so it must be
2810 marginal, set it to -1 */
2811 if (right_edge[i] ==
2812 IO_IO_OUT1_DELAY_MAX + 1 &&
2813 left_edge[i] !=
2814 IO_IO_OUT1_DELAY_MAX + 1) {
2815 right_edge[i] = -1;
2816 }
2817 }
2818 }
2819 break;
2820 } else {
2821 for (i = 0; i < RW_MGR_MEM_DQ_PER_WRITE_DQS; i++) {
2822 if (bit_chk & 1) {
2823 /*
2824 * Remember a passing test as
2825 * the right_edge.
2826 */
2827 right_edge[i] = d;
2828 } else {
2829 if (d != 0) {
2830 /*
2831 * If a right edge has not
2832 * been seen yet, then a future
2833 * passing test will mark this
2834 * edge as the left edge.
2835 */
2836 if (right_edge[i] ==
2837 IO_IO_OUT1_DELAY_MAX + 1)
2838 left_edge[i] = -(d + 1);
2839 } else {
2840 /*
2841 * d = 0 failed, but it passed
2842 * when testing the left edge,
2843 * so it must be marginal, set
2844 * it to -1.
2845 */
2846 if (right_edge[i] ==
2847 IO_IO_OUT1_DELAY_MAX + 1 &&
2848 left_edge[i] !=
2849 IO_IO_OUT1_DELAY_MAX + 1)
2850 right_edge[i] = -1;
2851 /*
2852 * If a right edge has not been
2853 * seen yet, then a future
2854 * passing test will mark this
2855 * edge as the left edge.
2856 */
2857 else if (right_edge[i] ==
2858 IO_IO_OUT1_DELAY_MAX +
2859 1)
2860 left_edge[i] = -(d + 1);
2861 }
2862 }
2863 debug_cond(DLEVEL == 2, "write_center[r,d=%d):", d);
2864 debug_cond(DLEVEL == 2, "bit_chk_test=%d left_edge[%u]: %d",
2865 (int)(bit_chk & 1), i, left_edge[i]);
2866 debug_cond(DLEVEL == 2, "right_edge[%u]: %d\n", i,
2867 right_edge[i]);
2868 bit_chk = bit_chk >> 1;
2869 }
2870 }
2871 }
2872
2873 /* Check that all bits have a window */
2874 for (i = 0; i < RW_MGR_MEM_DQ_PER_WRITE_DQS; i++) {
2875 debug_cond(DLEVEL == 2, "%s:%d write_center: left_edge[%u]: \
2876 %d right_edge[%u]: %d", __func__, __LINE__,
2877 i, left_edge[i], i, right_edge[i]);
2878 if ((left_edge[i] == IO_IO_OUT1_DELAY_MAX + 1) ||
2879 (right_edge[i] == IO_IO_OUT1_DELAY_MAX + 1)) {
2880 set_failing_group_stage(test_bgn + i,
2881 CAL_STAGE_WRITES,
2882 CAL_SUBSTAGE_WRITES_CENTER);
2883 return 0;
2884 }
2885 }
2886
2887 /* Find middle of window for each DQ bit */
2888 mid_min = left_edge[0] - right_edge[0];
2889 min_index = 0;
2890 for (i = 1; i < RW_MGR_MEM_DQ_PER_WRITE_DQS; i++) {
2891 mid = left_edge[i] - right_edge[i];
2892 if (mid < mid_min) {
2893 mid_min = mid;
2894 min_index = i;
2895 }
2896 }
2897
2898 /*
2899 * -mid_min/2 represents the amount that we need to move DQS.
2900 * If mid_min is odd and positive we'll need to add one to
2901 * make sure the rounding in further calculations is correct
2902 * (always bias to the right), so just add 1 for all positive values.
2903 */
2904 if (mid_min > 0)
2905 mid_min++;
2906 mid_min = mid_min / 2;
2907 debug_cond(DLEVEL == 1, "%s:%d write_center: mid_min=%d\n", __func__,
2908 __LINE__, mid_min);
2909
2910 /* Determine the amount we can change DQS (which is -mid_min) */
2911 orig_mid_min = mid_min;
2912 new_dqs = start_dqs;
2913 mid_min = 0;
2914 debug_cond(DLEVEL == 1, "%s:%d write_center: start_dqs=%d new_dqs=%d \
2915 mid_min=%d\n", __func__, __LINE__, start_dqs, new_dqs, mid_min);
2916 /* Initialize data for export structures */
2917 dqs_margin = IO_IO_OUT1_DELAY_MAX + 1;
2918 dq_margin = IO_IO_OUT1_DELAY_MAX + 1;
2919
2920 /* add delay to bring centre of all DQ windows to the same "level" */
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002921 for (i = 0, p = test_bgn; i < RW_MGR_MEM_DQ_PER_WRITE_DQS; i++, p++) {
2922 /* Use values before divide by 2 to reduce round off error */
2923 shift_dq = (left_edge[i] - right_edge[i] -
2924 (left_edge[min_index] - right_edge[min_index]))/2 +
2925 (orig_mid_min - mid_min);
2926
2927 debug_cond(DLEVEL == 2, "%s:%d write_center: before: shift_dq \
2928 [%u]=%d\n", __func__, __LINE__, i, shift_dq);
2929
Marek Vasutb5450962015-07-12 21:05:08 +02002930 addr = SDR_PHYGRP_SCCGRP_ADDRESS | SCC_MGR_IO_OUT1_DELAY_OFFSET;
Marek Vasut33acf0f2015-07-12 20:05:54 +02002931 temp_dq_out1_delay = readl(addr + (i << 2));
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002932 if (shift_dq + (int32_t)temp_dq_out1_delay >
2933 (int32_t)IO_IO_OUT1_DELAY_MAX) {
2934 shift_dq = (int32_t)IO_IO_OUT1_DELAY_MAX - temp_dq_out1_delay;
