13a580e9eSGhennadi Procopciuc /* 2bd691136SGhennadi Procopciuc * Copyright 2024-2025 NXP 33a580e9eSGhennadi Procopciuc * 43a580e9eSGhennadi Procopciuc * SPDX-License-Identifier: BSD-3-Clause 53a580e9eSGhennadi Procopciuc */ 63a580e9eSGhennadi Procopciuc #include <errno.h> 7d9373519SGhennadi Procopciuc #include <common/debug.h> 83a580e9eSGhennadi Procopciuc #include <drivers/clk.h> 98ab34357SGhennadi Procopciuc #include <lib/mmio.h> 10514c7380SGhennadi Procopciuc #include <lib/xlat_tables/xlat_tables_v2.h> 11b5101c45SGhennadi Procopciuc #include <s32cc-clk-ids.h> 12d9373519SGhennadi Procopciuc #include <s32cc-clk-modules.h> 138a4f840bSGhennadi Procopciuc #include <s32cc-clk-regs.h> 14d9373519SGhennadi Procopciuc #include <s32cc-clk-utils.h> 158a4f840bSGhennadi Procopciuc #include <s32cc-mc-me.h> 16d9373519SGhennadi Procopciuc 175300040bSGhennadi Procopciuc #define MAX_STACK_DEPTH (40U) 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; 258653352aSGhennadi Procopciuc uintptr_t periphpll_base; 264cd04c50SGhennadi Procopciuc uintptr_t armdfs_base; 2729f8a952SGhennadi Procopciuc uintptr_t periphdfs_base; 289dbca85dSGhennadi Procopciuc uintptr_t cgm0_base; 297004f678SGhennadi Procopciuc uintptr_t cgm1_base; 308a4f840bSGhennadi Procopciuc uintptr_t cgm5_base; 3118c2b137SGhennadi Procopciuc uintptr_t ddrpll_base; 328a4f840bSGhennadi Procopciuc uintptr_t mc_me; 338a4f840bSGhennadi Procopciuc uintptr_t mc_rgm; 348a4f840bSGhennadi Procopciuc uintptr_t rdc; 358ab34357SGhennadi Procopciuc }; 368ab34357SGhennadi Procopciuc 372fb25509SGhennadi Procopciuc static int set_module_rate(const struct s32cc_clk_obj *module, 382fb25509SGhennadi Procopciuc unsigned long rate, unsigned long *orate, 392fb25509SGhennadi Procopciuc unsigned int *depth); 402fb25509SGhennadi Procopciuc static int get_module_rate(const struct s32cc_clk_obj *module, 412fb25509SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 422fb25509SGhennadi Procopciuc unsigned long *rate, 432fb25509SGhennadi Procopciuc unsigned int depth); 442fb25509SGhennadi Procopciuc 45d9373519SGhennadi Procopciuc static int update_stack_depth(unsigned int *depth) 46d9373519SGhennadi Procopciuc { 47d9373519SGhennadi Procopciuc if (*depth == 0U) { 48d9373519SGhennadi Procopciuc return -ENOMEM; 49d9373519SGhennadi Procopciuc } 50d9373519SGhennadi Procopciuc 51d9373519SGhennadi Procopciuc (*depth)--; 52d9373519SGhennadi Procopciuc return 0; 53d9373519SGhennadi Procopciuc } 543a580e9eSGhennadi Procopciuc 558ab34357SGhennadi Procopciuc static struct s32cc_clk_drv *get_drv(void) 568ab34357SGhennadi Procopciuc { 578ab34357SGhennadi Procopciuc static struct s32cc_clk_drv driver = { 588ab34357SGhennadi Procopciuc .fxosc_base = FXOSC_BASE_ADDR, 59b5101c45SGhennadi Procopciuc .armpll_base = ARMPLL_BASE_ADDR, 608653352aSGhennadi Procopciuc .periphpll_base = PERIPHPLL_BASE_ADDR, 614cd04c50SGhennadi Procopciuc .armdfs_base = ARM_DFS_BASE_ADDR, 6229f8a952SGhennadi Procopciuc .periphdfs_base = PERIPH_DFS_BASE_ADDR, 639dbca85dSGhennadi Procopciuc .cgm0_base = CGM0_BASE_ADDR, 647004f678SGhennadi Procopciuc .cgm1_base = CGM1_BASE_ADDR, 658a4f840bSGhennadi Procopciuc .cgm5_base = MC_CGM5_BASE_ADDR, 6618c2b137SGhennadi Procopciuc .ddrpll_base = DDRPLL_BASE_ADDR, 678a4f840bSGhennadi Procopciuc .mc_me = MC_ME_BASE_ADDR, 688a4f840bSGhennadi Procopciuc .mc_rgm = MC_RGM_BASE_ADDR, 698a4f840bSGhennadi Procopciuc .rdc = RDC_BASE_ADDR, 708ab34357SGhennadi Procopciuc }; 718ab34357SGhennadi Procopciuc 728ab34357SGhennadi Procopciuc return &driver; 738ab34357SGhennadi Procopciuc } 748ab34357SGhennadi Procopciuc 755300040bSGhennadi Procopciuc static int enable_module(struct s32cc_clk_obj *module, 765300040bSGhennadi Procopciuc const struct s32cc_clk_drv *drv, 775300040bSGhennadi Procopciuc unsigned int depth); 788ab34357SGhennadi Procopciuc 7996e069cbSGhennadi Procopciuc static struct s32cc_clk_obj *get_clk_parent(const struct s32cc_clk_obj *module) 8096e069cbSGhennadi Procopciuc { 8196e069cbSGhennadi Procopciuc const struct s32cc_clk *clk = s32cc_obj2clk(module); 8296e069cbSGhennadi Procopciuc 8396e069cbSGhennadi Procopciuc if (clk->module != NULL) { 8496e069cbSGhennadi Procopciuc return clk->module; 8596e069cbSGhennadi Procopciuc } 8696e069cbSGhennadi Procopciuc 8796e069cbSGhennadi Procopciuc if (clk->pclock != NULL) { 8896e069cbSGhennadi Procopciuc return &clk->pclock->desc; 8996e069cbSGhennadi Procopciuc } 9096e069cbSGhennadi Procopciuc 9196e069cbSGhennadi Procopciuc return NULL; 9296e069cbSGhennadi Procopciuc } 9396e069cbSGhennadi Procopciuc 94b5101c45SGhennadi Procopciuc static int get_base_addr(enum s32cc_clk_source id, const struct s32cc_clk_drv *drv, 95b5101c45SGhennadi Procopciuc uintptr_t *base) 96b5101c45SGhennadi Procopciuc { 97b5101c45SGhennadi Procopciuc int ret = 0; 98b5101c45SGhennadi Procopciuc 99b5101c45SGhennadi Procopciuc switch (id) { 100b5101c45SGhennadi Procopciuc case S32CC_FXOSC: 101b5101c45SGhennadi Procopciuc *base = drv->fxosc_base; 102b5101c45SGhennadi Procopciuc break; 103b5101c45SGhennadi Procopciuc case S32CC_ARM_PLL: 104b5101c45SGhennadi Procopciuc *base = drv->armpll_base; 105b5101c45SGhennadi Procopciuc break; 1068653352aSGhennadi Procopciuc case S32CC_PERIPH_PLL: 1078653352aSGhennadi Procopciuc *base = drv->periphpll_base; 1088653352aSGhennadi Procopciuc break; 10918c2b137SGhennadi Procopciuc case S32CC_DDR_PLL: 11018c2b137SGhennadi Procopciuc *base = drv->ddrpll_base; 