13a580e9eSGhennadi Procopciuc /* 23a580e9eSGhennadi Procopciuc * Copyright 2024 NXP 33a580e9eSGhennadi Procopciuc * 43a580e9eSGhennadi Procopciuc * SPDX-License-Identifier: BSD-3-Clause 53a580e9eSGhennadi Procopciuc */ 63a580e9eSGhennadi Procopciuc #include <errno.h> 73a580e9eSGhennadi Procopciuc 88ab34357SGhennadi Procopciuc #include <s32cc-clk-regs.h> 98ab34357SGhennadi Procopciuc 10d9373519SGhennadi Procopciuc #include <common/debug.h> 113a580e9eSGhennadi Procopciuc #include <drivers/clk.h> 128ab34357SGhennadi Procopciuc #include <lib/mmio.h> 13b5101c45SGhennadi Procopciuc #include <s32cc-clk-ids.h> 14d9373519SGhennadi Procopciuc #include <s32cc-clk-modules.h> 15d9373519SGhennadi Procopciuc #include <s32cc-clk-utils.h> 16d9373519SGhennadi Procopciuc 17d9373519SGhennadi Procopciuc #define MAX_STACK_DEPTH (15U) 18d9373519SGhennadi Procopciuc 19b5101c45SGhennadi Procopciuc /* This is used for floating-point precision calculations. */ 20b5101c45SGhennadi Procopciuc #define FP_PRECISION (100000000UL) 21b5101c45SGhennadi Procopciuc 228ab34357SGhennadi Procopciuc struct s32cc_clk_drv { 238ab34357SGhennadi Procopciuc uintptr_t fxosc_base; 24b5101c45SGhennadi Procopciuc uintptr_t armpll_base; 25*4cd04c50SGhennadi Procopciuc uintptr_t armdfs_base; 267004f678SGhennadi Procopciuc uintptr_t cgm1_base; 278ab34357SGhennadi Procopciuc }; 288ab34357SGhennadi Procopciuc 29d9373519SGhennadi Procopciuc static int update_stack_depth(unsigned int *depth) 30d9373519SGhennadi Procopciuc { 31d9373519SGhennadi Procopciuc if (*depth == 0U) { 32d9373519SGhennadi Procopciuc return -ENOMEM; 33d9373519SGhennadi Procopciuc } 34d9373519SGhennadi Procopciuc 35d9373519SGhennadi Procopciuc (*depth)--; 36d9373519SGhennadi Procopciuc return 0; 37d9373519SGhennadi Procopciuc } 383a580e9eSGhennadi Procopciuc 398ab34357SGhennadi Procopciuc static struct s32cc_clk_drv *get_drv(void) 408ab34357SGhennadi Procopciuc { 418ab34357SGhennadi Procopciuc static struct s32cc_clk_drv driver = { 428ab34357SGhennadi Procopciuc .fxosc_base = FXOSC_BASE_ADDR, 43b5101c45SGhennadi Procopciuc .armpll_base = ARMPLL_BASE_ADDR, 44*4cd04c50SGhennadi Procopciuc .armdfs_base = ARM_DFS_BASE_ADDR, 457004f678SGhennadi Procopciuc .cgm1_base = CGM1_BASE_ADDR, 468ab34357SGhennadi Procopciuc }; 478ab34357SGhennadi Procopciuc 488ab34357SGhennadi Procopciuc return &driver; 498ab34357SGhennadi Procopciuc } 508ab34357SGhennadi Procopciuc 518ab34357SGhennadi Procopciuc static int enable_module(const struct s32cc_clk_obj *module, unsigned int *depth); 528ab34357SGhennadi Procopciuc 538ab34357SGhennadi Procopciuc static int enable_clk_module(const struct s32cc_clk_obj *module, 548ab34357SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 558ab34357SGhennadi Procopciuc unsigned int *depth) 568ab34357SGhennadi Procopciuc { 578ab34357SGhennadi Procopciuc const struct s32cc_clk *clk = s32cc_obj2clk(module); 588ab34357SGhennadi Procopciuc int ret; 598ab34357SGhennadi Procopciuc 608ab34357SGhennadi Procopciuc ret = update_stack_depth(depth); 618ab34357SGhennadi Procopciuc if (ret != 0) { 628ab34357SGhennadi Procopciuc return ret; 638ab34357SGhennadi Procopciuc } 648ab34357SGhennadi Procopciuc 658ab34357SGhennadi Procopciuc if (clk == NULL) { 668ab34357SGhennadi Procopciuc return -EINVAL; 678ab34357SGhennadi Procopciuc } 688ab34357SGhennadi Procopciuc 698ab34357SGhennadi Procopciuc if (clk->module != NULL) { 708ab34357SGhennadi Procopciuc return enable_module(clk->module, depth); 718ab34357SGhennadi Procopciuc } 728ab34357SGhennadi Procopciuc 738ab34357SGhennadi Procopciuc if (clk->pclock != NULL) { 748ab34357SGhennadi Procopciuc return enable_clk_module(&clk->pclock->desc, drv, depth); 758ab34357SGhennadi Procopciuc } 768ab34357SGhennadi Procopciuc 778ab34357SGhennadi Procopciuc return -EINVAL; 788ab34357SGhennadi Procopciuc } 798ab34357SGhennadi Procopciuc 80b5101c45SGhennadi Procopciuc static int get_base_addr(enum s32cc_clk_source id, const struct s32cc_clk_drv *drv, 81b5101c45SGhennadi Procopciuc uintptr_t *base) 82b5101c45SGhennadi Procopciuc { 83b5101c45SGhennadi Procopciuc int ret = 0; 84b5101c45SGhennadi Procopciuc 85b5101c45SGhennadi Procopciuc switch (id) { 86b5101c45SGhennadi Procopciuc case S32CC_FXOSC: 87b5101c45SGhennadi Procopciuc *base = drv->fxosc_base; 88b5101c45SGhennadi Procopciuc break; 89b5101c45SGhennadi Procopciuc case S32CC_ARM_PLL: 90b5101c45SGhennadi Procopciuc *base = drv->armpll_base; 91b5101c45SGhennadi Procopciuc break; 92*4cd04c50SGhennadi Procopciuc case S32CC_ARM_DFS: 93*4cd04c50SGhennadi Procopciuc *base = drv->armdfs_base; 94*4cd04c50SGhennadi Procopciuc break; 95b5101c45SGhennadi Procopciuc case S32CC_CGM1: 967004f678SGhennadi Procopciuc *base = drv->cgm1_base; 97b5101c45SGhennadi Procopciuc break; 98b5101c45SGhennadi Procopciuc case S32CC_FIRC: 99b5101c45SGhennadi Procopciuc break; 100b5101c45SGhennadi Procopciuc case S32CC_SIRC: 101b5101c45SGhennadi Procopciuc break; 102b5101c45SGhennadi Procopciuc default: 103b5101c45SGhennadi Procopciuc ret = -EINVAL; 104b5101c45SGhennadi Procopciuc break; 105b5101c45SGhennadi Procopciuc } 106b5101c45SGhennadi Procopciuc 107b5101c45SGhennadi Procopciuc if (ret != 0) { 108b5101c45SGhennadi Procopciuc ERROR("Unknown clock source id: %u\n", id); 109b5101c45SGhennadi Procopciuc } 110b5101c45SGhennadi Procopciuc 111b5101c45SGhennadi Procopciuc return ret; 112b5101c45SGhennadi Procopciuc } 113b5101c45SGhennadi Procopciuc 1148ab34357SGhennadi Procopciuc static void enable_fxosc(const struct s32cc_clk_drv *drv) 1158ab34357SGhennadi Procopciuc { 1168ab34357SGhennadi Procopciuc uintptr_t fxosc_base = drv->fxosc_base; 1178ab34357SGhennadi Procopciuc uint32_t ctrl; 1188ab34357SGhennadi Procopciuc 1198ab34357SGhennadi Procopciuc ctrl = mmio_read_32(FXOSC_CTRL(fxosc_base)); 1208ab34357SGhennadi Procopciuc if ((ctrl & FXOSC_CTRL_OSCON) != U(0)) { 1218ab34357SGhennadi Procopciuc return; 1228ab34357SGhennadi Procopciuc } 1238ab34357SGhennadi Procopciuc 1248ab34357SGhennadi Procopciuc ctrl = FXOSC_CTRL_COMP_EN; 1258ab34357SGhennadi Procopciuc ctrl &= ~FXOSC_CTRL_OSC_BYP; 1268ab34357SGhennadi Procopciuc ctrl |= FXOSC_CTRL_EOCV(0x1); 1278ab34357SGhennadi Procopciuc ctrl |= FXOSC_CTRL_GM_SEL(0x7); 1288ab34357SGhennadi Procopciuc mmio_write_32(FXOSC_CTRL(fxosc_base), ctrl); 1298ab34357SGhennadi Procopciuc 1308ab34357SGhennadi Procopciuc /* Switch ON the crystal oscillator. */ 1318ab34357SGhennadi Procopciuc mmio_setbits_32(FXOSC_CTRL(fxosc_base), FXOSC_CTRL_OSCON); 1328ab34357SGhennadi Procopciuc 1338ab34357SGhennadi Procopciuc /* Wait until the clock is stable. */ 1348ab34357SGhennadi Procopciuc while ((mmio_read_32(FXOSC_STAT(fxosc_base)) & FXOSC_STAT_OSC_STAT) == U(0)) { 1358ab34357SGhennadi Procopciuc } 1368ab34357SGhennadi Procopciuc } 1378ab34357SGhennadi Procopciuc 1388ab34357SGhennadi Procopciuc static int enable_osc(const struct s32cc_clk_obj *module, 1398ab34357SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 1408ab34357SGhennadi Procopciuc unsigned int *depth) 1418ab34357SGhennadi Procopciuc { 1428ab34357SGhennadi Procopciuc const struct s32cc_osc *osc = s32cc_obj2osc(module); 1438ab34357SGhennadi Procopciuc int ret = 0; 1448ab34357SGhennadi Procopciuc 1458ab34357SGhennadi Procopciuc ret = update_stack_depth(depth); 1468ab34357SGhennadi Procopciuc if (ret != 0) { 1478ab34357SGhennadi Procopciuc return ret; 1488ab34357SGhennadi Procopciuc } 1498ab34357SGhennadi Procopciuc 1508ab34357SGhennadi Procopciuc switch (osc->source) { 1518ab34357SGhennadi Procopciuc case S32CC_FXOSC: 1528ab34357SGhennadi Procopciuc enable_fxosc(drv); 1538ab34357SGhennadi Procopciuc break; 1548ab34357SGhennadi Procopciuc /* FIRC and SIRC oscillators are enabled