2935 } else if (shift_dq + (int32_t)temp_dq_out1_delay < 0) {
2936 shift_dq = -(int32_t)temp_dq_out1_delay;
2937 }
2938 debug_cond(DLEVEL == 2, "write_center: after: shift_dq[%u]=%d\n",
2939 i, shift_dq);
Marek Vasutcab80792015-07-12 22:07:33 +02002940 scc_mgr_set_dq_out1_delay(i, temp_dq_out1_delay + shift_dq);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002941 scc_mgr_load_dq(i);
2942
2943 debug_cond(DLEVEL == 2, "write_center: margin[%u]=[%d,%d]\n", i,
2944 left_edge[i] - shift_dq + (-mid_min),
2945 right_edge[i] + shift_dq - (-mid_min));
2946 /* To determine values for export structures */
2947 if (left_edge[i] - shift_dq + (-mid_min) < dq_margin)
2948 dq_margin = left_edge[i] - shift_dq + (-mid_min);
2949
2950 if (right_edge[i] + shift_dq - (-mid_min) < dqs_margin)
2951 dqs_margin = right_edge[i] + shift_dq - (-mid_min);
2952 }
2953
2954 /* Move DQS */
2955 scc_mgr_apply_group_dqs_io_and_oct_out1(write_group, new_dqs);
Marek Vasutb5450962015-07-12 21:05:08 +02002956 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002957
2958 /* Centre DM */
2959 debug_cond(DLEVEL == 2, "%s:%d write_center: DM\n", __func__, __LINE__);
2960
2961 /*
2962 * set the left and right edge of each bit to an illegal value,
2963 * use (IO_IO_OUT1_DELAY_MAX + 1) as an illegal value,
2964 */
2965 left_edge[0] = IO_IO_OUT1_DELAY_MAX + 1;
2966 right_edge[0] = IO_IO_OUT1_DELAY_MAX + 1;
2967 int32_t bgn_curr = IO_IO_OUT1_DELAY_MAX + 1;
2968 int32_t end_curr = IO_IO_OUT1_DELAY_MAX + 1;
2969 int32_t bgn_best = IO_IO_OUT1_DELAY_MAX + 1;
2970 int32_t end_best = IO_IO_OUT1_DELAY_MAX + 1;
2971 int32_t win_best = 0;
2972
2973 /* Search for the/part of the window with DM shift */
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002974 for (d = IO_IO_OUT1_DELAY_MAX; d >= 0; d -= DELTA_D) {
2975 scc_mgr_apply_group_dm_out1_delay(write_group, d);
Marek Vasutb5450962015-07-12 21:05:08 +02002976 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05002977
2978 if (rw_mgr_mem_calibrate_write_test(rank_bgn, write_group, 1,
2979 PASS_ALL_BITS, &bit_chk,
2980 0)) {
2981 /* USE Set current end of the window */
2982 end_curr = -d;
2983 /*
2984 * If a starting edge of our window has not been seen
2985 * this is our current start of the DM window.
2986 */
2987 if (bgn_curr == IO_IO_OUT1_DELAY_MAX + 1)
2988 bgn_curr = -d;
2989
2990 /*
2991 * If current window is bigger than best seen.
2992 * Set best seen to be current window.
2993 */
2994 if ((end_curr-bgn_curr+1) > win_best) {
2995 win_best = end_curr-bgn_curr+1;
2996 bgn_best = bgn_curr;
2997 end_best = end_curr;
2998 }
2999 } else {
3000 /* We just saw a failing test. Reset temp edge */
3001 bgn_curr = IO_IO_OUT1_DELAY_MAX + 1;
3002 end_curr = IO_IO_OUT1_DELAY_MAX + 1;
3003 }
3004 }
3005
3006
3007 /* Reset DM delay chains to 0 */
3008 scc_mgr_apply_group_dm_out1_delay(write_group, 0);
3009
3010 /*
3011 * Check to see if the current window nudges up aganist 0 delay.
3012 * If so we need to continue the search by shifting DQS otherwise DQS
3013 * search begins as a new search. */
3014 if (end_curr != 0) {
3015 bgn_curr = IO_IO_OUT1_DELAY_MAX + 1;
3016 end_curr = IO_IO_OUT1_DELAY_MAX + 1;
3017 }
3018
3019 /* Search for the/part of the window with DQS shifts */
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003020 for (d = 0; d <= IO_IO_OUT1_DELAY_MAX - new_dqs; d += DELTA_D) {
3021 /*
3022 * Note: This only shifts DQS, so are we limiting ourselve to
3023 * width of DQ unnecessarily.
3024 */
3025 scc_mgr_apply_group_dqs_io_and_oct_out1(write_group,
3026 d + new_dqs);
3027
Marek Vasutb5450962015-07-12 21:05:08 +02003028 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003029 if (rw_mgr_mem_calibrate_write_test(rank_bgn, write_group, 1,
3030 PASS_ALL_BITS, &bit_chk,
3031 0)) {
3032 /* USE Set current end of the window */
3033 end_curr = d;
3034 /*
3035 * If a beginning edge of our window has not been seen
3036 * this is our current begin of the DM window.
3037 */
3038 if (bgn_curr == IO_IO_OUT1_DELAY_MAX + 1)
3039 bgn_curr = d;
3040
3041 /*
3042 * If current window is bigger than best seen. Set best
3043 * seen to be current window.