11118c2b137SGhennadi Procopciuc break; 1124cd04c50SGhennadi Procopciuc case S32CC_ARM_DFS: 1134cd04c50SGhennadi Procopciuc *base = drv->armdfs_base; 1144cd04c50SGhennadi Procopciuc break; 11529f8a952SGhennadi Procopciuc case S32CC_PERIPH_DFS: 11629f8a952SGhennadi Procopciuc *base = drv->periphdfs_base; 11729f8a952SGhennadi Procopciuc break; 1189dbca85dSGhennadi Procopciuc case S32CC_CGM0: 1199dbca85dSGhennadi Procopciuc *base = drv->cgm0_base; 1209dbca85dSGhennadi Procopciuc break; 121b5101c45SGhennadi Procopciuc case S32CC_CGM1: 1227004f678SGhennadi Procopciuc *base = drv->cgm1_base; 123b5101c45SGhennadi Procopciuc break; 1248a4f840bSGhennadi Procopciuc case S32CC_CGM5: 1258a4f840bSGhennadi Procopciuc *base = drv->cgm5_base; 1268a4f840bSGhennadi Procopciuc break; 127b5101c45SGhennadi Procopciuc case S32CC_FIRC: 128b5101c45SGhennadi Procopciuc break; 129b5101c45SGhennadi Procopciuc case S32CC_SIRC: 130b5101c45SGhennadi Procopciuc break; 131b5101c45SGhennadi Procopciuc default: 132b5101c45SGhennadi Procopciuc ret = -EINVAL; 133b5101c45SGhennadi Procopciuc break; 134b5101c45SGhennadi Procopciuc } 135b5101c45SGhennadi Procopciuc 136b5101c45SGhennadi Procopciuc if (ret != 0) { 137b5101c45SGhennadi Procopciuc ERROR("Unknown clock source id: %u\n", id); 138b5101c45SGhennadi Procopciuc } 139b5101c45SGhennadi Procopciuc 140b5101c45SGhennadi Procopciuc return ret; 141b5101c45SGhennadi Procopciuc } 142b5101c45SGhennadi Procopciuc 1438ab34357SGhennadi Procopciuc static void enable_fxosc(const struct s32cc_clk_drv *drv) 1448ab34357SGhennadi Procopciuc { 1458ab34357SGhennadi Procopciuc uintptr_t fxosc_base = drv->fxosc_base; 1468ab34357SGhennadi Procopciuc uint32_t ctrl; 1478ab34357SGhennadi Procopciuc 1488ab34357SGhennadi Procopciuc ctrl = mmio_read_32(FXOSC_CTRL(fxosc_base)); 1498ab34357SGhennadi Procopciuc if ((ctrl & FXOSC_CTRL_OSCON) != U(0)) { 1508ab34357SGhennadi Procopciuc return; 1518ab34357SGhennadi Procopciuc } 1528ab34357SGhennadi Procopciuc 1538ab34357SGhennadi Procopciuc ctrl = FXOSC_CTRL_COMP_EN; 1548ab34357SGhennadi Procopciuc ctrl &= ~FXOSC_CTRL_OSC_BYP; 1558ab34357SGhennadi Procopciuc ctrl |= FXOSC_CTRL_EOCV(0x1); 1568ab34357SGhennadi Procopciuc ctrl |= FXOSC_CTRL_GM_SEL(0x7); 1578ab34357SGhennadi Procopciuc mmio_write_32(FXOSC_CTRL(fxosc_base), ctrl); 1588ab34357SGhennadi Procopciuc 1598ab34357SGhennadi Procopciuc /* Switch ON the crystal oscillator. */ 1608ab34357SGhennadi Procopciuc mmio_setbits_32(FXOSC_CTRL(fxosc_base), FXOSC_CTRL_OSCON); 1618ab34357SGhennadi Procopciuc 1628ab34357SGhennadi Procopciuc /* Wait until the clock is stable. */ 1638ab34357SGhennadi Procopciuc while ((mmio_read_32(FXOSC_STAT(fxosc_base)) & FXOSC_STAT_OSC_STAT) == U(0)) { 