by default */ 1558ab34357SGhennadi Procopciuc case S32CC_FIRC: 1568ab34357SGhennadi Procopciuc break; 1578ab34357SGhennadi Procopciuc case S32CC_SIRC: 1588ab34357SGhennadi Procopciuc break; 1598ab34357SGhennadi Procopciuc default: 1608ab34357SGhennadi Procopciuc ERROR("Invalid oscillator %d\n", osc->source); 1618ab34357SGhennadi Procopciuc ret = -EINVAL; 1628ab34357SGhennadi Procopciuc break; 1638ab34357SGhennadi Procopciuc }; 1648ab34357SGhennadi Procopciuc 1658ab34357SGhennadi Procopciuc return ret; 1668ab34357SGhennadi Procopciuc } 1678ab34357SGhennadi Procopciuc 168b5101c45SGhennadi Procopciuc static int get_pll_mfi_mfn(unsigned long pll_vco, unsigned long ref_freq, 169b5101c45SGhennadi Procopciuc uint32_t *mfi, uint32_t *mfn) 170b5101c45SGhennadi Procopciuc 171b5101c45SGhennadi Procopciuc { 172b5101c45SGhennadi Procopciuc unsigned long vco; 173b5101c45SGhennadi Procopciuc unsigned long mfn64; 174b5101c45SGhennadi Procopciuc 175b5101c45SGhennadi Procopciuc /* FRAC-N mode */ 176b5101c45SGhennadi Procopciuc *mfi = (uint32_t)(pll_vco / ref_freq); 177b5101c45SGhennadi Procopciuc 178b5101c45SGhennadi Procopciuc /* MFN formula : (double)(pll_vco % ref_freq) / ref_freq * 18432.0 */ 179b5101c45SGhennadi Procopciuc mfn64 = pll_vco % ref_freq; 180b5101c45SGhennadi Procopciuc mfn64 *= FP_PRECISION; 181b5101c45SGhennadi Procopciuc mfn64 /= ref_freq; 182b5101c45SGhennadi Procopciuc mfn64 *= 18432UL; 183b5101c45SGhennadi Procopciuc mfn64 /= FP_PRECISION; 184b5101c45SGhennadi Procopciuc 185b5101c45SGhennadi Procopciuc if (mfn64 > UINT32_MAX) { 186b5101c45SGhennadi Procopciuc return -EINVAL; 187b5101c45SGhennadi Procopciuc } 188b5101c45SGhennadi Procopciuc 189b5101c45SGhennadi Procopciuc *mfn = (uint32_t)mfn64; 190b5101c45SGhennadi Procopciuc 191b5101c45SGhennadi Procopciuc vco = ((unsigned long)*mfn * FP_PRECISION) / 18432UL; 192b5101c45SGhennadi Procopciuc vco += (unsigned long)*mfi * FP_PRECISION; 193b5101c45SGhennadi Procopciuc vco *= ref_freq; 194b5101c45SGhennadi Procopciuc vco /= FP_PRECISION; 195b5101c45SGhennadi Procopciuc 196b5101c45SGhennadi Procopciuc if (vco != pll_vco) { 197b5101c45SGhennadi Procopciuc ERROR("Failed to find MFI and MFN settings for PLL freq %lu. Nearest freq = %lu\n", 198b5101c45SGhennadi Procopciuc pll_vco, vco); 199b5101c45SGhennadi Procopciuc return -EINVAL; 200b5101c45SGhennadi Procopciuc } 201b5101c45SGhennadi Procopciuc 202b5101c45SGhennadi Procopciuc return 0; 203b5101c45SGhennadi Procopciuc } 204b5101c45SGhennadi Procopciuc 205b5101c45SGhennadi Procopciuc static struct s32cc_clkmux *get_pll_mux(const struct s32cc_pll *pll) 206b5101c45SGhennadi Procopciuc { 207b5101c45SGhennadi Procopciuc const struct s32cc_clk_obj *source = pll->source; 208b5101c45SGhennadi Procopciuc const struct s32cc_clk *clk; 209b5101c45SGhennadi Procopciuc 210b5101c45SGhennadi Procopciuc if (source == NULL) { 211b5101c45SGhennadi Procopciuc ERROR("Failed to identify PLL's parent\n"); 212b5101c45SGhennadi Procopciuc return NULL; 213b5101c45SGhennadi Procopciuc } 214b5101c45SGhennadi Procopciuc 215b5101c45SGhennadi Procopciuc if (source->type != s32cc_clk_t) { 216b5101c45SGhennadi Procopciuc ERROR("The parent of the PLL isn't a clock\n"); 217b5101c45SGhennadi Procopciuc return NULL; 218b5101c45SGhennadi Procopciuc } 219b5101c45SGhennadi Procopciuc 220b5101c45SGhennadi Procopciuc clk = s32cc_obj2clk(source); 221b5101c45SGhennadi Procopciuc 222b5101c45SGhennadi Procopciuc if (clk->module == NULL) { 223b5101c45SGhennadi Procopciuc ERROR("The clock isn't connected to a module\n"); 224b5101c45SGhennadi Procopciuc return NULL; 225b5101c45SGhennadi Procopciuc } 226b5101c45SGhennadi Procopciuc 227b5101c45SGhennadi Procopciuc source = clk->module; 228b5101c45SGhennadi Procopciuc 229b5101c45SGhennadi Procopciuc if ((source->type != s32cc_clkmux_t) && 230b5101c45SGhennadi Procopciuc (source->type != s32cc_shared_clkmux_t)) { 231b5101c45SGhennadi Procopciuc ERROR("The parent of the PLL isn't a MUX\n"); 232b5101c45SGhennadi Procopciuc return NULL; 233b5101c45SGhennadi Procopciuc } 234b5101c45SGhennadi Procopciuc 235b5101c45SGhennadi Procopciuc return s32cc_obj2clkmux(source); 236b5101c45SGhennadi Procopciuc } 237b5101c45SGhennadi Procopciuc 238b5101c45SGhennadi Procopciuc static void disable_odiv(uintptr_t pll_addr, uint32_t div_index) 239b5101c45SGhennadi Procopciuc { 240b5101c45SGhennadi Procopciuc mmio_clrbits_32(PLLDIG_PLLODIV(pll_addr, div_index), PLLDIG_PLLODIV_DE); 241b5101c45SGhennadi Procopciuc } 242b5101c45SGhennadi Procopciuc 24384e82085SGhennadi Procopciuc static void enable_odiv(uintptr_t pll_addr, uint32_t div_index) 24484e82085SGhennadi Procopciuc { 24584e82085SGhennadi Procopciuc mmio_setbits_32(PLLDIG_PLLODIV(pll_addr, div_index), PLLDIG_PLLODIV_DE); 24684e82085SGhennadi Procopciuc } 24784e82085SGhennadi Procopciuc 248b5101c45SGhennadi Procopciuc static void disable_odivs(uintptr_t pll_addr, uint32_t ndivs) 249b5101c45SGhennadi Procopciuc { 250b5101c45SGhennadi Procopciuc uint32_t i; 251b5101c45SGhennadi Procopciuc 252b5101c45SGhennadi Procopciuc for (i = 0; i < ndivs; i++) { 253b5101c45SGhennadi Procopciuc disable_odiv(pll_addr, i); 254b5101c45SGhennadi Procopciuc } 255b5101c45SGhennadi Procopciuc } 256b5101c45SGhennadi Procopciuc 257b5101c45SGhennadi Procopciuc static void enable_pll_hw(uintptr_t pll_addr) 258b5101c45SGhennadi Procopciuc { 259b5101c45SGhennadi Procopciuc /* Enable the PLL. */ 260b5101c45SGhennadi Procopciuc mmio_write_32(PLLDIG_PLLCR(pll_addr), 0x0); 261b5101c45SGhennadi Procopciuc 262b5101c45SGhennadi Procopciuc /* Poll until PLL acquires lock. */ 263b5101c45SGhennadi Procopciuc while ((mmio_read_32(PLLDIG_PLLSR(pll_addr)) & PLLDIG_PLLSR_LOCK) == 0U) { 264b5101c45SGhennadi Procopciuc } 265b5101c45SGhennadi Procopciuc } 266b5101c45SGhennadi Procopciuc 267b5101c45SGhennadi Procopciuc static void disable_pll_hw(uintptr_t pll_addr) 268b5101c45SGhennadi Procopciuc { 269b5101c45SGhennadi Procopciuc mmio_write_32(PLLDIG_PLLCR(pll_addr), PLLDIG_PLLCR_PLLPD); 270b5101c45SGhennadi Procopciuc } 271b5101c45SGhennadi Procopciuc 272b5101c45SGhennadi Procopciuc static int program_pll(const struct s32cc_pll *pll, uintptr_t pll_addr, 273b5101c45SGhennadi Procopciuc const struct s32cc_clk_drv *drv, uint32_t sclk_id, 274b5101c45SGhennadi Procopciuc unsigned long sclk_freq) 275b5101c45SGhennadi Procopciuc { 276b5101c45SGhennadi Procopciuc uint32_t rdiv = 1, mfi, mfn; 277b5101c45SGhennadi Procopciuc int ret; 278b5101c45SGhennadi Procopciuc 279b5101c45SGhennadi Procopciuc ret = get_pll_mfi_mfn(pll->vco_freq, sclk_freq, &mfi, &mfn); 280b5101c45SGhennadi Procopciuc if (ret != 0) { 281b5101c45SGhennadi Procopciuc return -EINVAL; 282b5101c45SGhennadi Procopciuc } 283b5101c45SGhennadi Procopciuc 284b5101c45SGhennadi Procopciuc /* Disable ODIVs*/ 285b5101c45SGhennadi Procopciuc disable_odivs(pll_addr, pll->ndividers); 286b5101c45SGhennadi Procopciuc 287b5101c45SGhennadi Procopciuc /* Disable PLL */ 288b5101c45SGhennadi Procopciuc disable_pll_hw(pll_addr); 289b5101c45SGhennadi Procopciuc 290b5101c45SGhennadi Procopciuc /* Program PLLCLKMUX */ 291b5101c45SGhennadi Procopciuc mmio_write_32(PLLDIG_PLLCLKMUX(pll_addr), sclk_id); 292b5101c45SGhennadi Procopciuc 293b5101c45SGhennadi Procopciuc /* Program VCO */ 294b5101c45SGhennadi Procopciuc mmio_clrsetbits_32(PLLDIG_PLLDV(pll_addr), 295b5101c45SGhennadi Procopciuc PLLDIG_PLLDV_RDIV_MASK | PLLDIG_PLLDV_MFI_MASK, 296b5101c45SGhennadi Procopciuc PLLDIG_PLLDV_RDIV_SET(rdiv) | PLLDIG_PLLDV_MFI(mfi)); 297b5101c45SGhennadi Procopciuc 298b5101c45SGhennadi Procopciuc mmio_write_32(PLLDIG_PLLFD(pll_addr), 299b5101c45SGhennadi Procopciuc PLLDIG_PLLFD_MFN_SET(mfn) | PLLDIG_PLLFD_SMDEN); 300b5101c45SGhennadi