3044 */
3045 if ((end_curr-bgn_curr+1) > win_best) {
3046 win_best = end_curr-bgn_curr+1;
3047 bgn_best = bgn_curr;
3048 end_best = end_curr;
3049 }
3050 } else {
3051 /* We just saw a failing test. Reset temp edge */
3052 bgn_curr = IO_IO_OUT1_DELAY_MAX + 1;
3053 end_curr = IO_IO_OUT1_DELAY_MAX + 1;
3054
3055 /* Early exit optimization: if ther remaining delay
3056 chain space is less than already seen largest window
3057 we can exit */
3058 if ((win_best-1) >
3059 (IO_IO_OUT1_DELAY_MAX - new_dqs - d)) {
3060 break;
3061 }
3062 }
3063 }
3064
3065 /* assign left and right edge for cal and reporting; */
3066 left_edge[0] = -1*bgn_best;
3067 right_edge[0] = end_best;
3068
3069 debug_cond(DLEVEL == 2, "%s:%d dm_calib: left=%d right=%d\n", __func__,
3070 __LINE__, left_edge[0], right_edge[0]);
3071
3072 /* Move DQS (back to orig) */
3073 scc_mgr_apply_group_dqs_io_and_oct_out1(write_group, new_dqs);
3074
3075 /* Move DM */
3076
3077 /* Find middle of window for the DM bit */
3078 mid = (left_edge[0] - right_edge[0]) / 2;
3079
3080 /* only move right, since we are not moving DQS/DQ */
3081 if (mid < 0)
3082 mid = 0;
3083
3084 /* dm_marign should fail if we never find a window */
3085 if (win_best == 0)
3086 dm_margin = -1;
3087 else
3088 dm_margin = left_edge[0] - mid;
3089
3090 scc_mgr_apply_group_dm_out1_delay(write_group, mid);
Marek Vasutb5450962015-07-12 21:05:08 +02003091 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003092
3093 debug_cond(DLEVEL == 2, "%s:%d dm_calib: left=%d right=%d mid=%d \
3094 dm_margin=%d\n", __func__, __LINE__, left_edge[0],
3095 right_edge[0], mid, dm_margin);
3096 /* Export values */
3097 gbl->fom_out += dq_margin + dqs_margin;
3098
3099 debug_cond(DLEVEL == 2, "%s:%d write_center: dq_margin=%d \
3100 dqs_margin=%d dm_margin=%d\n", __func__, __LINE__,
3101 dq_margin, dqs_margin, dm_margin);
3102
3103 /*
3104 * Do not remove this line as it makes sure all of our
3105 * decisions have been applied.
3106 */
Marek Vasutb5450962015-07-12 21:05:08 +02003107 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003108 return (dq_margin >= 0) && (dqs_margin >= 0) && (dm_margin >= 0);
3109}
3110
3111/* calibrate the write operations */
3112static uint32_t rw_mgr_mem_calibrate_writes(uint32_t rank_bgn, uint32_t g,
3113 uint32_t test_bgn)
3114{
3115 /* update info for sims */
3116 debug("%s:%d %u %u\n", __func__, __LINE__, g, test_bgn);
3117
3118 reg_file_set_stage(CAL_STAGE_WRITES);
3119 reg_file_set_sub_stage(CAL_SUBSTAGE_WRITES_CENTER);
3120
3121 reg_file_set_group(g);
3122
3123 if (!rw_mgr_mem_calibrate_writes_center(rank_bgn, g, test_bgn)) {
3124 set_failing_group_stage(g, CAL_STAGE_WRITES,
3125 CAL_SUBSTAGE_WRITES_CENTER);
3126 return 0;
3127 }
3128
3129 return 1;
3130}
3131
3132/* precharge all banks and activate row 0 in bank "000..." and bank "111..." */
3133static void mem_precharge_and_activate(void)
3134{
3135 uint32_t r;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003136
3137 for (r = 0; r < RW_MGR_MEM_NUMBER_OF_RANKS; r++) {
3138 if (param->skip_ranks[r]) {
3139 /* request to skip the rank */
3140 continue;
3141 }
3142
3143 /* set rank */
3144 set_rank_and_odt_mask(r, RW_MGR_ODT_MODE_OFF);
3145
3146 /* precharge all banks ... */
Marek Vasutb5450962015-07-12 21:05:08 +02003147 writel(RW_MGR_PRECHARGE_ALL, SDR_PHYGRP_RWMGRGRP_ADDRESS |
3148 RW_MGR_RUN_SINGLE_GROUP_OFFSET);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003149
Marek Vasutb5450962015-07-12 21:05:08 +02003150 writel(0x0F, &sdr_rw_load_mgr_regs->load_cntr0);
3151 writel(RW_MGR_ACTIVATE_0_AND_1_WAIT1,
3152 &sdr_rw_load_jump_mgr_regs->load_jump_add0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003153
Marek Vasutb5450962015-07-12 21:05:08 +02003154 writel(0x0F, &sdr_rw_load_mgr_regs->load_cntr1);
3155 writel(RW_MGR_ACTIVATE_0_AND_1_WAIT2,
3156 &sdr_rw_load_jump_mgr_regs->load_jump_add1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003157
3158 /* activate rows */
Marek Vasutb5450962015-07-12 21:05:08 +02003159 writel(RW_MGR_ACTIVATE_0_AND_1, SDR_PHYGRP_RWMGRGRP_ADDRESS |
3160 RW_MGR_RUN_SINGLE_GROUP_OFFSET);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003161 }
3162}
3163
3164/* Configure various memory related parameters. */
3165static void mem_config(void)
3166{
3167 uint32_t rlat, wlat;
3168 uint32_t rw_wl_nop_cycles;
3169 uint32_t max_latency;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003170
3171 debug("%s:%d\n", __func__, __LINE__);
3172 /* read in write and read latency */
Marek Vasutb5450962015-07-12 21:05:08 +02003173 wlat = readl(&data_mgr->t_wl_add);
3174 wlat += readl(&data_mgr->mem_t_add);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003175
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003176 /* WL for hard phy does not include additive latency */
3177
3178 /*
3179 * add addtional write latency to offset the address/command extra
3180 * clock cycle. We change the AC mux setting causing AC to be delayed
3181 * by one mem clock cycle. Only do this for DDR3
3182 */
3183 wlat = wlat + 1;
3184
Marek Vasutb5450962015-07-12 21:05:08 +02003185 rlat = readl(&data_mgr->t_rl_add);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003186
3187 rw_wl_nop_cycles = wlat - 2;
3188 gbl->rw_wl_nop_cycles = rw_wl_nop_cycles;
3189
3190 /*
3191 * For AV/CV, lfifo is hardened and always runs at full rate so
3192 * max latency in AFI clocks, used here, is correspondingly smaller.
