1 // SPDX-License-Identifier: GPL-2.0 2 /* 3 * Copyright (C) ASPEED Technology Inc. 4 * 5 */ 6 7 #include <common.h> 8 #include <clk.h> 9 #include <dm.h> 10 #include <errno.h> 11 #include <ram.h> 12 #include <regmap.h> 13 #include <reset.h> 14 #include <asm/io.h> 15 #include <asm/arch/scu_ast2600.h> 16 #include <asm/arch/sdram_ast2600.h> 17 #include <linux/err.h> 18 #include <linux/kernel.h> 19 #include <dt-bindings/clock/ast2600-clock.h> 20 #include "sdram_phy_ast2600.h" 21 22 /* in order to speed up DRAM init time, write pre-defined values to registers 23 * directly */ 24 #define AST2600_SDRAMMC_MANUAL_CLK 25 26 /* register offset */ 27 #define AST_SCU_FPGA_STATUS 0x004 28 #define AST_SCU_HANDSHAKE 0x100 29 #define AST_SCU_MPLL 0x220 30 #define AST_SCU_MPLL_EXT 0x224 31 #define AST_SCU_FPGA_PLL 0x400 32 #define AST_SCU_HW_STRAP 0x500 33 #define AST_SCU_EFUSE_DATA 0x594 34 35 36 /* bit-field of AST_SCU_HW_STRAP */ 37 #define SCU_HWSTRAP_VGAMEM_SHIFT 13 38 #define SCU_HWSTRAP_VGAMEM_MASK GENMASK(14, 13) 39 40 /* bit-field of AST_SCU_EFUSE_DATA */ 41 #define SCU_EFUSE_DATA_VGA_DIS_MASK BIT(14) 42 43 /* bit-field of AST_SCU_HANDSHAKE */ 44 #define SCU_SDRAM_INIT_READY_MASK BIT(6) 45 #define SCU_SDRAM_INIT_BY_SOC_MASK BIT(7) 46 47 /* bit-field of AST_SCU_MPLL */ 48 #define SCU_MPLL_RESET BIT(25) 49 #define SCU_MPLL_BYPASS BIT(24) 50 #define SCU_MPLL_TURN_OFF BIT(23) 51 #define SCU_MPLL_FREQ_MASK GENMASK(22, 0) 52 53 #define SCU_MPLL_FREQ_400M 0x0008405F 54 #define SCU_MPLL_EXT_400M 0x00000031 55 //#define SCU_MPLL_FREQ_400M 0x0038007F 56 //#define SCU_MPLL_EXT_400M 0x0000003F 57 #define SCU_MPLL_FREQ_333M 0x00488299 58 #define SCU_MPLL_EXT_333M 0x0000014C 59 #define SCU_MPLL_FREQ_200M 0x0078007F 60 #define SCU_MPLL_EXT_200M 0x0000003F 61 #define SCU_MPLL_FREQ_100M 0x0078003F 62 #define SCU_MPLL_EXT_100M 0x0000001F 63 /* MPLL configuration */ 64 #if defined(CONFIG_ASPEED_DDR4_1600) 65 #define SCU_MPLL_FREQ_CFG SCU_MPLL_FREQ_400M 66 #define SCU_MPLL_EXT_CFG SCU_MPLL_EXT_400M 67 #elif defined(CONFIG_ASPEED_DDR4_1333) 68 #define SCU_MPLL_FREQ_CFG SCU_MPLL_FREQ_333M 69 #define SCU_MPLL_EXT_CFG SCU_MPLL_EXT_333M 70 #elif defined(CONFIG_ASPEED_DDR4_800) 71 #define SCU_MPLL_FREQ_CFG SCU_MPLL_FREQ_200M 72 #define SCU_MPLL_EXT_CFG SCU_MPLL_EXT_200M 73 #elif defined(CONFIG_ASPEED_DDR4_400) 74 #define SCU_MPLL_FREQ_CFG SCU_MPLL_FREQ_100M 75 #define SCU_MPLL_EXT_CFG SCU_MPLL_EXT_100M 76 #else 77 #error "undefined DDR4 target rate\n" 78 #endif 79 80 /* AC timing and SDRAM mode registers */ 81 #if defined(CONFIG_FPGA_ASPEED) || defined(CONFIG_ASPEED_PALLADIUM) 82 /* mode register settings for FPGA are fixed */ 83 #define DDR4_MR01_MODE 0x03010100 84 #define DDR4_MR23_MODE 0x00000000 85 #define DDR4_MR45_MODE 0x04C00000 86 #define DDR4_MR6_MODE 0x00000050 87 #define DDR4_TRFC_FPGA 0x17263434 88 89 /* FPGA need for an additional initialization procedure: search read window */ 90 #define SEARCH_RDWIN_ANCHOR_0 (CONFIG_SYS_SDRAM_BASE + 0x0000) 91 #define SEARCH_RDWIN_ANCHOR_1 (CONFIG_SYS_SDRAM_BASE + 0x0004) 92 #define SEARCH_RDWIN_PTRN_0 0x12345678 93 #define SEARCH_RDWIN_PTRN_1 0xaabbccdd 94 #define SEARCH_RDWIN_PTRN_SUM 0xbcf02355 95 #else 96 /* mode register setting for real chip are derived from the model GDDR4-1600 */ 97 #define DDR4_MR01_MODE 0x03010510 98 #define DDR4_MR23_MODE 0x00000000 99 #define DDR4_MR45_MODE 0x04000000 100 #define DDR4_MR6_MODE 0x00000400 101 #define DDR4_TRFC_1600 0x467299f1 102 #define DDR4_TRFC_1333 0x3a5f80c9 103 #define DDR4_TRFC_800 0x23394c78 104 #define DDR4_TRFC_400 0x111c263c 105 #endif /* end of "#if defined(CONFIG_FPGA_ASPEED) || \ 106 defined(CONFIG_ASPEED_PALLADIUM)" */ 107 108 #if defined(CONFIG_FPGA_ASPEED) || defined(CONFIG_ASPEED_PALLADIUM) 109 #define DDR4_TRFC