Procopciuc 301b5101c45SGhennadi Procopciuc enable_pll_hw(pll_addr); 302b5101c45SGhennadi Procopciuc 303b5101c45SGhennadi Procopciuc return ret; 304b5101c45SGhennadi Procopciuc } 305b5101c45SGhennadi Procopciuc 306b5101c45SGhennadi Procopciuc static int enable_pll(const struct s32cc_clk_obj *module, 307b5101c45SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 308b5101c45SGhennadi Procopciuc unsigned int *depth) 309b5101c45SGhennadi Procopciuc { 310b5101c45SGhennadi Procopciuc const struct s32cc_pll *pll = s32cc_obj2pll(module); 311b5101c45SGhennadi Procopciuc const struct s32cc_clkmux *mux; 312b5101c45SGhennadi Procopciuc uintptr_t pll_addr = UL(0x0); 313b5101c45SGhennadi Procopciuc unsigned long sclk_freq; 314b5101c45SGhennadi Procopciuc uint32_t sclk_id; 315b5101c45SGhennadi Procopciuc int ret; 316b5101c45SGhennadi Procopciuc 317b5101c45SGhennadi Procopciuc ret = update_stack_depth(depth); 318b5101c45SGhennadi Procopciuc if (ret != 0) { 319b5101c45SGhennadi Procopciuc return ret; 320b5101c45SGhennadi Procopciuc } 321b5101c45SGhennadi Procopciuc 322b5101c45SGhennadi Procopciuc mux = get_pll_mux(pll); 323b5101c45SGhennadi Procopciuc if (mux == NULL) { 324b5101c45SGhennadi Procopciuc return -EINVAL; 325b5101c45SGhennadi Procopciuc } 326b5101c45SGhennadi Procopciuc 327b5101c45SGhennadi Procopciuc if (pll->instance != mux->module) { 328b5101c45SGhennadi Procopciuc ERROR("MUX type is not in sync with PLL ID\n"); 329b5101c45SGhennadi Procopciuc return -EINVAL; 330b5101c45SGhennadi Procopciuc } 331b5101c45SGhennadi Procopciuc 332b5101c45SGhennadi Procopciuc ret = get_base_addr(pll->instance, drv, &pll_addr); 333b5101c45SGhennadi Procopciuc if (ret != 0) { 334b5101c45SGhennadi Procopciuc ERROR("Failed to detect PLL instance\n"); 335b5101c45SGhennadi Procopciuc return ret; 336b5101c45SGhennadi Procopciuc } 337b5101c45SGhennadi Procopciuc 338b5101c45SGhennadi Procopciuc switch (mux->source_id) { 339b5101c45SGhennadi Procopciuc case S32CC_CLK_FIRC: 340b5101c45SGhennadi Procopciuc sclk_freq = 48U * MHZ; 341b5101c45SGhennadi Procopciuc sclk_id = 0; 342b5101c45SGhennadi Procopciuc break; 343b5101c45SGhennadi Procopciuc case S32CC_CLK_FXOSC: 344b5101c45SGhennadi Procopciuc sclk_freq = 40U * MHZ; 345b5101c45SGhennadi Procopciuc sclk_id = 1; 346b5101c45SGhennadi Procopciuc break; 347b5101c45SGhennadi Procopciuc default: 348b5101c45SGhennadi Procopciuc ERROR("Invalid source selection for PLL 0x%lx\n", 349b5101c45SGhennadi Procopciuc pll_addr); 350b5101c45SGhennadi Procopciuc return -EINVAL; 351b5101c45SGhennadi Procopciuc }; 352b5101c45SGhennadi Procopciuc 353b5101c45SGhennadi Procopciuc return program_pll(pll, pll_addr, drv, sclk_id, sclk_freq); 354b5101c45SGhennadi Procopciuc } 355b5101c45SGhennadi Procopciuc 35684e82085SGhennadi Procopciuc static inline struct s32cc_pll *get_div_pll(const struct s32cc_pll_out_div *pdiv) 35784e82085SGhennadi Procopciuc { 35884e82085SGhennadi Procopciuc const struct s32cc_clk_obj *parent; 35984e82085SGhennadi Procopciuc 36084e82085SGhennadi Procopciuc parent = pdiv->parent; 36184e82085SGhennadi Procopciuc if (parent == NULL) { 36284e82085SGhennadi Procopciuc ERROR("Failed to identify PLL divider's parent\n"); 36384e82085SGhennadi Procopciuc return NULL; 36484e82085SGhennadi Procopciuc } 36584e82085SGhennadi Procopciuc 36684e82085SGhennadi Procopciuc if (parent->type != s32cc_pll_t) { 36784e82085SGhennadi Procopciuc ERROR("The parent of the divider is not a PLL instance\n"); 36884e82085SGhennadi Procopciuc return NULL; 36984e82085SGhennadi Procopciuc } 37084e82085SGhennadi Procopciuc 37184e82085SGhennadi Procopciuc return s32cc_obj2pll(parent); 37284e82085SGhennadi Procopciuc } 37384e82085SGhennadi Procopciuc 37484e82085SGhennadi Procopciuc static void config_pll_out_div(uintptr_t pll_addr, uint32_t div_index, uint32_t dc) 37584e82085SGhennadi Procopciuc { 37684e82085SGhennadi Procopciuc uint32_t pllodiv; 37784e82085SGhennadi Procopciuc uint32_t pdiv; 37884e82085SGhennadi Procopciuc 37984e82085SGhennadi Procopciuc pllodiv = mmio_read_32(PLLDIG_PLLODIV(pll_addr, div_index)); 38084e82085SGhennadi Procopciuc pdiv = PLLDIG_PLLODIV_DIV(pllodiv); 38184e82085SGhennadi Procopciuc 38284e82085SGhennadi Procopciuc if (((pdiv + 1U) == dc) && ((pllodiv & PLLDIG_PLLODIV_DE) != 0U)) { 38384e82085SGhennadi Procopciuc return; 38484e82085SGhennadi Procopciuc } 38584e82085SGhennadi Procopciuc 38684e82085SGhennadi Procopciuc if ((pllodiv & PLLDIG_PLLODIV_DE) != 0U) { 38784e82085SGhennadi Procopciuc disable_odiv(pll_addr, div_index); 38884e82085SGhennadi Procopciuc } 38984e82085SGhennadi Procopciuc 39084e82085SGhennadi Procopciuc pllodiv = PLLDIG_PLLODIV_DIV_SET(dc - 1U); 39184e82085SGhennadi Procopciuc mmio_write_32(PLLDIG_PLLODIV(pll_addr, div_index), pllodiv); 39284e82085SGhennadi Procopciuc 39384e82085SGhennadi Procopciuc enable_odiv(pll_addr, div_index); 39484e82085SGhennadi Procopciuc } 39584e82085SGhennadi Procopciuc 39684e82085SGhennadi Procopciuc static int enable_pll_div(const struct s32cc_clk_obj *module, 39784e82085SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 39884e82085SGhennadi Procopciuc unsigned int *depth) 39984e82085SGhennadi Procopciuc { 40084e82085SGhennadi Procopciuc const struct s32cc_pll_out_div *pdiv = s32cc_obj2plldiv(module); 40184e82085SGhennadi Procopciuc uintptr_t pll_addr = 0x0ULL; 40284e82085SGhennadi Procopciuc const struct s32cc_pll *pll; 40384e82085SGhennadi Procopciuc uint32_t dc; 40484e82085SGhennadi Procopciuc int ret; 40584e82085SGhennadi Procopciuc 40684e82085SGhennadi Procopciuc ret = update_stack_depth(depth); 40784e82085SGhennadi Procopciuc if (ret != 0) { 40884e82085SGhennadi Procopciuc return ret; 40984e82085SGhennadi Procopciuc } 41084e82085SGhennadi Procopciuc 41184e82085SGhennadi Procopciuc pll = get_div_pll(pdiv); 41284e82085SGhennadi Procopciuc if (pll == NULL) { 41384e82085SGhennadi Procopciuc ERROR("The parent of the PLL DIV is invalid\n"); 41484e82085SGhennadi Procopciuc return 0; 41584e82085SGhennadi Procopciuc } 41684e82085SGhennadi Procopciuc 41784e82085SGhennadi Procopciuc ret = get_base_addr(pll->instance, drv, &pll_addr); 41884e82085SGhennadi Procopciuc if (ret != 0) { 41984e82085SGhennadi Procopciuc ERROR("Failed to detect PLL instance\n"); 42084e82085SGhennadi Procopciuc return -EINVAL; 42184e82085SGhennadi Procopciuc } 42284e82085SGhennadi Procopciuc 42384e82085SGhennadi Procopciuc dc = (uint32_t)(pll->vco_freq / pdiv->freq); 42484e82085SGhennadi Procopciuc 42584e82085SGhennadi Procopciuc config_pll_out_div(pll_addr, pdiv->index, dc); 42684e82085SGhennadi Procopciuc 42784e82085SGhennadi Procopciuc return 0; 42884e82085SGhennadi Procopciuc } 42984e82085SGhennadi Procopciuc 4307004f678SGhennadi Procopciuc static int cgm_mux_clk_config(uintptr_t cgm_addr, uint32_t mux, uint32_t source, 4317004f678SGhennadi Procopciuc bool safe_clk) 4327004f678SGhennadi Procopciuc { 4337004f678SGhennadi Procopciuc uint32_t css, csc; 4347004f678SGhennadi Procopciuc 4357004f678SGhennadi Procopciuc css = mmio_read_32(CGM_MUXn_CSS(cgm_addr, mux)); 4367004f678SGhennadi Procopciuc 4377004f678SGhennadi Procopciuc /* Already configured */ 4387004f678SGhennadi Procopciuc if ((MC_CGM_MUXn_CSS_SELSTAT(css) == source) && 4397004f678SGhennadi Procopciuc (MC_CGM_MUXn_CSS_SWTRG(css) == MC_CGM_MUXn_CSS_SWTRG_SUCCESS) && 4407004f678SGhennadi Procopciuc ((css & MC_CGM_MUXn_CSS_SWIP) == 0U) && !safe_clk) { 4417004f678SGhennadi Procopciuc return 0; 4427004f678SGhennadi Procopciuc } 4437004f678SGhennadi Procopciuc 4447004f678SGhennadi Procopciuc /* Ongoing clock switch? */ 4457004f678SGhennadi Procopciuc while ((mmio_read_32(CGM_MUXn_CSS(cgm_addr, mux)) & 4467004f678SGhennadi Procopciuc