3193 */
3194 max_latency = (1<<MAX_LATENCY_COUNT_WIDTH)/1 - 1;
3195 /* configure for a burst length of 8 */
3196
3197 /* write latency */
3198 /* Adjust Write Latency for Hard PHY */
3199 wlat = wlat + 1;
3200
3201 /* set a pretty high read latency initially */
3202 gbl->curr_read_lat = rlat + 16;
3203
3204 if (gbl->curr_read_lat > max_latency)
3205 gbl->curr_read_lat = max_latency;
3206
Marek Vasutb5450962015-07-12 21:05:08 +02003207 writel(gbl->curr_read_lat, &phy_mgr_cfg->phy_rlat);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003208
3209 /* advertise write latency */
3210 gbl->curr_write_lat = wlat;
Marek Vasutb5450962015-07-12 21:05:08 +02003211 writel(wlat - 2, &phy_mgr_cfg->afi_wlat);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003212
3213 /* initialize bit slips */
3214 mem_precharge_and_activate();
3215}
3216
3217/* Set VFIFO and LFIFO to instant-on settings in skip calibration mode */
3218static void mem_skip_calibrate(void)
3219{
3220 uint32_t vfifo_offset;
3221 uint32_t i, j, r;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003222
3223 debug("%s:%d\n", __func__, __LINE__);
3224 /* Need to update every shadow register set used by the interface */
3225 for (r = 0; r < RW_MGR_MEM_NUMBER_OF_RANKS;
3226 r += NUM_RANKS_PER_SHADOW_REG) {
3227 /*
3228 * Set output phase alignment settings appropriate for
3229 * skip calibration.
3230 */
3231 for (i = 0; i < RW_MGR_MEM_IF_READ_DQS_WIDTH; i++) {
3232 scc_mgr_set_dqs_en_phase(i, 0);
3233#if IO_DLL_CHAIN_LENGTH == 6
3234 scc_mgr_set_dqdqs_output_phase(i, 6);
3235#else
3236 scc_mgr_set_dqdqs_output_phase(i, 7);
3237#endif
3238 /*
3239 * Case:33398
3240 *
3241 * Write data arrives to the I/O two cycles before write
3242 * latency is reached (720 deg).
3243 * -> due to bit-slip in a/c bus
3244 * -> to allow board skew where dqs is longer than ck
3245 * -> how often can this happen!?
3246 * -> can claim back some ptaps for high freq
3247 * support if we can relax this, but i digress...
3248 *
3249 * The write_clk leads mem_ck by 90 deg
3250 * The minimum ptap of the OPA is 180 deg
3251 * Each ptap has (360 / IO_DLL_CHAIN_LENGH) deg of delay
3252 * The write_clk is always delayed by 2 ptaps
3253 *
3254 * Hence, to make DQS aligned to CK, we need to delay
3255 * DQS by:
3256 * (720 - 90 - 180 - 2 * (360 / IO_DLL_CHAIN_LENGTH))
3257 *
3258 * Dividing the above by (360 / IO_DLL_CHAIN_LENGTH)
3259 * gives us the number of ptaps, which simplies to:
3260 *
3261 * (1.25 * IO_DLL_CHAIN_LENGTH - 2)
3262 */
3263 scc_mgr_set_dqdqs_output_phase(i, (1.25 *
3264 IO_DLL_CHAIN_LENGTH - 2));
3265 }
Marek Vasutb5450962015-07-12 21:05:08 +02003266 writel(0xff, &sdr_scc_mgr->dqs_ena);
3267 writel(0xff, &sdr_scc_mgr->dqs_io_ena);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003268
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003269 for (i = 0; i < RW_MGR_MEM_IF_WRITE_DQS_WIDTH; i++) {
Marek Vasutb5450962015-07-12 21:05:08 +02003270 writel(i, SDR_PHYGRP_SCCGRP_ADDRESS |
3271 SCC_MGR_GROUP_COUNTER_OFFSET);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003272 }
Marek Vasutb5450962015-07-12 21:05:08 +02003273 writel(0xff, &sdr_scc_mgr->dq_ena);
3274 writel(0xff, &sdr_scc_mgr->dm_ena);
3275 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003276 }
3277
3278 /* Compensate for simulation model behaviour */
3279 for (i = 0; i < RW_MGR_MEM_IF_READ_DQS_WIDTH; i++) {
3280 scc_mgr_set_dqs_bus_in_delay(i, 10);
3281 scc_mgr_load_dqs(i);
3282 }
Marek Vasutb5450962015-07-12 21:05:08 +02003283 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003284
3285 /*
3286 * ArriaV has hard FIFOs that can only be initialized by incrementing
3287 * in sequencer.
3288 */
3289 vfifo_offset = CALIB_VFIFO_OFFSET;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003290 for (j = 0; j < vfifo_offset; j++) {
Marek Vasutb5450962015-07-12 21:05:08 +02003291 writel(0xff, &phy_mgr_cmd->inc_vfifo_hard_phy);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003292 }
Marek Vasutb5450962015-07-12 21:05:08 +02003293 writel(0, &phy_mgr_cmd->fifo_reset);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003294
3295 /*
3296 * For ACV with hard lfifo, we get the skip-cal setting from
3297 * generation-time constant.
3298 */
3299 gbl->curr_read_lat = CALIB_LFIFO_OFFSET;
Marek Vasutb5450962015-07-12 21:05:08 +02003300 writel(gbl->curr_read_lat, &phy_mgr_cfg->phy_rlat);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003301}
3302
3303/* Memory calibration entry point */
3304static uint32_t mem_calibrate(void)
3305{
3306 uint32_t i;
3307 uint32_t rank_bgn, sr;
3308 uint32_t write_group, write_test_bgn;
3309 uint32_t read_group, read_test_bgn;
3310 uint32_t run_groups, current_run;
3311 uint32_t failing_groups = 0;
3312 uint32_t group_failed = 0;
3313 uint32_t sr_failed = 0;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003314
3315 debug("%s:%d\n", __func__, __LINE__);
3316 /* Initialize the data settings */
3317
3318 gbl->error_substage = CAL_SUBSTAGE_NIL;
3319 gbl->error_stage = CAL_STAGE_NIL;
3320 gbl->error_group = 0xff;
3321 gbl->fom_in = 0;
3322 gbl->fom_out = 0;
3323
3324 mem_config();
3325
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003326 for (i = 0; i < RW_MGR_MEM_IF_READ_DQS_WIDTH; i++) {
Marek Vasutb5450962015-07-12 21:05:08 +02003327 writel(i, SDR_PHYGRP_SCCGRP_ADDRESS |
3328 SCC_MGR_GROUP_COUNTER_OFFSET);
Marek Vasut0341de42015-07-17 02:06:20 +02003329 scc_set_bypass_mode(i);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003330 }
3331
3332 if ((dyn_calib_steps & CALIB_SKIP_ALL) == CALIB_SKIP_ALL) {
3333 /*
3334 * Set VFIFO and LFIFO to instant-on settings in skip
3335 * calibration mode.