DDR4_TRFC_FPGA 110 #else 111 /* real chip setting */ 112 #if defined(CONFIG_ASPEED_DDR4_1600) 113 #define DDR4_TRFC DDR4_TRFC_1600 114 #define DDR4_PHY_TRAIN_TRFC 0xc30 115 #elif defined(CONFIG_ASPEED_DDR4_1333) 116 #define DDR4_TRFC DDR4_TRFC_1333 117 #define DDR4_PHY_TRAIN_TRFC 0xa25 118 #elif defined(CONFIG_ASPEED_DDR4_800) 119 #define DDR4_TRFC DDR4_TRFC_800 120 #define DDR4_PHY_TRAIN_TRFC 0x618 121 #elif defined(CONFIG_ASPEED_DDR4_400) 122 #define DDR4_TRFC DDR4_TRFC_400 123 #define DDR4_PHY_TRAIN_TRFC 0x30c 124 #else 125 #error "undefined tRFC setting" 126 #endif /* end of "#if (SCU_MPLL_FREQ_CFG == SCU_MPLL_FREQ_400M)" */ 127 #endif /* end of "#if defined(CONFIG_FPGA_ASPEED) || \ 128 defined(CONFIG_ASPEED_PALLADIUM)" */ 129 130 /* supported SDRAM size */ 131 #define SDRAM_SIZE_1KB (1024U) 132 #define SDRAM_SIZE_1MB (SDRAM_SIZE_1KB * SDRAM_SIZE_1KB) 133 #define SDRAM_MIN_SIZE (256 * SDRAM_SIZE_1MB) 134 #define SDRAM_MAX_SIZE (2048 * SDRAM_SIZE_1MB) 135 136 137 DECLARE_GLOBAL_DATA_PTR; 138 139 /* 140 * Bandwidth configuration parameters for different SDRAM requests. 141 * These are hardcoded settings taken from Aspeed SDK. 142 */ 143 #if defined(CONFIG_FPGA_ASPEED) || defined(CONFIG_ASPEED_PALLADIUM) 144 static const u32 ddr4_ac_timing[4] = {0x030C0207, 0x04451133, 0x0E010200, 145 0x00000140}; 146 147 static const u32 ddr_max_grant_params[4] = {0x88888888, 0x88888888, 0x88888888, 148 0x88888888}; 149 #else 150 static const u32 ddr4_ac_timing[4] = {0x040e0307, 0x0f4711f1, 0x0e060304, 151 0x00001240}; 152 153 static const u32 ddr_max_grant_params[4] = {0x44444444, 0x44444444, 0x44444444, 154 0x44444444}; 155 #endif 156 157 struct dram_info { 158 struct ram_info info; 159 struct clk ddr_clk; 160 struct ast2600_sdrammc_regs *regs; 161 void __iomem *scu; 162 struct ast2600_ddr_phy *phy; 163 void __iomem *phy_setting; 164 void __iomem *phy_status; 165 ulong clock_rate; 166 }; 167 168 static void ast2600_sdramphy_kick_training(struct dram_info *info) 169 { 170 #if !defined(CONFIG_FPGA_ASPEED) && !defined(CONFIG_ASPEED_PALLADIUM) 171 struct ast2600_sdrammc_regs *regs = info->regs; 172 u32 volatile data; 173 174 writel(SDRAM_PHYCTRL0_NRST, ®s->phy_ctrl[0]); 175 udelay(5); 176 writel(SDRAM_PHYCTRL0_NRST | SDRAM_PHYCTRL0_INIT, ®s->phy_ctrl[0]); 177 udelay(1000); 178 179 while (1) { 180 data = readl(®s->phy_ctrl[0]) & SDRAM_PHYCTRL0_INIT; 181 if (~data) { 182 break; 183 } 184 } 185 186 #if 0 187 while (1) { 188 data = readl(0x1e6e0400) & BIT(1); 189 if (data) { 190 break; 191 } 192 } 193 #endif 194 #endif 195 } 196 197 /** 198 * @brief load DDR-PHY configurations table to the PHY registers 199 * @param[in] p_tbl - pointer to the configuration table 200 * @param[in] info - pointer to the DRAM info struct 201 * 202 * There are two sets of MRS (Mode Registers) configuration in ast2600 memory 203 * system: one is in the SDRAM MC (memory controller) which is used in run 204 * time, and the other is in the DDR-PHY IP which is used during DDR-PHY 205 * training. 206 */ 207 static void ast2600_sdramphy_init(u32 *p_tbl, struct dram_info *info) 208 { 209 #if !defined(CONFIG_FPGA_ASPEED) && !defined(CONFIG_ASPEED_PALLADIUM) 210 u32 reg_base = (u32)info->phy_setting; 211 u32 addr = p_tbl[0]; 212 u32 data; 213 int i = 1; 214 215 writel(0, &info->regs->phy_ctrl[0]); 216 udelay(10); 217 //writel(SDRAM_PHYCTRL0_NRST, ®s->phy_ctrl[0]); 218 219 220 /* load PHY configuration table into PHY-setting registers */ 221 while (1) { 222 if (addr < reg_base) { 223 debug("invalid DDR-PHY addr: 0x%08x\n", addr); 224 break; 225 } 226 data = p_tbl[i++]; 227 228 if (DDR_PHY_TBL_END == data) { 229 break; 230 } else if (DDR_PHY_TBL_CHG_ADDR == data) { 231 addr = p_tbl[i++]; 232 } else { 233 writel(data, addr); 234 addr += 4; 235 } 