MC_CGM_MUXn_CSS_SWIP) != 0U) { 4477004f678SGhennadi Procopciuc } 4487004f678SGhennadi Procopciuc 4497004f678SGhennadi Procopciuc csc = mmio_read_32(CGM_MUXn_CSC(cgm_addr, mux)); 4507004f678SGhennadi Procopciuc 4517004f678SGhennadi Procopciuc /* Clear previous source. */ 4527004f678SGhennadi Procopciuc csc &= ~(MC_CGM_MUXn_CSC_SELCTL_MASK); 4537004f678SGhennadi Procopciuc 4547004f678SGhennadi Procopciuc if (!safe_clk) { 4557004f678SGhennadi Procopciuc /* Select the clock source and trigger the clock switch. */ 4567004f678SGhennadi Procopciuc csc |= MC_CGM_MUXn_CSC_SELCTL(source) | MC_CGM_MUXn_CSC_CLK_SW; 4577004f678SGhennadi Procopciuc } else { 4587004f678SGhennadi Procopciuc /* Switch to safe clock */ 4597004f678SGhennadi Procopciuc csc |= MC_CGM_MUXn_CSC_SAFE_SW; 4607004f678SGhennadi Procopciuc } 4617004f678SGhennadi Procopciuc 4627004f678SGhennadi Procopciuc mmio_write_32(CGM_MUXn_CSC(cgm_addr, mux), csc); 4637004f678SGhennadi Procopciuc 4647004f678SGhennadi Procopciuc /* Wait for configuration bit to auto-clear. */ 4657004f678SGhennadi Procopciuc while ((mmio_read_32(CGM_MUXn_CSC(cgm_addr, mux)) & 4667004f678SGhennadi Procopciuc MC_CGM_MUXn_CSC_CLK_SW) != 0U) { 4677004f678SGhennadi Procopciuc } 4687004f678SGhennadi Procopciuc 4697004f678SGhennadi Procopciuc /* Is the clock switch completed? */ 4707004f678SGhennadi Procopciuc while ((mmio_read_32(CGM_MUXn_CSS(cgm_addr, mux)) & 4717004f678SGhennadi Procopciuc MC_CGM_MUXn_CSS_SWIP) != 0U) { 4727004f678SGhennadi Procopciuc } 4737004f678SGhennadi Procopciuc 4747004f678SGhennadi Procopciuc /* 4757004f678SGhennadi Procopciuc * Check if the switch succeeded. 4767004f678SGhennadi Procopciuc * Check switch trigger cause and the source. 4777004f678SGhennadi Procopciuc */ 4787004f678SGhennadi Procopciuc css = mmio_read_32(CGM_MUXn_CSS(cgm_addr, mux)); 4797004f678SGhennadi Procopciuc if (!safe_clk) { 4807004f678SGhennadi Procopciuc if ((MC_CGM_MUXn_CSS_SWTRG(css) == MC_CGM_MUXn_CSS_SWTRG_SUCCESS) && 4817004f678SGhennadi Procopciuc (MC_CGM_MUXn_CSS_SELSTAT(css) == source)) { 4827004f678SGhennadi Procopciuc return 0; 4837004f678SGhennadi Procopciuc } 4847004f678SGhennadi Procopciuc 4857004f678SGhennadi Procopciuc ERROR("Failed to change the source of mux %" PRIu32 " to %" PRIu32 " (CGM=%lu)\n", 4867004f678SGhennadi Procopciuc mux, source, cgm_addr); 4877004f678SGhennadi Procopciuc } else { 4887004f678SGhennadi Procopciuc if (((MC_CGM_MUXn_CSS_SWTRG(css) == MC_CGM_MUXn_CSS_SWTRG_SAFE_CLK) || 4897004f678SGhennadi Procopciuc (MC_CGM_MUXn_CSS_SWTRG(css) == MC_CGM_MUXn_CSS_SWTRG_SAFE_CLK_INACTIVE)) && 4907004f678SGhennadi Procopciuc ((MC_CGM_MUXn_CSS_SAFE_SW & css) != 0U)) { 4917004f678SGhennadi Procopciuc return 0; 4927004f678SGhennadi Procopciuc } 4937004f678SGhennadi Procopciuc 4947004f678SGhennadi Procopciuc ERROR("The switch of mux %" PRIu32 " (CGM=%lu) to safe clock failed\n", 4957004f678SGhennadi Procopciuc mux, cgm_addr); 4967004f678SGhennadi Procopciuc } 4977004f678SGhennadi Procopciuc 4987004f678SGhennadi Procopciuc return -EINVAL; 4997004f678SGhennadi Procopciuc } 5007004f678SGhennadi Procopciuc 5017004f678SGhennadi Procopciuc static int enable_cgm_mux(const struct s32cc_clkmux *mux, 5027004f678SGhennadi Procopciuc const struct s32cc_clk_drv *drv) 5037004f678SGhennadi Procopciuc { 5047004f678SGhennadi Procopciuc uintptr_t cgm_addr = UL(0x0); 5057004f678SGhennadi Procopciuc uint32_t mux_hw_clk; 5067004f678SGhennadi Procopciuc int ret; 5077004f678SGhennadi Procopciuc 5087004f678SGhennadi Procopciuc ret = get_base_addr(mux->module, drv, &cgm_addr); 5097004f678SGhennadi Procopciuc if (ret != 0) { 5107004f678SGhennadi Procopciuc return ret; 5117004f678SGhennadi Procopciuc } 5127004f678SGhennadi Procopciuc 5137004f678SGhennadi Procopciuc mux_hw_clk = (uint32_t)S32CC_CLK_ID(mux->source_id); 5147004f678SGhennadi Procopciuc 5157004f678SGhennadi Procopciuc return cgm_mux_clk_config(cgm_addr, mux->index, 5167004f678SGhennadi Procopciuc mux_hw_clk, false); 5177004f678SGhennadi Procopciuc } 5187004f678SGhennadi Procopciuc 5197004f678SGhennadi Procopciuc static int enable_mux(const struct s32cc_clk_obj *module, 5207004f678SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 5217004f678SGhennadi Procopciuc unsigned int *depth) 5227004f678SGhennadi Procopciuc { 5237004f678SGhennadi Procopciuc const struct s32cc_clkmux *mux = s32cc_obj2clkmux(module); 5247004f678SGhennadi Procopciuc const struct s32cc_clk *clk; 5257004f678SGhennadi Procopciuc int ret = 0; 5267004f678SGhennadi Procopciuc 5277004f678SGhennadi Procopciuc ret = update_stack_depth(depth); 5287004f678SGhennadi Procopciuc if (ret != 0) { 5297004f678SGhennadi Procopciuc return ret; 5307004f678SGhennadi Procopciuc } 5317004f678SGhennadi Procopciuc 5327004f678SGhennadi Procopciuc if (mux == NULL) { 5337004f678SGhennadi Procopciuc return -EINVAL; 5347004f678SGhennadi Procopciuc } 5357004f678SGhennadi Procopciuc 5367004f678SGhennadi Procopciuc clk = s32cc_get_arch_clk(mux->source_id); 5377004f678SGhennadi Procopciuc if (clk == NULL) { 5387004f678SGhennadi Procopciuc ERROR("Invalid parent (%lu) for mux %" PRIu8 "\n", 5397004f678SGhennadi Procopciuc mux->source_id, mux->index); 5407004f678SGhennadi Procopciuc return -EINVAL; 5417004f678SGhennadi Procopciuc } 5427004f678SGhennadi Procopciuc 5437004f678SGhennadi Procopciuc switch (mux->module) { 5447004f678SGhennadi Procopciuc /* PLL mux will be enabled by PLL setup */ 5457004f678SGhennadi Procopciuc case S32CC_ARM_PLL: 5467004f678SGhennadi Procopciuc break; 5477004f678SGhennadi Procopciuc case S32CC_CGM1: 5487004f678SGhennadi Procopciuc ret = enable_cgm_mux(mux, drv); 5497004f678SGhennadi Procopciuc break; 5507004f678SGhennadi Procopciuc default: 5517004f678SGhennadi Procopciuc ERROR("Unknown mux parent type: %d\n", mux->module); 5527004f678SGhennadi Procopciuc ret = -EINVAL; 5537004f678SGhennadi Procopciuc break; 5547004f678SGhennadi Procopciuc }; 5557004f678SGhennadi Procopciuc 5567004f678SGhennadi Procopciuc return ret; 5577004f678SGhennadi Procopciuc } 5587004f678SGhennadi Procopciuc 559*4cd04c50SGhennadi Procopciuc static int enable_dfs(const struct s32cc_clk_obj *module, 560*4cd04c50SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 561*4cd04c50SGhennadi Procopciuc unsigned int *depth) 562*4cd04c50SGhennadi Procopciuc { 563*4cd04c50SGhennadi Procopciuc int ret = 0; 564*4cd04c50SGhennadi Procopciuc 565*4cd04c50SGhennadi Procopciuc ret = update_stack_depth(depth); 566*4cd04c50SGhennadi Procopciuc if (ret != 0) { 567*4cd04c50SGhennadi Procopciuc return ret; 568*4cd04c50SGhennadi Procopciuc } 569*4cd04c50SGhennadi Procopciuc 570*4cd04c50SGhennadi Procopciuc return 0; 571*4cd04c50SGhennadi Procopciuc } 572*4cd04c50SGhennadi Procopciuc 573*4cd04c50SGhennadi Procopciuc static struct s32cc_dfs *get_div_dfs(const struct s32cc_dfs_div *dfs_div) 574*4cd04c50SGhennadi Procopciuc { 575*4cd04c50SGhennadi Procopciuc const struct s32cc_clk_obj *parent = dfs_div->parent; 576*4cd04c50SGhennadi Procopciuc 577*4cd04c50SGhennadi Procopciuc if (parent->type != s32cc_dfs_t) { 578*4cd04c50SGhennadi Procopciuc ERROR("DFS DIV doesn't have a DFS as parent\n"); 579*4cd04c50SGhennadi Procopciuc return NULL; 580*4cd04c50SGhennadi Procopciuc } 581*4cd04c50SGhennadi Procopciuc 582*4cd04c50SGhennadi Procopciuc return s32cc_obj2dfs(parent); 583*4cd04c50SGhennadi Procopciuc } 584*4cd04c50SGhennadi Procopciuc 585*4cd04c50SGhennadi Procopciuc static struct s32cc_pll *dfsdiv2pll(const struct s32cc_dfs_div *dfs_div) 586*4cd04c50SGhennadi Procopciuc { 587*4cd04c50SGhennadi Procopciuc const struct s32cc_clk_obj *parent; 588*4cd04c50SGhennadi Procopciuc const struct s32cc_dfs *dfs; 589*4cd04c50SGhennadi Procopciuc 590*4cd04c50SGhennadi