3336 */
3337 mem_skip_calibrate();
3338 } else {
3339 for (i = 0; i < NUM_CALIB_REPEAT; i++) {
3340 /*
3341 * Zero all delay chain/phase settings for all
3342 * groups and all shadow register sets.
3343 */
3344 scc_mgr_zero_all();
3345
3346 run_groups = ~param->skip_groups;
3347
3348 for (write_group = 0, write_test_bgn = 0; write_group
3349 < RW_MGR_MEM_IF_WRITE_DQS_WIDTH; write_group++,
3350 write_test_bgn += RW_MGR_MEM_DQ_PER_WRITE_DQS) {
3351 /* Initialized the group failure */
3352 group_failed = 0;
3353
3354 current_run = run_groups & ((1 <<
3355 RW_MGR_NUM_DQS_PER_WRITE_GROUP) - 1);
3356 run_groups = run_groups >>
3357 RW_MGR_NUM_DQS_PER_WRITE_GROUP;
3358
3359 if (current_run == 0)
3360 continue;
3361
Marek Vasutb5450962015-07-12 21:05:08 +02003362 writel(write_group, SDR_PHYGRP_SCCGRP_ADDRESS |
3363 SCC_MGR_GROUP_COUNTER_OFFSET);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003364 scc_mgr_zero_group(write_group, write_test_bgn,
3365 0);
3366
3367 for (read_group = write_group *
3368 RW_MGR_MEM_IF_READ_DQS_WIDTH /
3369 RW_MGR_MEM_IF_WRITE_DQS_WIDTH,
3370 read_test_bgn = 0;
3371 read_group < (write_group + 1) *
3372 RW_MGR_MEM_IF_READ_DQS_WIDTH /
3373 RW_MGR_MEM_IF_WRITE_DQS_WIDTH &&
3374 group_failed == 0;
3375 read_group++, read_test_bgn +=
3376 RW_MGR_MEM_DQ_PER_READ_DQS) {
3377 /* Calibrate the VFIFO */
3378 if (!((STATIC_CALIB_STEPS) &
3379 CALIB_SKIP_VFIFO)) {
3380 if (!rw_mgr_mem_calibrate_vfifo
3381 (read_group,
3382 read_test_bgn)) {
3383 group_failed = 1;
3384
3385 if (!(gbl->
3386 phy_debug_mode_flags &
3387 PHY_DEBUG_SWEEP_ALL_GROUPS)) {
3388 return 0;
3389 }
3390 }
3391 }
3392 }
3393
3394 /* Calibrate the output side */
3395 if (group_failed == 0) {
3396 for (rank_bgn = 0, sr = 0; rank_bgn
3397 < RW_MGR_MEM_NUMBER_OF_RANKS;
3398 rank_bgn +=
3399 NUM_RANKS_PER_SHADOW_REG,
3400 ++sr) {
3401 sr_failed = 0;
3402 if (!((STATIC_CALIB_STEPS) &
3403 CALIB_SKIP_WRITES)) {
3404 if ((STATIC_CALIB_STEPS)
3405 & CALIB_SKIP_DELAY_SWEEPS) {
3406 /* not needed in quick mode! */
3407 } else {
3408 /*
3409 * Determine if this set of
3410 * ranks should be skipped
3411 * entirely.
3412 */
3413 if (!param->skip_shadow_regs[sr]) {
3414 if (!rw_mgr_mem_calibrate_writes
3415 (rank_bgn, write_group,
3416 write_test_bgn)) {
3417 sr_failed = 1;
3418 if (!(gbl->
3419 phy_debug_mode_flags &
3420 PHY_DEBUG_SWEEP_ALL_GROUPS)) {
3421 return 0;
3422 }
3423 }
3424 }
3425 }
3426 }
3427 if (sr_failed != 0)
3428 group_failed = 1;
3429 }
3430 }
3431
3432 if (group_failed == 0) {
3433 for (read_group = write_group *
3434 RW_MGR_MEM_IF_READ_DQS_WIDTH /
3435 RW_MGR_MEM_IF_WRITE_DQS_WIDTH,
3436 read_test_bgn = 0;
3437 read_group < (write_group + 1)
3438 * RW_MGR_MEM_IF_READ_DQS_WIDTH
3439 / RW_MGR_MEM_IF_WRITE_DQS_WIDTH &&
3440 group_failed == 0;
3441 read_group++, read_test_bgn +=
3442 RW_MGR_MEM_DQ_PER_READ_DQS) {
3443 if (!((STATIC_CALIB_STEPS) &
3444 CALIB_SKIP_WRITES)) {
3445 if (!rw_mgr_mem_calibrate_vfifo_end
3446 (read_group, read_test_bgn)) {
3447 group_failed = 1;
3448
3449 if (!(gbl->phy_debug_mode_flags
3450 & PHY_DEBUG_SWEEP_ALL_GROUPS)) {
3451 return 0;
3452 }
3453 }
3454 }
3455 }
3456 }
3457
3458 if (group_failed != 0)
3459 failing_groups++;
3460 }
3461
3462 /*
3463 * USER If there are any failing groups then report
3464 * the failure.
3465 */
3466 if (failing_groups != 0)
3467 return 0;
3468
3469 /* Calibrate the LFIFO */
3470 if (!((STATIC_CALIB_STEPS) & CALIB_SKIP_LFIFO)) {
3471 /*
3472 * If we're skipping groups as part of debug,
3473 * don't calibrate LFIFO.