236 } 237 238 data = readl(info->phy_setting + 0x84) & ~GENMASK(16, 0); 239 data |= DDR4_PHY_TRAIN_TRFC; 240 writel(data, info->phy_setting + 0x84); 241 #endif 242 } 243 244 static int ast2600_sdramphy_check_status(struct dram_info *info) 245 { 246 #if !defined(CONFIG_FPGA_ASPEED) && !defined(CONFIG_ASPEED_PALLADIUM) 247 u32 value, tmp; 248 u32 reg_base = (u32)info->phy_status; 249 int need_retrain = 0; 250 251 debug("\nSDRAM PHY training report:\n"); 252 /* training status */ 253 value = readl(reg_base + 0x00); 254 debug("rO_DDRPHY_reg offset 0x00 = 0x%08x\n", value); 255 if (value & BIT(3)) { 256 debug("\tinitial PVT calibration fail\n"); 257 } 258 if (value & BIT(5)) { 259 debug("\truntime calibration fail\n"); 260 } 261 262 /* PU & PD */ 263 value = readl(reg_base + 0x30); 264 debug("rO_DDRPHY_reg offset 0x30 = 0x%08x\n", value); 265 debug(" PU = 0x%02x\n", value & 0xff); 266 debug(" PD = 0x%02x\n", (value >> 16) & 0xff); 267 268 /* read eye window */ 269 value = readl(reg_base + 0x68); 270 if (0 == (value & GENMASK(7, 0))) { 271 need_retrain = 1; 272 } 273 274 debug("rO_DDRPHY_reg offset 0x68 = 0x%08x\n", value); 275 debug(" rising edge of read data eye training pass window\n"); 276 tmp = (((value & GENMASK(7, 0)) >> 0) * 100) / 255; 277 debug(" B0:%d%%\n", tmp); 278 tmp = (((value & GENMASK(15, 8)) >> 8) * 100) / 255; 279 debug(" B1:%d%%\n", tmp); 280 281 value = readl(reg_base + 0xC8); 282 debug("rO_DDRPHY_reg offset 0xC8 = 0x%08x\n", value); 283 debug(" falling edge of read data eye training pass window\n"); 284 tmp = (((value & GENMASK(7, 0)) >> 0) * 100) / 255; 285 debug(" B0:%d%%\n", tmp); 286 tmp = (((value & GENMASK(15, 8)) >> 8) * 100) / 255; 287 debug(" B1:%d%%\n", tmp); 288 289 /* write eye window */ 290 value = readl(reg_base + 0x7c); 291 if (0 == (value & GENMASK(7, 0))) { 292 need_retrain = 1; 293 } 294 295 debug("rO_DDRPHY_reg offset 0x7C = 0x%08x\n", value); 296 debug(" rising edge of write data eye training pass window\n"); 297 tmp = (((value & GENMASK(7, 0)) >> 0) * 100) / 255; 298 debug(" B0:%d%%\n", tmp); 299 tmp = (((value & GENMASK(15, 8)) >> 8) * 100) / 255; 300 debug(" B1:%d%%\n", tmp); 301 302 /* read Vref training result */ 303 value = readl(reg_base + 0x88); 304 debug("rO_DDRPHY_reg offset 0x88 = 0x%08x\n", value); 305 debug(" read Vref training result\n"); 306 tmp = (((value & GENMASK(7, 0)) >> 0) * 100) / 127; 307 debug(" B0:%d%%\n", tmp); 308 tmp = (((value & GENMASK(15, 8)) >> 8) * 100) / 127; 309 debug(" B1:%d%%\n", tmp); 310 311 /* write Vref training result */ 312 value = readl(reg_base + 0x90); 313 debug("rO_DDRPHY_reg offset 0x90 = 0x%08x\n", value); 314 #if 0 315 tmp = (((value & GENMASK(5, 0)) >> 0) * 100) / 127; 316 debug(" write Vref training result = %d%%\n", tmp); 317 #endif 318 319 /* gate train */ 320 value = readl(reg_base + 0x50); 321 if ((0 == (value & GENMASK(15, 0))) || 322 (0 == (value & GENMASK(31, 16)))) { 323 need_retrain = 1; 324 } 325 #if 0 326 if (((value >> 24) & 0xff) < 3) 327 need_retrain = 1; 328 else 329 need_retrain = 0; 330 #endif 331 debug("rO_DDRPHY_reg offset 0x50 = 0x%08x\n", value); 332 #if 0 333 debug(" gate training pass window\n"); 334 tmp = (((value & GENMASK(7, 0)) >> 0) * 100) / 255; 335 debug(" module 0: %d.%03d\n", (value >> 8) & 0xff, tmp); 336 tmp = (((value & GENMASK(23, 16)) >> 0) * 100) / 255; 337 debug(" module 1: %d.