Procopciuc dfs = get_div_dfs(dfs_div); 591*4cd04c50SGhennadi Procopciuc if (dfs == NULL) { 592*4cd04c50SGhennadi Procopciuc return NULL; 593*4cd04c50SGhennadi Procopciuc } 594*4cd04c50SGhennadi Procopciuc 595*4cd04c50SGhennadi Procopciuc parent = dfs->parent; 596*4cd04c50SGhennadi Procopciuc if (parent->type != s32cc_pll_t) { 597*4cd04c50SGhennadi Procopciuc return NULL; 598*4cd04c50SGhennadi Procopciuc } 599*4cd04c50SGhennadi Procopciuc 600*4cd04c50SGhennadi Procopciuc return s32cc_obj2pll(parent); 601*4cd04c50SGhennadi Procopciuc } 602*4cd04c50SGhennadi Procopciuc 603*4cd04c50SGhennadi Procopciuc static int get_dfs_mfi_mfn(unsigned long dfs_freq, const struct s32cc_dfs_div *dfs_div, 604*4cd04c50SGhennadi Procopciuc uint32_t *mfi, uint32_t *mfn) 605*4cd04c50SGhennadi Procopciuc { 606*4cd04c50SGhennadi Procopciuc uint64_t factor64, tmp64, ofreq; 607*4cd04c50SGhennadi Procopciuc uint32_t factor32; 608*4cd04c50SGhennadi Procopciuc 609*4cd04c50SGhennadi Procopciuc unsigned long in = dfs_freq; 610*4cd04c50SGhennadi Procopciuc unsigned long out = dfs_div->freq; 611*4cd04c50SGhennadi Procopciuc 612*4cd04c50SGhennadi Procopciuc /** 613*4cd04c50SGhennadi Procopciuc * factor = (IN / OUT) / 2 614*4cd04c50SGhennadi Procopciuc * MFI = integer(factor) 615*4cd04c50SGhennadi Procopciuc * MFN = (factor - MFI) * 36 616*4cd04c50SGhennadi Procopciuc */ 617*4cd04c50SGhennadi Procopciuc factor64 = ((((uint64_t)in) * FP_PRECISION) / ((uint64_t)out)) / 2ULL; 618*4cd04c50SGhennadi Procopciuc tmp64 = factor64 / FP_PRECISION; 619*4cd04c50SGhennadi Procopciuc if (tmp64 > UINT32_MAX) { 620*4cd04c50SGhennadi Procopciuc return -EINVAL; 621*4cd04c50SGhennadi Procopciuc } 622*4cd04c50SGhennadi Procopciuc 623*4cd04c50SGhennadi Procopciuc factor32 = (uint32_t)tmp64; 624*4cd04c50SGhennadi Procopciuc *mfi = factor32; 625*4cd04c50SGhennadi Procopciuc 626*4cd04c50SGhennadi Procopciuc tmp64 = ((factor64 - ((uint64_t)*mfi * FP_PRECISION)) * 36UL) / FP_PRECISION; 627*4cd04c50SGhennadi Procopciuc if (tmp64 > UINT32_MAX) { 628*4cd04c50SGhennadi Procopciuc return -EINVAL; 629*4cd04c50SGhennadi Procopciuc } 630*4cd04c50SGhennadi Procopciuc 631*4cd04c50SGhennadi Procopciuc *mfn = (uint32_t)tmp64; 632*4cd04c50SGhennadi Procopciuc 633*4cd04c50SGhennadi Procopciuc /* div_freq = in / (2 * (*mfi + *mfn / 36.0)) */ 634*4cd04c50SGhennadi Procopciuc factor64 = (((uint64_t)*mfn) * FP_PRECISION) / 36ULL; 635*4cd04c50SGhennadi Procopciuc factor64 += ((uint64_t)*mfi) * FP_PRECISION; 636*4cd04c50SGhennadi Procopciuc factor64 *= 2ULL; 637*4cd04c50SGhennadi Procopciuc ofreq = (((uint64_t)in) * FP_PRECISION) / factor64; 638*4cd04c50SGhennadi Procopciuc 639*4cd04c50SGhennadi Procopciuc if (ofreq != dfs_div->freq) { 640*4cd04c50SGhennadi Procopciuc ERROR("Failed to find MFI and MFN settings for DFS DIV freq %lu\n", 641*4cd04c50SGhennadi Procopciuc dfs_div->freq); 642*4cd04c50SGhennadi Procopciuc ERROR("Nearest freq = %" PRIx64 "\n", ofreq); 643*4cd04c50SGhennadi Procopciuc return -EINVAL; 644*4cd04c50SGhennadi Procopciuc } 645*4cd04c50SGhennadi Procopciuc 646*4cd04c50SGhennadi Procopciuc return 0; 647*4cd04c50SGhennadi Procopciuc } 648*4cd04c50SGhennadi Procopciuc 649*4cd04c50SGhennadi Procopciuc static int init_dfs_port(uintptr_t dfs_addr, uint32_t port, 650*4cd04c50SGhennadi Procopciuc uint32_t mfi, uint32_t mfn) 651*4cd04c50SGhennadi Procopciuc { 652*4cd04c50SGhennadi Procopciuc uint32_t portsr, portolsr; 653*4cd04c50SGhennadi Procopciuc uint32_t mask, old_mfi, old_mfn; 654*4cd04c50SGhennadi Procopciuc uint32_t dvport; 655*4cd04c50SGhennadi Procopciuc bool init_dfs; 656*4cd04c50SGhennadi Procopciuc 657*4cd04c50SGhennadi Procopciuc dvport = mmio_read_32(DFS_DVPORTn(dfs_addr, port)); 658*4cd04c50SGhennadi Procopciuc 659*4cd04c50SGhennadi Procopciuc old_mfi = DFS_DVPORTn_MFI(dvport); 660*4cd04c50SGhennadi Procopciuc old_mfn = DFS_DVPORTn_MFN(dvport); 661*4cd04c50SGhennadi Procopciuc 662*4cd04c50SGhennadi Procopciuc portsr = mmio_read_32(DFS_PORTSR(dfs_addr)); 663*4cd04c50SGhennadi Procopciuc portolsr = mmio_read_32(DFS_PORTOLSR(dfs_addr)); 664*4cd04c50SGhennadi Procopciuc 665*4cd04c50SGhennadi Procopciuc /* Skip configuration if it's not needed */ 666*4cd04c50SGhennadi Procopciuc if (((portsr & BIT_32(port)) != 0U) && 667*4cd04c50SGhennadi Procopciuc ((portolsr & BIT_32(port)) == 0U) && 668*4cd04c50SGhennadi Procopciuc (mfi == old_mfi) && (mfn == old_mfn)) { 669*4cd04c50SGhennadi Procopciuc return 0; 670*4cd04c50SGhennadi Procopciuc } 671*4cd04c50SGhennadi Procopciuc 672*4cd04c50SGhennadi Procopciuc init_dfs = (portsr == 0U); 673*4cd04c50SGhennadi Procopciuc 674*4cd04c50SGhennadi Procopciuc if (init_dfs) { 675*4cd04c50SGhennadi Procopciuc mask = DFS_PORTRESET_MASK; 676*4cd04c50SGhennadi Procopciuc } else { 677*4cd04c50SGhennadi Procopciuc mask = DFS_PORTRESET_SET(BIT_32(port)); 678*4cd04c50SGhennadi Procopciuc } 679*4cd04c50SGhennadi Procopciuc 680*4cd04c50SGhennadi Procopciuc mmio_write_32(DFS_PORTOLSR(dfs_addr), mask); 681*4cd04c50SGhennadi Procopciuc mmio_write_32(DFS_PORTRESET(dfs_addr), mask); 682*4cd04c50SGhennadi Procopciuc 683*4cd04c50SGhennadi Procopciuc while ((mmio_read_32(DFS_PORTSR(dfs_addr)) & mask) != 0U) { 684*4cd04c50SGhennadi Procopciuc } 685*4cd04c50SGhennadi Procopciuc 686*4cd04c50SGhennadi Procopciuc if (init_dfs) { 687*4cd04c50SGhennadi Procopciuc mmio_write_32(DFS_CTL(dfs_addr), DFS_CTL_RESET); 688*4cd04c50SGhennadi Procopciuc } 689*4cd04c50SGhennadi Procopciuc 690*4cd04c50SGhennadi Procopciuc mmio_write_32(DFS_DVPORTn(dfs_addr, port), 691*4cd04c50SGhennadi Procopciuc DFS_DVPORTn_MFI_SET(mfi) | DFS_DVPORTn_MFN_SET(mfn)); 692*4cd04c50SGhennadi Procopciuc 693*4cd04c50SGhennadi Procopciuc if (init_dfs) { 694*4cd04c50SGhennadi Procopciuc /* DFS clk enable programming */ 695*4cd04c50SGhennadi Procopciuc mmio_clrbits_32(DFS_CTL(dfs_addr), DFS_CTL_RESET); 696*4cd04c50SGhennadi Procopciuc } 697*4cd04c50SGhennadi Procopciuc 698*4cd04c50SGhennadi Procopciuc mmio_clrbits_32(DFS_PORTRESET(dfs_addr), BIT_32(port)); 699*4cd04c50SGhennadi Procopciuc 700*4cd04c50SGhennadi Procopciuc while ((mmio_read_32(DFS_PORTSR(dfs_addr)) & BIT_32(port)) != BIT_32(port)) { 701*4cd04c50SGhennadi Procopciuc } 702*4cd04c50SGhennadi Procopciuc 703*4cd04c50SGhennadi Procopciuc portolsr = mmio_read_32(DFS_PORTOLSR(dfs_addr)); 704*4cd04c50SGhennadi Procopciuc if ((portolsr & DFS_PORTOLSR_LOL(port)) != 0U) { 705*4cd04c50SGhennadi Procopciuc ERROR("Failed to lock DFS divider\n"); 706*4cd04c50SGhennadi Procopciuc return -EINVAL; 707*4cd04c50SGhennadi Procopciuc } 708*4cd04c50SGhennadi Procopciuc 709*4cd04c50SGhennadi Procopciuc return 0; 710*4cd04c50SGhennadi Procopciuc } 711*4cd04c50SGhennadi Procopciuc 712*4cd04c50SGhennadi Procopciuc static int enable_dfs_div(const struct s32cc_clk_obj *module, 713*4cd04c50SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 714*4cd04c50SGhennadi Procopciuc unsigned int *depth) 715*4cd04c50SGhennadi Procopciuc { 716*4cd04c50SGhennadi Procopciuc const struct s32cc_dfs_div *dfs_div = s32cc_obj2dfsdiv(module); 717*4cd04c50SGhennadi Procopciuc const struct s32cc_pll *pll; 718*4cd04c50SGhennadi Procopciuc const struct s32cc_dfs *dfs; 719*4cd04c50SGhennadi Procopciuc uintptr_t dfs_addr = 0UL; 720*4cd04c50SGhennadi Procopciuc uint32_t mfi, mfn; 721*4cd04c50SGhennadi Procopciuc int ret = 0; 722*4cd04c50SGhennadi Procopciuc 723*4cd04c50SGhennadi Procopciuc ret = update_stack_depth(depth); 724*4cd04c50SGhennadi Procopciuc if (ret != 0) { 725*4cd04c50SGhennadi Procopciuc return ret; 726*4cd04c50SGhennadi Procopciuc } 727*4cd04c50SGhennadi Procopciuc 728*4cd04c50SGhennadi Procopciuc dfs = get_div_dfs(dfs_div); 729*4cd04c50SGhennadi Procopciuc if (dfs == NULL) { 