3474 */
3475 if (param->skip_groups == 0) {
3476 if (!rw_mgr_mem_calibrate_lfifo())
3477 return 0;
3478 }
3479 }
3480 }
3481 }
3482
3483 /*
3484 * Do not remove this line as it makes sure all of our decisions
3485 * have been applied.
3486 */
Marek Vasutb5450962015-07-12 21:05:08 +02003487 writel(0, &sdr_scc_mgr->update);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003488 return 1;
3489}
3490
3491static uint32_t run_mem_calibrate(void)
3492{
3493 uint32_t pass;
3494 uint32_t debug_info;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003495
3496 debug("%s:%d\n", __func__, __LINE__);
3497
3498 /* Reset pass/fail status shown on afi_cal_success/fail */
Marek Vasutb5450962015-07-12 21:05:08 +02003499 writel(PHY_MGR_CAL_RESET, &phy_mgr_cfg->cal_status);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003500
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003501 /* stop tracking manger */
Marek Vasutcd5d38e2015-07-12 20:49:39 +02003502 uint32_t ctrlcfg = readl(&sdr_ctrl->ctrl_cfg);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003503
Marek Vasutcd5d38e2015-07-12 20:49:39 +02003504 writel(ctrlcfg & 0xFFBFFFFF, &sdr_ctrl->ctrl_cfg);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003505
3506 initialize();
3507 rw_mgr_mem_initialize();
3508
3509 pass = mem_calibrate();
3510
3511 mem_precharge_and_activate();
Marek Vasutb5450962015-07-12 21:05:08 +02003512 writel(0, &phy_mgr_cmd->fifo_reset);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003513
3514 /*
3515 * Handoff:
3516 * Don't return control of the PHY back to AFI when in debug mode.
3517 */
3518 if ((gbl->phy_debug_mode_flags & PHY_DEBUG_IN_DEBUG_MODE) == 0) {
3519 rw_mgr_mem_handoff();
3520 /*
3521 * In Hard PHY this is a 2-bit control:
3522 * 0: AFI Mux Select
3523 * 1: DDIO Mux Select
3524 */
Marek Vasutb5450962015-07-12 21:05:08 +02003525 writel(0x2, &phy_mgr_cfg->mux_sel);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003526 }
3527
Marek Vasutcd5d38e2015-07-12 20:49:39 +02003528 writel(ctrlcfg, &sdr_ctrl->ctrl_cfg);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003529
3530 if (pass) {
3531 printf("%s: CALIBRATION PASSED\n", __FILE__);
3532
3533 gbl->fom_in /= 2;
3534 gbl->fom_out /= 2;
3535
3536 if (gbl->fom_in > 0xff)
3537 gbl->fom_in = 0xff;
3538
3539 if (gbl->fom_out > 0xff)
3540 gbl->fom_out = 0xff;
3541
3542 /* Update the FOM in the register file */
3543 debug_info = gbl->fom_in;
3544 debug_info |= gbl->fom_out << 8;
Marek Vasutb5450962015-07-12 21:05:08 +02003545 writel(debug_info, &sdr_reg_file->fom);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003546
Marek Vasutb5450962015-07-12 21:05:08 +02003547 writel(debug_info, &phy_mgr_cfg->cal_debug_info);
3548 writel(PHY_MGR_CAL_SUCCESS, &phy_mgr_cfg->cal_status);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003549 } else {
3550 printf("%s: CALIBRATION FAILED\n", __FILE__);
3551
3552 debug_info = gbl->error_stage;
3553 debug_info |= gbl->error_substage << 8;
3554 debug_info |= gbl->error_group << 16;
3555
Marek Vasutb5450962015-07-12 21:05:08 +02003556 writel(debug_info, &sdr_reg_file->failing_stage);
3557 writel(debug_info, &phy_mgr_cfg->cal_debug_info);
3558 writel(PHY_MGR_CAL_FAIL, &phy_mgr_cfg->cal_status);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003559
3560 /* Update the failing group/stage in the register file */
3561 debug_info = gbl->error_stage;
3562 debug_info |= gbl->error_substage << 8;
3563 debug_info |= gbl->error_group << 16;
Marek Vasutb5450962015-07-12 21:05:08 +02003564 writel(debug_info, &sdr_reg_file->failing_stage);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003565 }
3566
3567 return pass;
3568}
3569
Marek Vasutea9771b2015-07-19 06:12:42 +02003570/**
3571 * hc_initialize_rom_data() - Initialize ROM data
3572 *
3573 * Initialize ROM data.
3574 */
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003575static void hc_initialize_rom_data(void)
3576{
Marek Vasutea9771b2015-07-19 06:12:42 +02003577 u32 i, addr;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003578
Marek Vasuta3340102015-07-12 19:03:33 +02003579 addr = SDR_PHYGRP_RWMGRGRP_ADDRESS | RW_MGR_INST_ROM_WRITE_OFFSET;
Marek Vasutea9771b2015-07-19 06:12:42 +02003580 for (i = 0; i < ARRAY_SIZE(inst_rom_init); i++)
3581 writel(inst_rom_init[i], addr + (i << 2));
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003582
Marek Vasuta3340102015-07-12 19:03:33 +02003583 addr = SDR_PHYGRP_RWMGRGRP_ADDRESS | RW_MGR_AC_ROM_WRITE_OFFSET;
Marek Vasutea9771b2015-07-19 06:12:42 +02003584 for (i = 0; i < ARRAY_SIZE(ac_rom_init); i++)
3585 writel(ac_rom_init[i], addr + (i << 2));
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003586}
3587
Marek Vasuta17ae0f2015-07-19 06:13:37 +02003588/**
3589 * initialize_reg_file() - Initialize SDR register file
3590 *
3591 * Initialize SDR register file.