%03d\n", (value >> 24) & 0xff, tmp); 338 #endif 339 340 return need_retrain; 341 #else 342 return 0; 343 #endif 344 } 345 #ifndef CONFIG_ASPEED_BYPASS_SELFTEST 346 #define MC_TEST_PATTERN_N 8 347 static u32 as2600_sdrammc_test_pattern[MC_TEST_PATTERN_N] = { 348 0xcc33cc33, 0xff00ff00, 0xaa55aa55, 0x88778877, 349 0x92cc4d6e, 0x543d3cde, 0xf1e843c7, 0x7c61d253}; 350 351 #define TIMEOUT_DRAM 5000000 352 int ast2600_sdrammc_dg_test(struct dram_info *info, unsigned int datagen, u32 mode) 353 { 354 unsigned int data; 355 unsigned int timeout = 0; 356 struct ast2600_sdrammc_regs *regs = info->regs; 357 358 writel(0, ®s->ecc_test_ctrl); 359 if (mode == 0) { 360 writel(0x00000085 | (datagen << 3), ®s->ecc_test_ctrl); 361 } else { 362 writel(0x000000C1 | (datagen << 3), ®s->ecc_test_ctrl); 363 } 364 365 do { 366 data = readl(®s->ecc_test_ctrl) & GENMASK(13, 12); 367 368 if (data & BIT(13)) 369 return (0); 370 371 if (++timeout > TIMEOUT_DRAM) { 372 printf("Timeout!!\n"); 373 writel(0, ®s->ecc_test_ctrl); 374 375 return (0); 376 } 377 } while (!data); 378 379 writel(0, ®s->ecc_test_ctrl); 380 381 return (1); 382 } 383 384 int ast2600_sdrammc_cbr_test(struct dram_info *info) 385 { 386 struct ast2600_sdrammc_regs *regs = info->regs; 387 u32 i; 388 389 clrsetbits_le32(®s->test_addr, GENMASK(30, 4), 0x7ffff0); 390 391 /* single */ 392 for (i=0; i<8; i++) { 393 if(!ast2600_sdrammc_dg_test(info, i, 0)) return(0); 394 } 395 396 /* burst */ 397 for (i=0; i<8; i++) { 398 if(!ast2600_sdrammc_dg_test(info, i, i)) return(0); 399 } 400 401 return(1); 402 } 403 404 static int ast2600_sdrammc_test(struct dram_info *info) 405 { 406 struct ast2600_sdrammc_regs *regs = info->regs; 407 408 u32 pass_cnt = 0; 409 u32 fail_cnt = 0; 410 u32 target_cnt = 2; 411 u32 test_cnt = 0; 412 u32 pattern; 413 u32 i = 0; 414 bool finish = false; 415 416 debug("sdram mc test:\n"); 417 while (finish == false) { 418 pattern = as2600_sdrammc_test_pattern[i++]; 419 i = i % MC_TEST_PATTERN_N; 420 debug(" pattern = %08X : ",pattern); 421 writel(pattern, ®s->test_init_val); 422 423 if (!ast2600_sdrammc_cbr_test(info)) { 424 debug("fail\n"); 425 fail_cnt++; 426 } else { 427 debug("pass\n"); 428 pass_cnt++; 429 } 430 431 if (++test_cnt == target_cnt) { 432 finish = true; 433 } 434 } 435 debug("statistics: pass/fail/total:%d/%d/%d\n", pass_cnt, fail_cnt, 436 target_cnt); 437 return fail_cnt; 438 } 439 #endif 440 /** 441 * scu500[14:13] 442 * 2b'00: VGA memory size = 16MB 443 * 2b'01: VGA memory size = 16MB 444 * 2b'10: VGA memory size = 32MB 445 * 2b'11: VGA memory size = 64MB 446 * 447 * mcr04[3:2] 448 * 2b'00: VGA memory size = 8MB 449 * 2b'01: VGA memory size = 16MB 450 * 2b'10: VGA memory size = 32MB 451 * 2b'11: VGA memory size = 64MB 452 */ 453 static size_t ast2600_sdrammc_get_vga_mem_size(struct dram_info *info) 454 { 455 u32 vga_hwconf; 456 size_t vga_mem_size_base = 8 * 1024 * 1024; 457 458 vga_hwconf = 459 (readl(info->scu + AST_SCU_HW_STRAP) & SCU_HWSTRAP_VGAMEM_MASK) >> 460 SCU_HWSTRAP_VGAMEM_SHIFT; 461 462 if (vga_hwconf == 0) { 463 vga_hwconf = 1; 464 writel(vga_hwconf << SCU_HWSTRAP_VGAMEM_SHIFT, 465 info->scu + AST_SCU_HW_STRAP); 466 } 467 468 clrsetbits_le32(&info->regs->config, SDRAM_CONF_VGA_SIZE_MASK, 469 ((vga_hwconf << SDRAM_CONF_VGA_SIZE_SHIFT) & 470 SDRAM_CONF_VGA_SIZE_MASK)); 471 472 /* no need to reserve VGA memory if efuse[VGA disable] is set */ 473 if (readl(info->scu + AST_SCU_EFUSE_DATA) & SCU_EFUSE_DATA_VGA_DIS_MASK) 474 return 0; 475 476 return vga_mem_size_base << vga_hwconf; 477 } 478 #if defined(CONFIG_FPGA_ASPEED) || defined(CONFIG_ASPEED_PALLADIUM) 479 static void ast2600_sdrammc_fpga_set_pll(struct dram_info *info) 480 { 481 u32 data; 482 u32 scu_base = (u32)info->scu; 483 484 writel(0x00000303, scu_base + AST_SCU_FPGA_PLL); 485 486 do { 487 data = readl(scu_base + AST_SCU_FPGA_STATUS); 488 } while (!(data & 0x100)); 489 490 writel(0x00000103, scu_base + AST_SCU_FPGA_PLL); 491 } 492 493 static int ast2600_sdrammc_search_read_window(struct dram_info *info) 494 { 495 u32 pll, pll_min, pll_max, dat1, offset; 496 u32 win = 0x03, gwin = 0, gwinsize = 0; 497 u32 phy_setting = (u32)info->phy_setting; 498 499 #ifdef CONFIG_ASPEED_PALLADIUM 500 writel(0xc, phy_setting + 0x0000); 501 return (1); 502 #endif 503 writel(SEARCH_RDWIN_PTRN_0, SEARCH_RDWIN_ANCHOR_0); 504 writel(SEARCH_RDWIN_PTRN_1, SEARCH_RDWIN_ANCHOR_1); 505 506 while (gwin == 0) { 507 while (!