730*4cd04c50SGhennadi Procopciuc return -EINVAL; 731*4cd04c50SGhennadi Procopciuc } 732*4cd04c50SGhennadi Procopciuc 733*4cd04c50SGhennadi Procopciuc pll = dfsdiv2pll(dfs_div); 734*4cd04c50SGhennadi Procopciuc if (pll == NULL) { 735*4cd04c50SGhennadi Procopciuc ERROR("Failed to identify DFS divider's parent\n"); 736*4cd04c50SGhennadi Procopciuc return -EINVAL; 737*4cd04c50SGhennadi Procopciuc } 738*4cd04c50SGhennadi Procopciuc 739*4cd04c50SGhennadi Procopciuc ret = get_base_addr(dfs->instance, drv, &dfs_addr); 740*4cd04c50SGhennadi Procopciuc if ((ret != 0) || (dfs_addr == 0UL)) { 741*4cd04c50SGhennadi Procopciuc return -EINVAL; 742*4cd04c50SGhennadi Procopciuc } 743*4cd04c50SGhennadi Procopciuc 744*4cd04c50SGhennadi Procopciuc ret = get_dfs_mfi_mfn(pll->vco_freq, dfs_div, &mfi, &mfn); 745*4cd04c50SGhennadi Procopciuc if (ret != 0) { 746*4cd04c50SGhennadi Procopciuc return -EINVAL; 747*4cd04c50SGhennadi Procopciuc } 748*4cd04c50SGhennadi Procopciuc 749*4cd04c50SGhennadi Procopciuc return init_dfs_port(dfs_addr, dfs_div->index, mfi, mfn); 750*4cd04c50SGhennadi Procopciuc } 751*4cd04c50SGhennadi Procopciuc 7528ab34357SGhennadi Procopciuc static int enable_module(const struct s32cc_clk_obj *module, unsigned int *depth) 7538ab34357SGhennadi Procopciuc { 7548ab34357SGhennadi Procopciuc const struct s32cc_clk_drv *drv = get_drv(); 7558ab34357SGhennadi Procopciuc int ret = 0; 7568ab34357SGhennadi Procopciuc 7578ab34357SGhennadi Procopciuc ret = update_stack_depth(depth); 7588ab34357SGhennadi Procopciuc if (ret != 0) { 7598ab34357SGhennadi Procopciuc return ret; 7608ab34357SGhennadi Procopciuc } 7618ab34357SGhennadi Procopciuc 7628ab34357SGhennadi Procopciuc if (drv == NULL) { 7638ab34357SGhennadi Procopciuc return -EINVAL; 7648ab34357SGhennadi Procopciuc } 7658ab34357SGhennadi Procopciuc 7668ab34357SGhennadi Procopciuc switch (module->type) { 7678ab34357SGhennadi Procopciuc case s32cc_osc_t: 7688ab34357SGhennadi Procopciuc ret = enable_osc(module, drv, depth); 7698ab34357SGhennadi Procopciuc break; 7708ab34357SGhennadi Procopciuc case s32cc_clk_t: 7718ab34357SGhennadi Procopciuc ret = enable_clk_module(module, drv, depth); 7728ab34357SGhennadi Procopciuc break; 773b5101c45SGhennadi Procopciuc case s32cc_pll_t: 774b5101c45SGhennadi Procopciuc ret = enable_pll(module, drv, depth); 775b5101c45SGhennadi Procopciuc break; 77684e82085SGhennadi Procopciuc case s32cc_pll_out_div_t: 77784e82085SGhennadi Procopciuc ret = enable_pll_div(module, drv, depth); 77884e82085SGhennadi Procopciuc break; 779a8be748aSGhennadi Procopciuc case s32cc_clkmux_t: 7807004f678SGhennadi Procopciuc ret = enable_mux(module, drv, depth); 781a8be748aSGhennadi Procopciuc break; 7823fa91a94SGhennadi Procopciuc case s32cc_shared_clkmux_t: 7837004f678SGhennadi Procopciuc ret = enable_mux(module, drv, depth); 7843fa91a94SGhennadi Procopciuc break; 78544e2130aSGhennadi Procopciuc case s32cc_fixed_div_t: 786a8be748aSGhennadi Procopciuc ret = -ENOTSUP; 787a8be748aSGhennadi Procopciuc break; 788*4cd04c50SGhennadi Procopciuc case s32cc_dfs_t: 789*4cd04c50SGhennadi Procopciuc ret = enable_dfs(module, drv, depth); 790*4cd04c50SGhennadi Procopciuc break; 791*4cd04c50SGhennadi Procopciuc case s32cc_dfs_div_t: 792*4cd04c50SGhennadi Procopciuc ret = enable_dfs_div(module, drv, depth); 793*4cd04c50SGhennadi Procopciuc break; 7948ab34357SGhennadi Procopciuc default: 7958ab34357SGhennadi Procopciuc ret = -EINVAL; 7968ab34357SGhennadi Procopciuc break; 7978ab34357SGhennadi Procopciuc } 7988ab34357SGhennadi Procopciuc 7998ab34357SGhennadi Procopciuc return ret; 8008ab34357SGhennadi Procopciuc } 8018ab34357SGhennadi Procopciuc 8023a580e9eSGhennadi Procopciuc static int s32cc_clk_enable(unsigned long id) 8033a580e9eSGhennadi Procopciuc { 8048ab34357SGhennadi Procopciuc unsigned int depth = MAX_STACK_DEPTH; 8058ab34357SGhennadi Procopciuc const struct s32cc_clk *clk; 8068ab34357SGhennadi Procopciuc 8078ab34357SGhennadi Procopciuc clk = s32cc_get_arch_clk(id); 8088ab34357SGhennadi Procopciuc if (clk == NULL) { 8098ab34357SGhennadi Procopciuc return -EINVAL; 8108ab34357SGhennadi Procopciuc } 8118ab34357SGhennadi Procopciuc 8128ab34357SGhennadi Procopciuc return enable_module(&clk->desc, &depth); 8133a580e9eSGhennadi Procopciuc } 8143a580e9eSGhennadi Procopciuc 8153a580e9eSGhennadi Procopciuc static void s32cc_clk_disable(unsigned long id) 8163a580e9eSGhennadi Procopciuc { 8173a580e9eSGhennadi Procopciuc } 8183a580e9eSGhennadi Procopciuc 8193a580e9eSGhennadi Procopciuc static bool s32cc_clk_is_enabled(unsigned long id) 8203a580e9eSGhennadi Procopciuc { 8213a580e9eSGhennadi Procopciuc return false; 8223a580e9eSGhennadi Procopciuc } 8233a580e9eSGhennadi Procopciuc 8243a580e9eSGhennadi Procopciuc static unsigned long s32cc_clk_get_rate(unsigned long id) 8253a580e9eSGhennadi Procopciuc { 8263a580e9eSGhennadi Procopciuc return 0; 8273a580e9eSGhennadi Procopciuc } 8283a580e9eSGhennadi Procopciuc 829d9373519SGhennadi Procopciuc static int set_module_rate(const struct s32cc_clk_obj *module, 830d9373519SGhennadi Procopciuc unsigned long rate, unsigned long *orate, 831d9373519SGhennadi Procopciuc unsigned int *depth); 832d9373519SGhennadi Procopciuc 833d9373519SGhennadi Procopciuc static int set_osc_freq(const struct s32cc_clk_obj *module, unsigned long rate, 834d9373519SGhennadi Procopciuc unsigned long *orate, unsigned int *depth) 835d9373519SGhennadi Procopciuc { 836d9373519SGhennadi Procopciuc struct s32cc_osc *osc = s32cc_obj2osc(module); 837d9373519SGhennadi Procopciuc int ret; 838d9373519SGhennadi Procopciuc 839d9373519SGhennadi Procopciuc ret = update_stack_depth(depth); 840d9373519SGhennadi Procopciuc if (ret != 0) { 841d9373519SGhennadi Procopciuc return ret; 842d9373519SGhennadi Procopciuc } 843d9373519SGhennadi Procopciuc 844d9373519SGhennadi Procopciuc if ((osc->freq != 0UL) && (rate != osc->freq)) { 845d9373519SGhennadi Procopciuc ERROR("Already initialized oscillator. freq = %lu\n", 846d9373519SGhennadi Procopciuc osc->freq); 847d9373519SGhennadi Procopciuc return -EINVAL; 848d9373519SGhennadi Procopciuc } 849d9373519SGhennadi Procopciuc 850d9373519SGhennadi Procopciuc osc->freq = rate; 851d9373519SGhennadi Procopciuc *orate = osc->freq; 852d9373519SGhennadi Procopciuc 853d9373519SGhennadi Procopciuc return 0; 854d9373519SGhennadi Procopciuc } 855d9373519SGhennadi Procopciuc 856d9373519SGhennadi Procopciuc static int set_clk_freq(const struct s32cc_clk_obj *module, unsigned long rate, 857d9373519SGhennadi Procopciuc unsigned long *orate, unsigned int *depth) 858d9373519SGhennadi Procopciuc { 859d9373519SGhennadi Procopciuc const struct s32cc_clk *clk = s32cc_obj2clk(module); 860d9373519SGhennadi Procopciuc int ret; 861d9373519SGhennadi Procopciuc 862d9373519SGhennadi Procopciuc ret = update_stack_depth(depth); 863d9373519SGhennadi Procopciuc if (ret != 0) { 864d9373519SGhennadi Procopciuc return ret; 865d9373519SGhennadi Procopciuc } 866d9373519SGhennadi Procopciuc 867d9373519SGhennadi Procopciuc if ((clk->min_freq != 0UL) && (clk->max_freq != 0UL) && 868d9373519SGhennadi Procopciuc ((rate < clk->min_freq) || (rate > clk->max_freq))) { 869d9373519SGhennadi Procopciuc ERROR("%lu frequency is out of the allowed range: [%lu:%lu]\n", 870d9373519SGhennadi Procopciuc rate, clk->min_freq, clk->max_freq); 871d9373519SGhennadi Procopciuc return -EINVAL; 872d9373519SGhennadi Procopciuc } 873d9373519SGhennadi Procopciuc 874d9373519SGhennadi Procopciuc if (clk->module != NULL) { 875d9373519SGhennadi Procopciuc return set_module_rate(clk->module, rate, orate, depth); 876d9373519SGhennadi Procopciuc } 877d9373519SGhennadi Procopciuc 878d9373519SGhennadi Procopciuc if (clk->pclock != NULL) { 879d9373519SGhennadi