3592 */
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003593static void initialize_reg_file(void)
3594{
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003595 /* Initialize the register file with the correct data */
Marek Vasutb5450962015-07-12 21:05:08 +02003596 writel(REG_FILE_INIT_SEQ_SIGNATURE, &sdr_reg_file->signature);
3597 writel(0, &sdr_reg_file->debug_data_addr);
3598 writel(0, &sdr_reg_file->cur_stage);
3599 writel(0, &sdr_reg_file->fom);
3600 writel(0, &sdr_reg_file->failing_stage);
3601 writel(0, &sdr_reg_file->debug1);
3602 writel(0, &sdr_reg_file->debug2);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003603}
3604
Marek Vasut0c9f3cb2015-07-19 06:14:04 +02003605/**
3606 * initialize_hps_phy() - Initialize HPS PHY
3607 *
3608 * Initialize HPS PHY.
3609 */
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003610static void initialize_hps_phy(void)
3611{
3612 uint32_t reg;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003613 /*
3614 * Tracking also gets configured here because it's in the
3615 * same register.
3616 */
3617 uint32_t trk_sample_count = 7500;
3618 uint32_t trk_long_idle_sample_count = (10 << 16) | 100;
3619 /*
3620 * Format is number of outer loops in the 16 MSB, sample
3621 * count in 16 LSB.
3622 */
3623
3624 reg = 0;
3625 reg |= SDR_CTRLGRP_PHYCTRL_PHYCTRL_0_ACDELAYEN_SET(2);
3626 reg |= SDR_CTRLGRP_PHYCTRL_PHYCTRL_0_DQDELAYEN_SET(1);
3627 reg |= SDR_CTRLGRP_PHYCTRL_PHYCTRL_0_DQSDELAYEN_SET(1);
3628 reg |= SDR_CTRLGRP_PHYCTRL_PHYCTRL_0_DQSLOGICDELAYEN_SET(1);
3629 reg |= SDR_CTRLGRP_PHYCTRL_PHYCTRL_0_RESETDELAYEN_SET(0);
3630 reg |= SDR_CTRLGRP_PHYCTRL_PHYCTRL_0_LPDDRDIS_SET(1);
3631 /*
3632 * This field selects the intrinsic latency to RDATA_EN/FULL path.
3633 * 00-bypass, 01- add 5 cycles, 10- add 10 cycles, 11- add 15 cycles.
3634 */
3635 reg |= SDR_CTRLGRP_PHYCTRL_PHYCTRL_0_ADDLATSEL_SET(0);
3636 reg |= SDR_CTRLGRP_PHYCTRL_PHYCTRL_0_SAMPLECOUNT_19_0_SET(
3637 trk_sample_count);
Marek Vasutcd5d38e2015-07-12 20:49:39 +02003638 writel(reg, &sdr_ctrl->phy_ctrl0);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003639
3640 reg = 0;
3641 reg |= SDR_CTRLGRP_PHYCTRL_PHYCTRL_1_SAMPLECOUNT_31_20_SET(
3642 trk_sample_count >>
3643 SDR_CTRLGRP_PHYCTRL_PHYCTRL_0_SAMPLECOUNT_19_0_WIDTH);
3644 reg |= SDR_CTRLGRP_PHYCTRL_PHYCTRL_1_LONGIDLESAMPLECOUNT_19_0_SET(
3645 trk_long_idle_sample_count);
Marek Vasutcd5d38e2015-07-12 20:49:39 +02003646 writel(reg, &sdr_ctrl->phy_ctrl1);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003647
3648 reg = 0;
3649 reg |= SDR_CTRLGRP_PHYCTRL_PHYCTRL_2_LONGIDLESAMPLECOUNT_31_20_SET(
3650 trk_long_idle_sample_count >>
3651 SDR_CTRLGRP_PHYCTRL_PHYCTRL_1_LONGIDLESAMPLECOUNT_19_0_WIDTH);
Marek Vasutcd5d38e2015-07-12 20:49:39 +02003652 writel(reg, &sdr_ctrl->phy_ctrl2);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003653}
3654
3655static void initialize_tracking(void)
3656{
3657 uint32_t concatenated_longidle = 0x0;
3658 uint32_t concatenated_delays = 0x0;
3659 uint32_t concatenated_rw_addr = 0x0;
3660 uint32_t concatenated_refresh = 0x0;
3661 uint32_t trk_sample_count = 7500;
3662 uint32_t dtaps_per_ptap;
3663 uint32_t tmp_delay;
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003664
3665 /*
3666 * compute usable version of value in case we skip full
3667 * computation later
3668 */
3669 dtaps_per_ptap = 0;
3670 tmp_delay = 0;
3671 while (tmp_delay < IO_DELAY_PER_OPA_TAP) {
3672 dtaps_per_ptap++;
3673 tmp_delay += IO_DELAY_PER_DCHAIN_TAP;
3674 }
3675 dtaps_per_ptap--;
3676
3677 concatenated_longidle = concatenated_longidle ^ 10;
3678 /*longidle outer loop */
3679 concatenated_longidle = concatenated_longidle << 16;
3680 concatenated_longidle = concatenated_longidle ^ 100;
3681 /*longidle sample count */
3682 concatenated_delays = concatenated_delays ^ 243;
3683 /* trfc, worst case of 933Mhz 4Gb */
3684 concatenated_delays = concatenated_delays << 8;
3685 concatenated_delays = concatenated_delays ^ 14;
3686 /* trcd, worst case */
3687 concatenated_delays = concatenated_delays << 8;
3688 concatenated_delays = concatenated_delays ^ 10;
3689 /* vfifo wait */
3690 concatenated_delays = concatenated_delays << 8;
3691 concatenated_delays = concatenated_delays ^ 4;
3692 /* mux delay */
3693
3694 concatenated_rw_addr = concatenated_rw_addr ^ RW_MGR_IDLE;
3695 concatenated_rw_addr = concatenated_rw_addr << 8;
3696 concatenated_rw_addr = concatenated_rw_addr ^ RW_MGR_ACTIVATE_1;
3697 concatenated_rw_addr = concatenated_rw_addr << 8;
3698 concatenated_rw_addr = concatenated_rw_addr ^ RW_MGR_SGLE_READ;
3699 concatenated_rw_addr = concatenated_rw_addr << 8;
3700 concatenated_rw_addr = concatenated_rw_addr ^ RW_MGR_PRECHARGE_ALL;
3701
3702 concatenated_refresh = concatenated_refresh ^ RW_MGR_REFRESH_ALL;
3703 concatenated_refresh = concatenated_refresh << 24;
3704 concatenated_refresh = concatenated_refresh ^ 1000; /* trefi */
3705
3706 /* Initialize the register file with the correct data */
Marek Vasutb5450962015-07-12 21:05:08 +02003707 writel(dtaps_per_ptap, &sdr_reg_file->dtaps_per_ptap);
3708 writel(trk_sample_count, &sdr_reg_file->trk_sample_count);
3709 writel(concatenated_longidle, &sdr_reg_file->trk_longidle);
3710 writel(concatenated_delays, &sdr_reg_file->delays);
3711 writel(concatenated_rw_addr, &sdr_reg_file->trk_rw_mgr_addr);
3712 writel(RW_MGR_MEM_IF_READ_DQS_WIDTH, &sdr_reg_file->trk_read_dqs_width);
3713 writel(concatenated_refresh, &sdr_reg_file->trk_rfsh);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003714}
3715
3716int sdram_calibration_full(void)
3717{
3718 struct param_type my_param;
3719 struct gbl_type my_gbl;
3720 uint32_t pass;
3721 uint32_t i;
3722
3723 param = &my_param;
3724 gbl = &my_gbl;
3725
3726 /* Initialize the debug mode flags */
3727 gbl->phy_debug_mode_flags = 0;
3728 /* Set the calibration enabled by default */
3729 gbl->phy_debug_mode_flags |= PHY_DEBUG_ENABLE_CAL_RPT;
3730 /*
3731 * Only sweep all groups (regardless of fail state) by default
3732 * Set enabled read test by default.