(win & 0x80)) { 508 debug("Window = 0x%X\n", win); 509 writel(win, phy_setting + 0x0000); 510 511 dat1 = readl(SEARCH_RDWIN_ANCHOR_0); 512 dat1 += readl(SEARCH_RDWIN_ANCHOR_1); 513 while (dat1 == SEARCH_RDWIN_PTRN_SUM) { 514 ast2600_sdrammc_fpga_set_pll(info); 515 dat1 = readl(SEARCH_RDWIN_ANCHOR_0); 516 dat1 += readl(SEARCH_RDWIN_ANCHOR_1); 517 } 518 519 pll_min = 0xfff; 520 pll_max = 0x0; 521 pll = 0; 522 while (pll_max > 0 || pll < 256) { 523 ast2600_sdrammc_fpga_set_pll(info); 524 dat1 = readl(SEARCH_RDWIN_ANCHOR_0); 525 dat1 += readl(SEARCH_RDWIN_ANCHOR_1); 526 if (dat1 == SEARCH_RDWIN_PTRN_SUM) { 527 if (pll_min > pll) { 528 pll_min = pll; 529 } 530 if (pll_max < pll) { 531 pll_max = pll; 532 } 533 debug("%3d_(%3d:%3d)\n", pll, pll_min, 534 pll_max); 535 } else if (pll_max > 0) { 536 pll_min = pll_max - pll_min; 537 if (gwinsize < pll_min) { 538 gwin = win; 539 gwinsize = pll_min; 540 } 541 break; 542 } 543 pll += 1; 544 } 545 546 if (gwin != 0 && pll_max == 0) { 547 break; 548 } 549 win = win << 1; 550 } 551 if (gwin == 0) { 552 win = 0x7; 553 } 554 } 555 debug("Set PLL Read Gating Window = %x\n", gwin); 556 writel(gwin, phy_setting + 0x0000); 557 558 debug("PLL Read Window training\n"); 559 pll_min = 0xfff; 560 pll_max = 0x0; 561 562 debug("Search Window Start\n"); 563 dat1 = readl(SEARCH_RDWIN_ANCHOR_0); 564 dat1 += readl(SEARCH_RDWIN_ANCHOR_1); 565 while (dat1 == SEARCH_RDWIN_PTRN_SUM) { 566 ast2600_sdrammc_fpga_set_pll(info); 567 dat1 = readl(SEARCH_RDWIN_ANCHOR_0); 568 dat1 += readl(SEARCH_RDWIN_ANCHOR_1); 569 } 570 571 debug("Search Window Margin\n"); 572 pll = 0; 573 while (pll_max > 0 || pll < 256) { 574 ast2600_sdrammc_fpga_set_pll(info); 575 dat1 = readl(SEARCH_RDWIN_ANCHOR_0); 576 dat1 += readl(SEARCH_RDWIN_ANCHOR_1); 577 if (dat1 == SEARCH_RDWIN_PTRN_SUM) { 578 if (pll_min > pll) { 579 pll_min = pll; 580 } 581 if (pll_max < pll) { 582 pll_max = pll; 583 } 584 debug("%3d_(%3d:%3d)\n", pll, pll_min, pll_max); 585 } else if (pll_max > 0 && (pll_max - pll_min) > 20) { 586 break; 587 } else if (pll_max > 0) { 588 pll_min = 0xfff; 589 pll_max = 0x0; 590 } 591 pll += 1; 592 } 593 if (pll_min < pll_max) { 594 debug("PLL Read window = %d\n", (pll_max - pll_min)); 595 offset = (pll_max - pll_min) >> 1; 596 pll_min = 0xfff; 597 pll = 0; 598 while (pll < (pll_min + offset)) { 599 ast2600_sdrammc_fpga_set_pll(info); 600 dat1 = readl(SEARCH_RDWIN_ANCHOR_0); 601 dat1 += readl(SEARCH_RDWIN_ANCHOR_1); 602 if (dat1 == SEARCH_RDWIN_PTRN_SUM) { 603 if (pll_min > pll) { 604 pll_min = pll; 605 } 606 debug("%d\n", pll); 607 } else { 608 pll_min = 0xfff; 609 pll_max = 0x0; 610 } 611 pll += 1; 612 } 613 return (1); 614 } else { 615 debug("PLL Read window training fail\n"); 616 return (0); 617 } 618 } 619 #endif /* end of "#if defined(CONFIG_FPGA_ASPEED) || \ 620 defined(CONFIG_ASPEED_PALLADIUM)" */ 621 622 /* 623 * Find out RAM size and save it in dram_info 624 * 625 * The procedure is taken from Aspeed SDK 626 */ 627 static void ast2600_sdrammc_calc_size(struct dram_info *info) 628 { 629 /* The controller supports 256/512/1024/2048 MB ram */ 630 size_t ram_size = SDRAM_MIN_SIZE; 631 const int write_test_offset = 0x100000; 632 u32 test_pattern = 0xdeadbeef; 633 u32 cap_param = SDRAM_CONF_CAP_2048M; 634 u32 refresh_timing_param = DDR4_TRFC; 635 const u32 write_addr_base = CONFIG_SYS_SDRAM_BASE + write_test_offset; 636 637 for (ram_size = SDRAM_MAX_SIZE; ram_size > SDRAM_MIN_SIZE; 638 ram_size >>= 1) { 639 writel(test_pattern, write_addr_base + (ram_size >> 1)); 640 test_pattern = (test_pattern >> 4) | (test_pattern << 28); 641 } 642 643 /* One last write to overwrite all wrapped values */ 644 writel(test_pattern, write_addr_base); 645 646 /* Reset the pattern and see which value was really written */ 647 test_pattern = 0xdeadbeef; 648 for (ram_size = SDRAM_MAX_SIZE; ram_size > SDRAM_MIN_SIZE; 649 ram_size >>= 1) { 650 if (readl(write_addr_base + (ram_size >> 1)) == test_pattern) 651 break; 652 653 --cap_param; 654 refresh_timing_param >>= 8; 655 test_pattern = (test_pattern >> 4) | (test_pattern << 28); 656 } 657 658 clrsetbits_le32(&info->regs->ac_timing[1], 659 (SDRAM_AC_TRFC_MASK << SDRAM_AC_TRFC_SHIFT), 660 ((refresh_timing_param & SDRAM_AC_TRFC_MASK) 661 << SDRAM_AC_TRFC_SHIFT)); 662 663 info->info.base = CONFIG_SYS_SDRAM_BASE; 664 info->info.size = ram_size - ast2600_sdrammc_get_vga_mem_size(info); 665 clrsetbits_le32( 666 &info->regs->config, SDRAM_CONF_CAP_MASK, 667 ((cap_param << SDRAM_CONF_CAP_SHIFT) & SDRAM_CONF_CAP_MASK)); 668 } 669 670 static int ast2600_sdrammc_init_ddr4(struct dram_info *info) 671 { 672 const u32 power_ctrl = MCR34_CKE_EN | MCR34_AUTOPWRDN_EN | 673 MCR34_MREQ_BYPASS_DIS | MCR34_RESETN_DIS | 674 MCR34_ODT_EN | MCR34_ODT_AUTO_ON | 675 (0x1 << MCR34_ODT_EXT_SHIFT); 676 677 /* init SDRAM-PHY only on real chip */ 678 ast2600_sdramphy_init(ast2600_sdramphy_config, info); 679 writel((MCR34_CKE_EN | MCR34_MREQI_DIS | MCR34_RESETN_DIS), 680 &info->regs->power_ctrl); 681 udelay(5); 682 ast2600_sdramphy_kick_training(info); 683 udelay(500); 684 writel(SDRAM_RESET_DLL_ZQCL_EN, &info->regs->refresh_timing); 685 686 writel(MCR30_SET_MR(3), &info->regs->mode_setting_control); 687 writel(MCR30_SET_MR(6), &info->regs->mode_setting_control); 688 writel(MCR30_SET_MR(5), &info->regs->mode_setting_control); 689 writel(MCR30_SET_MR(4), &info->regs->mode_setting_control); 690 writel(MCR30_SET_MR(2), &info->regs->mode_setting_control); 691 writel(MCR30_SET_MR(1), &info->regs->mode_setting_control); 692 writel(MCR30_SET_MR(0) | MCR30_RESET_DLL_DELAY_EN, 693 &info->regs->mode_setting_control); 694 695 #if defined(CONFIG_FPGA_ASPEED) || defined(CONFIG_ASPEED_PALLADIUM) 696 697 writel(SDRAM_REFRESH_EN | SDRAM_RESET_DLL_ZQCL_EN | 698 (0x5d << SDRAM_REFRESH_PERIOD_SHIFT), 699 &info->regs->refresh_timing); 700 #else 701 writel(SDRAM_REFRESH_EN | SDRAM_RESET_DLL_ZQCL_EN | 702 (0x5f << SDRAM_REFRESH_PERIOD_SHIFT), 703 &info->regs->refresh_timing); 704 #endif 705 706 /* wait self-refresh idle */ 707 while (readl(&info->regs->power_ctrl) & MCR34_SELF_REFRESH_STATUS_MASK) 708 ; 709 710 #if defined(CONFIG_FPGA_ASPEED) || defined(CONFIG_ASPEED_PALLADIUM) 711 writel(SDRAM_REFRESH_EN | SDRAM_LOW_PRI_REFRESH_EN | 712 SDRAM_REFRESH_ZQCS_EN | 713 (0x5d << SDRAM_REFRESH_PERIOD_SHIFT) | 714 (0x4000 << SDRAM_REFRESH_PERIOD_ZQCS_SHIFT), 715 &info->regs->refresh_timing); 716 #else 717 writel(SDRAM_REFRESH_EN | SDRAM_LOW_PRI_REFRESH_EN | 718 SDRAM_REFRESH_ZQCS_EN | 719 (0x5f << SDRAM_REFRESH_PERIOD_SHIFT) | 720 (0x42aa << SDRAM_REFRESH_PERIOD_ZQCS_SHIFT), 721 &info->regs->refresh_timing); 722 #endif 723 724 writel(power_ctrl, &info->regs->power_ctrl); 725 udelay(500); 726 727 #if defined(CONFIG_FPGA_ASPEED) 728 /* toggle Vref training */ 729 setbits_le32(&info->regs->mr6_mode_setting, 0x80); 730 writel(MCR30_RESET_DLL_DELAY_EN | MCR30_SET_MR(6), 731 &info->regs->mode_setting_control); 732 clrbits_le32(&info->regs->mr6_mode_setting, 0x80); 733 writel(MCR30_RESET_DLL_DELAY_EN | MCR30_SET_MR(6), 734 &info->regs->mode_setting_control); 735 #endif 736 return 0; 737 } 738 739 static void ast2600_sdrammc_unlock(struct dram_info *info) 740 { 741 writel(SDRAM_UNLOCK_KEY, &info->regs->protection_key); 742 while (!readl(&info->regs->protection_key)) 743 ; 744 } 745 746 static void ast2600_sdrammc_lock(struct dram_info *info) 747 { 748 writel(~SDRAM_UNLOCK_KEY, &info->regs->protection_key); 749 while (readl(&info->regs->protection_key)) 750 ; 751 } 752 753 static void ast2600_sdrammc_common_init(struct ast2600_sdrammc_regs *regs) 754 { 755 int i; 756 757 writel(MCR34_MREQI_DIS | MCR34_RESETN_DIS, ®s->power_ctrl); 758 writel(SDRAM_VIDEO_UNLOCK_KEY, ®s->gm_protection_key); 759 writel(0x10 << MCR38_RW_MAX_GRANT_CNT_RQ_SHIFT, 760 ®s->arbitration_ctrl); 761 writel(0xFFBBFFF4, ®s->req_limit_mask); 762 763 for (i = 0; i < ARRAY_SIZE(ddr_max_grant_params); ++i) 764 writel(ddr_max_grant_params[i], ®s->max_grant_len[i]); 765 766 writel(MCR50_RESET_ALL_INTR, ®s->intr_ctrl); 767 768 /* FIXME: the sample code does NOT match the datasheet */ 769 writel(0x07FFFFFF, ®s->ecc_range_ctrl); 770 771 writel(0, ®s->ecc_test_ctrl); 772 writel(0x80000001, ®s->test_addr); 773 writel(0, ®s->test_fail_dq_bit); 774 writel(0, ®s->test_init_val); 775 776 writel(0xFFFFFFFF, ®s->req_input_ctrl); 777 writel(0, ®s->req_high_pri_ctrl); 778 779 udelay(600); 780 781 #ifdef CONFIG_ASPEED_DDR4_DUALX8 782 writel(0x37, ®s->config); 783 #else 784 writel(0x17, ®s->config); 785 #endif 786 787 /* load controller setting */ 788 for (i = 0; i < ARRAY_SIZE(ddr4_ac_timing); ++i) 789 writel(ddr4_ac_timing[i], ®s->ac_timing[i]); 790 791 writel(DDR4_MR01_MODE, ®s->mr01_mode_setting); 792 writel(DDR4_MR23_MODE, ®s->mr23_mode_setting); 793 writel(DDR4_MR45_MODE, ®s->mr45_mode_setting); 794 writel(DDR4_MR6_MODE, ®s->mr6_mode_setting); 795 } 796 /* 797 * Update size info according to the ECC HW setting 798 * 799 * Assume SDRAM has been initialized by SPL or the host. To get the RAM size, we 800 * don't need to calculate the ECC size again but read from MCR04 and derive the 801 * size from its value. 802 */ 803 static void ast2600_sdrammc_update_size(struct dram_info *info) 804 { 805 struct ast2600_sdrammc_regs *regs = info->regs; 806 size_t hw_size; 807 808 if (0 == (readl(®s->config) & SDRAM_CONF_ECC_SETUP)) 809 return; 810 811 hw_size = readl(®s->ecc_range_ctrl) & GENMASK(30, 20); 812 hw_size += (1 << 20); 813 814 info->info.size = hw_size; 815 } 816 #ifdef CONFIG_ASPEED_ECC 817 static void ast2600_sdrammc_ecc_enable(struct dram_info *info) 818 { 819 struct ast2600_sdrammc_regs *regs = info->regs; 820 size_t conf_size; 821 u32 reg; 822 823 conf_size = CONFIG_ASPEED_ECC_SIZE * SDRAM_SIZE_1MB; 824 if (conf_size > info->info.size) { 825 printf("warning: ECC configured %dMB but actual size is %dMB\n", 826 CONFIG_ASPEED_ECC_SIZE, 827 info->info.size / SDRAM_SIZE_1MB); 828 conf_size = info->info.size; 829 } else if (conf_size == 0) { 830 conf_size = info->info.size; 831 } 832 833 info->info.size = (((conf_size / 9) * 8) >> 20) << 20; 834 writel(((info->info.size >> 20) - 1) << 20, ®s->ecc_range_ctrl); 835 reg = readl(®s->config) | SDRAM_CONF_ECC_SETUP; 836 writel(reg, ®s->config); 837 838 writel(0, ®s->test_init_val); 839 writel(0x80000001, ®s->test_addr); 840 writel(0x221, ®s->ecc_test_ctrl); 841 while (0 == (readl(®s->ecc_test_ctrl) & BIT(12))) 842 ; 843 writel(0, ®s->ecc_test_ctrl); 844 writel(BIT(31), ®s->intr_ctrl); 845 writel(0, ®s->intr_ctrl); 846 } 847 #endif 848 849 static int ast2600_sdrammc_probe(struct udevice *dev) 850 { 851 struct dram_info *priv = (struct dram_info *)dev_get_priv(dev); 852 struct ast2600_sdrammc_regs *regs = priv->regs; 853 struct udevice *clk_dev; 854 int ret; 855 volatile uint32_t reg; 856 857 /* find SCU base address from clock device */ 858 ret = uclass_get_device_by_driver(UCLASS_CLK, DM_GET_DRIVER(aspeed_scu), 859 &clk_dev); 860 if (ret) { 861 debug("clock device not defined\n"); 862 return ret; 863 } 864 865 priv->scu = devfdt_get_addr_ptr(clk_dev); 866 if (IS_ERR(priv->scu)) { 867 debug("%s(): can't get SCU\n", __func__); 868 return PTR_ERR(priv->scu); 869 } 870 871 if (readl(priv->scu + AST_SCU_HANDSHAKE) & SCU_SDRAM_INIT_READY_MASK) { 872 printf("already initialized, "); 873 ast2600_sdrammc_calc_size(priv); 874 ast2600_sdrammc_update_size(priv); 875 return 0; 876 } 877 878 #ifdef AST2600_SDRAMMC_MANUAL_CLK 879 reg = readl(priv->scu + AST_SCU_MPLL); 880 reg &= ~(BIT(24) | GENMASK(22, 0)); 881 reg |= (BIT(25) | BIT(23) | SCU_MPLL_FREQ_CFG); 882 writel(reg, priv->scu + AST_SCU_MPLL); 883 writel(SCU_MPLL_EXT_CFG, priv->scu + AST_SCU_MPLL_EXT); 884 udelay(100); 885 reg &= ~(BIT(25) | BIT(23)); 886 writel(reg, priv->scu + AST_SCU_MPLL); 887 while(0 == (readl(priv->scu + AST_SCU_MPLL_EXT) & BIT(31))); 888 #else 889 ret = clk_get_by_index(dev, 0, &priv->ddr_clk); 890 if (ret) { 891 debug("DDR:No CLK\n"); 892 return ret; 893 } 894 clk_set_rate(&priv->ddr_clk, priv->clock_rate); 895 #endif 896 897 #if 0 898 /* FIXME: enable the following code if reset-driver is ready */ 899 struct reset_ctl reset_ctl; 900 ret = reset_get_by_index(dev, 0, &reset_ctl); 901 if (ret) { 902 debug("%s(): Failed to get reset signal\n", __func__); 903 return ret; 904 } 905 906 ret = reset_assert(&reset_ctl); 907 if (ret) { 908 debug("%s(): SDRAM reset failed: %u\n", __func__, ret); 909 return ret; 910 } 911 #endif 912 913 ast2600_sdrammc_unlock(priv); 914 ast2600_sdrammc_common_init(regs); 915 L_ast2600_sdramphy_train: 916 ast2600_sdrammc_init_ddr4(priv); 917 918 #if defined(CONFIG_FPGA_ASPEED) || defined(CONFIG_ASPEED_PALLADIUM) 919 ast2600_sdrammc_search_read_window(priv); 920 #else 921 /* make sure DDR-PHY is ready before access */ 922 do { 923 reg = readl(priv->phy_status) & BIT(1); 924 } while(reg == 0); 925 #endif 926 927 if (0 != ast2600_sdramphy_check_status(priv)) { 928 printf("DDR4 PHY training fail, retrain\n"); 929 goto L_ast2600_sdramphy_train; 930 } 931 932 ast2600_sdrammc_calc_size(priv); 933 934 #ifndef CONFIG_ASPEED_BYPASS_SELFTEST 935 if (0 != ast2600_sdrammc_test(priv)) { 936 printf("%s: DDR4 init fail\n", __func__); 937 return -EINVAL; 938 } 939 #endif 940 941 #ifdef CONFIG_ASPEED_ECC 942 ast2600_sdrammc_ecc_enable(priv); 943 #endif 944 945 writel(readl(priv->scu + AST_SCU_HANDSHAKE) | SCU_SDRAM_INIT_READY_MASK, 946 priv->scu + AST_SCU_HANDSHAKE); 947 948 clrbits_le32(®s->intr_ctrl, MCR50_RESET_ALL_INTR); 949 ast2600_sdrammc_lock(priv); 950 return 0; 951 } 952 953 static int ast2600_sdrammc_ofdata_to_platdata(struct udevice *dev) 954 { 955 struct dram_info *priv = dev_get_priv(dev); 956 957 priv->regs = (void *)(uintptr_t)devfdt_get_addr_index(dev, 0); 958 priv->phy_setting = (void *)(uintptr_t)devfdt_get_addr_index(dev, 1); 959 priv->phy_status = (void *)(uintptr_t)devfdt_get_addr_index(dev, 2); 960 961 priv->clock_rate = fdtdec_get_int(gd->fdt_blob, dev_of_offset(dev), 962 "clock-frequency", 0); 963 if (!priv->clock_rate) { 964 debug("DDR Clock Rate not defined\n"); 965 return -EINVAL; 966 } 967 968 return 0; 969 } 970 971 static int ast2600_sdrammc_get_info(struct udevice *dev, struct ram_info *info) 972 { 973 struct dram_info *priv = dev_get_priv(dev); 974 975 *info = priv->info; 976 977 return 0; 978 } 979 980 static struct ram_ops ast2600_sdrammc_ops = { 981 .get_info = ast2600_sdrammc_get_info, 982 }; 983 984 static const struct udevice_id ast2600_sdrammc_ids[] = { 985 { .compatible = "aspeed,ast2600-sdrammc" }, 986 { } 987 }; 988 989 U_BOOT_DRIVER(sdrammc_ast2600) = { 990 .name = "aspeed_ast2600_sdrammc", 991 .id = UCLASS_RAM, 992 .of_match = ast2600_sdrammc_ids, 993 .ops = &ast2600_sdrammc_ops, 994 .ofdata_to_platdata = ast2600_sdrammc_ofdata_to_platdata, 995 .probe = ast2600_sdrammc_probe, 996 .priv_auto_alloc_size = sizeof(struct dram_info), 997 }; 998