Procopciuc return set_clk_freq(&clk->pclock->desc, rate, orate, depth); 880d9373519SGhennadi Procopciuc } 881d9373519SGhennadi Procopciuc 882d9373519SGhennadi Procopciuc return -EINVAL; 883d9373519SGhennadi Procopciuc } 884d9373519SGhennadi Procopciuc 8857ad4e231SGhennadi Procopciuc static int set_pll_freq(const struct s32cc_clk_obj *module, unsigned long rate, 8867ad4e231SGhennadi Procopciuc unsigned long *orate, unsigned int *depth) 8877ad4e231SGhennadi Procopciuc { 8887ad4e231SGhennadi Procopciuc struct s32cc_pll *pll = s32cc_obj2pll(module); 8897ad4e231SGhennadi Procopciuc int ret; 8907ad4e231SGhennadi Procopciuc 8917ad4e231SGhennadi Procopciuc ret = update_stack_depth(depth); 8927ad4e231SGhennadi Procopciuc if (ret != 0) { 8937ad4e231SGhennadi Procopciuc return ret; 8947ad4e231SGhennadi Procopciuc } 8957ad4e231SGhennadi Procopciuc 8967ad4e231SGhennadi Procopciuc if ((pll->vco_freq != 0UL) && (pll->vco_freq != rate)) { 8977ad4e231SGhennadi Procopciuc ERROR("PLL frequency was already set\n"); 8987ad4e231SGhennadi Procopciuc return -EINVAL; 8997ad4e231SGhennadi Procopciuc } 9007ad4e231SGhennadi Procopciuc 9017ad4e231SGhennadi Procopciuc pll->vco_freq = rate; 9027ad4e231SGhennadi Procopciuc *orate = pll->vco_freq; 9037ad4e231SGhennadi Procopciuc 9047ad4e231SGhennadi Procopciuc return 0; 9057ad4e231SGhennadi Procopciuc } 9067ad4e231SGhennadi Procopciuc 907de950ef0SGhennadi Procopciuc static int set_pll_div_freq(const struct s32cc_clk_obj *module, unsigned long rate, 908de950ef0SGhennadi Procopciuc unsigned long *orate, unsigned int *depth) 909de950ef0SGhennadi Procopciuc { 910de950ef0SGhennadi Procopciuc struct s32cc_pll_out_div *pdiv = s32cc_obj2plldiv(module); 911de950ef0SGhennadi Procopciuc const struct s32cc_pll *pll; 912de950ef0SGhennadi Procopciuc unsigned long prate, dc; 913de950ef0SGhennadi Procopciuc int ret; 914de950ef0SGhennadi Procopciuc 915de950ef0SGhennadi Procopciuc ret = update_stack_depth(depth); 916de950ef0SGhennadi Procopciuc if (ret != 0) { 917de950ef0SGhennadi Procopciuc return ret; 918de950ef0SGhennadi Procopciuc } 919de950ef0SGhennadi Procopciuc 920de950ef0SGhennadi Procopciuc if (pdiv->parent == NULL) { 921de950ef0SGhennadi Procopciuc ERROR("Failed to identify PLL divider's parent\n"); 922de950ef0SGhennadi Procopciuc return -EINVAL; 923de950ef0SGhennadi Procopciuc } 924de950ef0SGhennadi Procopciuc 925de950ef0SGhennadi Procopciuc pll = s32cc_obj2pll(pdiv->parent); 926de950ef0SGhennadi Procopciuc if (pll == NULL) { 927de950ef0SGhennadi Procopciuc ERROR("The parent of the PLL DIV is invalid\n"); 928de950ef0SGhennadi Procopciuc return -EINVAL; 929de950ef0SGhennadi Procopciuc } 930de950ef0SGhennadi Procopciuc 931de950ef0SGhennadi Procopciuc prate = pll->vco_freq; 932de950ef0SGhennadi Procopciuc 933de950ef0SGhennadi Procopciuc /** 934de950ef0SGhennadi Procopciuc * The PLL is not initialized yet, so let's take a risk 935de950ef0SGhennadi Procopciuc * and accept the proposed rate. 936de950ef0SGhennadi Procopciuc */ 937de950ef0SGhennadi Procopciuc if (prate == 0UL) { 938de950ef0SGhennadi Procopciuc pdiv->freq = rate; 939de950ef0SGhennadi Procopciuc *orate = rate; 940de950ef0SGhennadi Procopciuc return 0; 941de950ef0SGhennadi Procopciuc } 942de950ef0SGhennadi Procopciuc 943de950ef0SGhennadi Procopciuc /* Decline in case the rate cannot fit PLL's requirements. */ 944de950ef0SGhennadi Procopciuc dc = prate / rate; 945de950ef0SGhennadi Procopciuc if ((prate / dc) != rate) { 946de950ef0SGhennadi Procopciuc return -EINVAL; 947de950ef0SGhennadi Procopciuc } 948de950ef0SGhennadi Procopciuc 949de950ef0SGhennadi Procopciuc pdiv->freq = rate; 950de950ef0SGhennadi Procopciuc *orate = pdiv->freq; 951de950ef0SGhennadi Procopciuc 952de950ef0SGhennadi Procopciuc return 0; 953de950ef0SGhennadi Procopciuc } 954de950ef0SGhennadi Procopciuc 95565739db2SGhennadi Procopciuc static int set_fixed_div_freq(const struct s32cc_clk_obj *module, unsigned long rate, 95665739db2SGhennadi Procopciuc unsigned long *orate, unsigned int *depth) 95765739db2SGhennadi Procopciuc { 95865739db2SGhennadi Procopciuc const struct s32cc_fixed_div *fdiv = s32cc_obj2fixeddiv(module); 95965739db2SGhennadi Procopciuc int ret; 96065739db2SGhennadi Procopciuc 96165739db2SGhennadi Procopciuc ret = update_stack_depth(depth); 96265739db2SGhennadi Procopciuc if (ret != 0) { 96365739db2SGhennadi Procopciuc return ret; 96465739db2SGhennadi Procopciuc } 96565739db2SGhennadi Procopciuc 96665739db2SGhennadi Procopciuc if (fdiv->parent == NULL) { 96765739db2SGhennadi Procopciuc ERROR("The divider doesn't have a valid parent\b"); 96865739db2SGhennadi Procopciuc return -EINVAL; 96965739db2SGhennadi Procopciuc } 97065739db2SGhennadi Procopciuc 97165739db2SGhennadi Procopciuc ret = set_module_rate(fdiv->parent, rate * fdiv->rate_div, orate, depth); 97265739db2SGhennadi Procopciuc 97365739db2SGhennadi Procopciuc /* Update the output rate based on the parent's rate */ 97465739db2SGhennadi Procopciuc *orate /= fdiv->rate_div; 97565739db2SGhennadi Procopciuc 97665739db2SGhennadi Procopciuc return ret; 97765739db2SGhennadi Procopciuc } 97865739db2SGhennadi Procopciuc 97964e0c226SGhennadi Procopciuc static int set_mux_freq(const struct s32cc_clk_obj *module, unsigned long rate, 98064e0c226SGhennadi Procopciuc unsigned long *orate, unsigned int *depth) 98164e0c226SGhennadi Procopciuc { 98264e0c226SGhennadi Procopciuc const struct s32cc_clkmux *mux = s32cc_obj2clkmux(module); 98364e0c226SGhennadi Procopciuc const struct s32cc_clk *clk = s32cc_get_arch_clk(mux->source_id); 98464e0c226SGhennadi Procopciuc int ret; 98564e0c226SGhennadi Procopciuc 98664e0c226SGhennadi Procopciuc ret = update_stack_depth(depth); 98764e0c226SGhennadi Procopciuc if (ret != 0) { 98864e0c226SGhennadi Procopciuc return ret; 98964e0c226SGhennadi Procopciuc } 99064e0c226SGhennadi Procopciuc 99164e0c226SGhennadi Procopciuc if (clk == NULL) { 99264e0c226SGhennadi Procopciuc ERROR("Mux (id:%" PRIu8 ") without a valid source (%lu)\n", 99364e0c226SGhennadi Procopciuc mux->index, mux->source_id); 99464e0c226SGhennadi Procopciuc return -EINVAL; 99564e0c226SGhennadi Procopciuc } 99664e0c226SGhennadi Procopciuc 99764e0c226SGhennadi Procopciuc return set_module_rate(&clk->desc, rate, orate, depth); 99864e0c226SGhennadi Procopciuc } 99964e0c226SGhennadi Procopciuc 1000*4cd04c50SGhennadi Procopciuc static int set_dfs_div_freq(const struct s32cc_clk_obj *module, unsigned long rate, 1001*4cd04c50SGhennadi Procopciuc unsigned long *orate, unsigned int *depth) 1002*4cd04c50SGhennadi Procopciuc { 1003*4cd04c50SGhennadi Procopciuc struct s32cc_dfs_div *dfs_div = s32cc_obj2dfsdiv(module); 1004*4cd04c50SGhennadi Procopciuc const struct s32cc_dfs *dfs; 1005*4cd04c50SGhennadi Procopciuc int ret; 1006*4cd04c50SGhennadi Procopciuc 1007*4cd04c50SGhennadi Procopciuc ret = update_stack_depth(depth); 1008*4cd04c50SGhennadi Procopciuc if (ret != 0) { 1009*4cd04c50SGhennadi Procopciuc return ret; 1010*4cd04c50SGhennadi Procopciuc } 1011*4cd04c50SGhennadi Procopciuc 1012*4cd04c50SGhennadi Procopciuc if (dfs_div->parent == NULL) { 1013*4cd04c50SGhennadi Procopciuc ERROR("Failed to identify DFS divider's parent\n"); 1014*4cd04c50SGhennadi Procopciuc return -EINVAL; 1015*4cd04c50SGhennadi Procopciuc } 1016*4cd04c50SGhennadi Procopciuc 1017*4cd04c50SGhennadi Procopciuc /* Sanity check */ 1018*4cd04c50SGhennadi Procopciuc dfs = s32cc_obj2dfs(dfs_div->parent); 1019*4cd04c50SGhennadi Procopciuc if (dfs->parent == NULL) { 1020*4cd04c50SGhennadi Procopciuc ERROR("Failed to identify DFS's parent\n"); 1021*4cd04c50SGhennadi Procopciuc return -EINVAL; 1022*4cd04c50SGhennadi Procopciuc } 1023*4cd04c50SGhennadi Procopciuc 1024*4cd04c50SGhennadi Procopciuc