3733 */
3734#if DISABLE_GUARANTEED_READ
3735 gbl->phy_debug_mode_flags |= PHY_DEBUG_DISABLE_GUARANTEED_READ;
3736#endif
3737 /* Initialize the register file */
3738 initialize_reg_file();
3739
3740 /* Initialize any PHY CSR */
3741 initialize_hps_phy();
3742
3743 scc_mgr_initialize();
3744
3745 initialize_tracking();
3746
3747 /* USER Enable all ranks, groups */
3748 for (i = 0; i < RW_MGR_MEM_NUMBER_OF_RANKS; i++)
3749 param->skip_ranks[i] = 0;
3750 for (i = 0; i < NUM_SHADOW_REGS; ++i)
3751 param->skip_shadow_regs[i] = 0;
3752 param->skip_groups = 0;
3753
3754 printf("%s: Preparing to start memory calibration\n", __FILE__);
3755
3756 debug("%s:%d\n", __func__, __LINE__);
Marek Vasut6283b4c2015-07-13 01:05:27 +02003757 debug_cond(DLEVEL == 1,
3758 "DDR3 FULL_RATE ranks=%u cs/dimm=%u dq/dqs=%u,%u vg/dqs=%u,%u ",
3759 RW_MGR_MEM_NUMBER_OF_RANKS, RW_MGR_MEM_NUMBER_OF_CS_PER_DIMM,
3760 RW_MGR_MEM_DQ_PER_READ_DQS, RW_MGR_MEM_DQ_PER_WRITE_DQS,
3761 RW_MGR_MEM_VIRTUAL_GROUPS_PER_READ_DQS,
3762 RW_MGR_MEM_VIRTUAL_GROUPS_PER_WRITE_DQS);
3763 debug_cond(DLEVEL == 1,
3764 "dqs=%u,%u dq=%u dm=%u ptap_delay=%u dtap_delay=%u ",
3765 RW_MGR_MEM_IF_READ_DQS_WIDTH, RW_MGR_MEM_IF_WRITE_DQS_WIDTH,
3766 RW_MGR_MEM_DATA_WIDTH, RW_MGR_MEM_DATA_MASK_WIDTH,
3767 IO_DELAY_PER_OPA_TAP, IO_DELAY_PER_DCHAIN_TAP);
3768 debug_cond(DLEVEL == 1, "dtap_dqsen_delay=%u, dll=%u",
3769 IO_DELAY_PER_DQS_EN_DCHAIN_TAP, IO_DLL_CHAIN_LENGTH);
3770 debug_cond(DLEVEL == 1, "max values: en_p=%u dqdqs_p=%u en_d=%u dqs_in_d=%u ",
3771 IO_DQS_EN_PHASE_MAX, IO_DQDQS_OUT_PHASE_MAX,
3772 IO_DQS_EN_DELAY_MAX, IO_DQS_IN_DELAY_MAX);
3773 debug_cond(DLEVEL == 1, "io_in_d=%u io_out1_d=%u io_out2_d=%u ",
3774 IO_IO_IN_DELAY_MAX, IO_IO_OUT1_DELAY_MAX,
3775 IO_IO_OUT2_DELAY_MAX);
3776 debug_cond(DLEVEL == 1, "dqs_in_reserve=%u dqs_out_reserve=%u\n",
3777 IO_DQS_IN_RESERVE, IO_DQS_OUT_RESERVE);
Dinh Nguyen135cc7f2015-06-02 22:52:49 -05003778
3779 hc_initialize_rom_data();
3780
3781 /* update info for sims */
3782 reg_file_set_stage(CAL_STAGE_NIL);
3783 reg_file_set_group(0);
3784
3785 /*
3786 * Load global needed for those actions that require
3787 * some dynamic calibration support.
3788 */
3789 dyn_calib_steps = STATIC_CALIB_STEPS;
3790 /*
3791 * Load global to allow dynamic selection of delay loop settings
3792 * based on calibration mode.
3793 */
3794 if (!(dyn_calib_steps & CALIB_SKIP_DELAY_LOOPS))
3795 skip_delay_mask = 0xff;
3796 else
3797 skip_delay_mask = 0x0;
3798
3799 pass = run_mem_calibrate();
3800
3801 printf("%s: Calibration complete\n", __FILE__);
3802 return pass;
3803}