if ((dfs_div->freq != 0U) && (dfs_div->freq != rate)) { 1025*4cd04c50SGhennadi Procopciuc ERROR("DFS DIV frequency was already set to %lu\n", 1026*4cd04c50SGhennadi Procopciuc dfs_div->freq); 1027*4cd04c50SGhennadi Procopciuc return -EINVAL; 1028*4cd04c50SGhennadi Procopciuc } 1029*4cd04c50SGhennadi Procopciuc 1030*4cd04c50SGhennadi Procopciuc dfs_div->freq = rate; 1031*4cd04c50SGhennadi Procopciuc *orate = rate; 1032*4cd04c50SGhennadi Procopciuc 1033*4cd04c50SGhennadi Procopciuc return ret; 1034*4cd04c50SGhennadi Procopciuc } 1035*4cd04c50SGhennadi Procopciuc 1036d9373519SGhennadi Procopciuc static int set_module_rate(const struct s32cc_clk_obj *module, 1037d9373519SGhennadi Procopciuc unsigned long rate, unsigned long *orate, 1038d9373519SGhennadi Procopciuc unsigned int *depth) 1039d9373519SGhennadi Procopciuc { 1040d9373519SGhennadi Procopciuc int ret = 0; 1041d9373519SGhennadi Procopciuc 1042d9373519SGhennadi Procopciuc ret = update_stack_depth(depth); 1043d9373519SGhennadi Procopciuc if (ret != 0) { 1044d9373519SGhennadi Procopciuc return ret; 1045d9373519SGhennadi Procopciuc } 1046d9373519SGhennadi Procopciuc 1047*4cd04c50SGhennadi Procopciuc ret = -EINVAL; 1048*4cd04c50SGhennadi Procopciuc 1049d9373519SGhennadi Procopciuc switch (module->type) { 1050d9373519SGhennadi Procopciuc case s32cc_clk_t: 1051d9373519SGhennadi Procopciuc ret = set_clk_freq(module, rate, orate, depth); 1052d9373519SGhennadi Procopciuc break; 1053d9373519SGhennadi Procopciuc case s32cc_osc_t: 1054d9373519SGhennadi Procopciuc ret = set_osc_freq(module, rate, orate, depth); 1055d9373519SGhennadi Procopciuc break; 10567ad4e231SGhennadi Procopciuc case s32cc_pll_t: 10577ad4e231SGhennadi Procopciuc ret = set_pll_freq(module, rate, orate, depth); 10587ad4e231SGhennadi Procopciuc break; 1059de950ef0SGhennadi Procopciuc case s32cc_pll_out_div_t: 1060de950ef0SGhennadi Procopciuc ret = set_pll_div_freq(module, rate, orate, depth); 1061de950ef0SGhennadi Procopciuc break; 106265739db2SGhennadi Procopciuc case s32cc_fixed_div_t: 106365739db2SGhennadi Procopciuc ret = set_fixed_div_freq(module, rate, orate, depth); 106465739db2SGhennadi Procopciuc break; 1065a8be748aSGhennadi Procopciuc case s32cc_clkmux_t: 106664e0c226SGhennadi Procopciuc ret = set_mux_freq(module, rate, orate, depth); 106764e0c226SGhennadi Procopciuc break; 10683fa91a94SGhennadi Procopciuc case s32cc_shared_clkmux_t: 106964e0c226SGhennadi Procopciuc ret = set_mux_freq(module, rate, orate, depth); 1070a8be748aSGhennadi Procopciuc break; 1071*4cd04c50SGhennadi Procopciuc case s32cc_dfs_t: 1072*4cd04c50SGhennadi Procopciuc ERROR("Setting the frequency of a DFS is not allowed!"); 1073*4cd04c50SGhennadi Procopciuc break; 1074*4cd04c50SGhennadi Procopciuc case s32cc_dfs_div_t: 1075*4cd04c50SGhennadi Procopciuc ret = set_dfs_div_freq(module, rate, orate, depth); 1076*4cd04c50SGhennadi Procopciuc break; 1077d9373519SGhennadi Procopciuc default: 1078d9373519SGhennadi Procopciuc break; 1079d9373519SGhennadi Procopciuc } 1080d9373519SGhennadi Procopciuc 1081d9373519SGhennadi Procopciuc return ret; 1082d9373519SGhennadi Procopciuc } 1083d9373519SGhennadi Procopciuc 10843a580e9eSGhennadi Procopciuc static int s32cc_clk_set_rate(unsigned long id, unsigned long rate, 10853a580e9eSGhennadi Procopciuc unsigned long *orate) 10863a580e9eSGhennadi Procopciuc { 1087d9373519SGhennadi Procopciuc unsigned int depth = MAX_STACK_DEPTH; 1088d9373519SGhennadi Procopciuc const struct s32cc_clk *clk; 1089d9373519SGhennadi Procopciuc int ret; 1090d9373519SGhennadi Procopciuc 1091d9373519SGhennadi Procopciuc clk = s32cc_get_arch_clk(id); 1092d9373519SGhennadi Procopciuc if (clk == NULL) { 1093d9373519SGhennadi Procopciuc return -EINVAL; 1094d9373519SGhennadi Procopciuc } 1095d9373519SGhennadi Procopciuc 1096d9373519SGhennadi Procopciuc ret = set_module_rate(&clk->desc, rate, orate, &depth); 1097d9373519SGhennadi Procopciuc if (ret != 0) { 1098d9373519SGhennadi Procopciuc ERROR("Failed to set frequency (%lu MHz) for clock %lu\n", 1099d9373519SGhennadi Procopciuc rate, id); 1100d9373519SGhennadi Procopciuc } 1101d9373519SGhennadi Procopciuc 1102d9373519SGhennadi Procopciuc return ret; 11033a580e9eSGhennadi Procopciuc } 11043a580e9eSGhennadi Procopciuc 11053a580e9eSGhennadi Procopciuc static int s32cc_clk_get_parent(unsigned long id) 11063a580e9eSGhennadi Procopciuc { 11073a580e9eSGhennadi Procopciuc return -ENOTSUP; 11083a580e9eSGhennadi Procopciuc } 11093a580e9eSGhennadi Procopciuc 11103a580e9eSGhennadi Procopciuc static int s32cc_clk_set_parent(unsigned long id, unsigned long parent_id) 11113a580e9eSGhennadi Procopciuc { 111212e7a2cdSGhennadi Procopciuc const struct s32cc_clk *parent; 111312e7a2cdSGhennadi Procopciuc const struct s32cc_clk *clk; 111412e7a2cdSGhennadi Procopciuc bool valid_source = false; 111512e7a2cdSGhennadi Procopciuc struct s32cc_clkmux *mux; 111612e7a2cdSGhennadi Procopciuc uint8_t i; 111712e7a2cdSGhennadi Procopciuc 111812e7a2cdSGhennadi Procopciuc clk = s32cc_get_arch_clk(id); 111912e7a2cdSGhennadi Procopciuc if (clk == NULL) { 112012e7a2cdSGhennadi Procopciuc return -EINVAL; 112112e7a2cdSGhennadi Procopciuc } 112212e7a2cdSGhennadi Procopciuc 112312e7a2cdSGhennadi Procopciuc parent = s32cc_get_arch_clk(parent_id); 112412e7a2cdSGhennadi Procopciuc if (parent == NULL) { 112512e7a2cdSGhennadi Procopciuc return -EINVAL; 112612e7a2cdSGhennadi Procopciuc } 112712e7a2cdSGhennadi Procopciuc 112812e7a2cdSGhennadi Procopciuc if (!is_s32cc_clk_mux(clk)) { 112912e7a2cdSGhennadi Procopciuc ERROR("Clock %lu is not a mux\n", id); 113012e7a2cdSGhennadi Procopciuc return -EINVAL; 113112e7a2cdSGhennadi Procopciuc } 113212e7a2cdSGhennadi Procopciuc 113312e7a2cdSGhennadi Procopciuc mux = s32cc_clk2mux(clk); 113412e7a2cdSGhennadi Procopciuc if (mux == NULL) { 113512e7a2cdSGhennadi Procopciuc ERROR("Failed to cast clock %lu to clock mux\n", id); 113612e7a2cdSGhennadi Procopciuc return -EINVAL; 113712e7a2cdSGhennadi Procopciuc } 113812e7a2cdSGhennadi Procopciuc 113912e7a2cdSGhennadi Procopciuc for (i = 0; i < mux->nclks; i++) { 114012e7a2cdSGhennadi Procopciuc if (mux->clkids[i] == parent_id) { 114112e7a2cdSGhennadi Procopciuc valid_source = true; 114212e7a2cdSGhennadi Procopciuc break; 114312e7a2cdSGhennadi Procopciuc } 114412e7a2cdSGhennadi Procopciuc } 114512e7a2cdSGhennadi Procopciuc 114612e7a2cdSGhennadi Procopciuc if (!valid_source) { 114712e7a2cdSGhennadi Procopciuc ERROR("Clock %lu is not a valid clock for mux %lu\n", 114812e7a2cdSGhennadi Procopciuc parent_id, id); 114912e7a2cdSGhennadi Procopciuc return -EINVAL; 115012e7a2cdSGhennadi Procopciuc } 115112e7a2cdSGhennadi Procopciuc 115212e7a2cdSGhennadi Procopciuc mux->source_id = parent_id; 115312e7a2cdSGhennadi Procopciuc 115412e7a2cdSGhennadi Procopciuc return 0; 11553a580e9eSGhennadi Procopciuc } 11563a580e9eSGhennadi Procopciuc 11573a580e9eSGhennadi Procopciuc void s32cc_clk_register_drv(void) 11583a580e9eSGhennadi Procopciuc { 11593a580e9eSGhennadi Procopciuc static const struct clk_ops s32cc_clk_ops = { 11603a580e9eSGhennadi Procopciuc .enable = s32cc_clk_enable, 11613a580e9eSGhennadi Procopciuc .disable = s32cc_clk_disable, 11623a580e9eSGhennadi Procopciuc .is_enabled = s32cc_clk_is_enabled, 11633a580e9eSGhennadi Procopciuc .get_rate = s32cc_clk_get_rate, 11643a580e9eSGhennadi Procopciuc .set_rate = s32cc_clk_set_rate, 11653a580e9eSGhennadi Procopciuc .get_parent = s32cc_clk_get_parent, 11663a580e9eSGhennadi Procopciuc .set_parent = s32cc_clk_set_parent, 11673a580e9eSGhennadi Procopciuc }; 11683a580e9eSGhennadi Procopciuc 11693a580e9eSGhennadi Procopciuc clk_register(&s32cc_clk_ops); 11703a580e9eSGhennadi Procopciuc } 11713a580e9eSGhennadi Procopciuc 1172