1648ab34357SGhennadi Procopciuc } 1658ab34357SGhennadi Procopciuc } 1668ab34357SGhennadi Procopciuc 1675300040bSGhennadi Procopciuc static int enable_osc(struct s32cc_clk_obj *module, 1688ab34357SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 1695300040bSGhennadi Procopciuc unsigned int depth) 1708ab34357SGhennadi Procopciuc { 1718ab34357SGhennadi Procopciuc const struct s32cc_osc *osc = s32cc_obj2osc(module); 1728ee0fc31SGhennadi Procopciuc unsigned int ldepth = depth; 1738ab34357SGhennadi Procopciuc int ret = 0; 1748ab34357SGhennadi Procopciuc 1758ee0fc31SGhennadi Procopciuc ret = update_stack_depth(&ldepth); 1768ab34357SGhennadi Procopciuc if (ret != 0) { 1778ab34357SGhennadi Procopciuc return ret; 1788ab34357SGhennadi Procopciuc } 1798ab34357SGhennadi Procopciuc 1808ab34357SGhennadi Procopciuc switch (osc->source) { 1818ab34357SGhennadi Procopciuc case S32CC_FXOSC: 1828ab34357SGhennadi Procopciuc enable_fxosc(drv); 1838ab34357SGhennadi Procopciuc break; 1848ab34357SGhennadi Procopciuc /* FIRC and SIRC oscillators are enabled by default */ 1858ab34357SGhennadi Procopciuc case S32CC_FIRC: 1868ab34357SGhennadi Procopciuc break; 1878ab34357SGhennadi Procopciuc case S32CC_SIRC: 1888ab34357SGhennadi Procopciuc break; 1898ab34357SGhennadi Procopciuc default: 1908ab34357SGhennadi Procopciuc ERROR("Invalid oscillator %d\n", osc->source); 1918ab34357SGhennadi Procopciuc ret = -EINVAL; 1928ab34357SGhennadi Procopciuc break; 1938ab34357SGhennadi Procopciuc }; 1948ab34357SGhennadi Procopciuc 1958ab34357SGhennadi Procopciuc return ret; 1968ab34357SGhennadi Procopciuc } 1978ab34357SGhennadi Procopciuc 19896e069cbSGhennadi Procopciuc static struct s32cc_clk_obj *get_pll_parent(const struct s32cc_clk_obj *module) 19996e069cbSGhennadi Procopciuc { 20096e069cbSGhennadi Procopciuc const struct s32cc_pll *pll = s32cc_obj2pll(module); 20196e069cbSGhennadi Procopciuc 20296e069cbSGhennadi Procopciuc if (pll->source == NULL) { 20396e069cbSGhennadi Procopciuc ERROR("Failed to identify PLL's parent\n"); 20496e069cbSGhennadi Procopciuc } 20596e069cbSGhennadi Procopciuc 20696e069cbSGhennadi Procopciuc return pll->source; 20796e069cbSGhennadi Procopciuc } 20896e069cbSGhennadi Procopciuc 209b5101c45SGhennadi Procopciuc static int get_pll_mfi_mfn(unsigned long pll_vco, unsigned long ref_freq, 210b5101c45SGhennadi Procopciuc uint32_t *mfi, uint32_t *mfn) 211b5101c45SGhennadi Procopciuc 212b5101c45SGhennadi Procopciuc { 213b5101c45SGhennadi Procopciuc unsigned long vco; 214b5101c45SGhennadi Procopciuc unsigned long mfn64; 215b5101c45SGhennadi Procopciuc 216b5101c45SGhennadi Procopciuc /* FRAC-N mode */ 217b5101c45SGhennadi Procopciuc *mfi = (uint32_t)(pll_vco / ref_freq); 218b5101c45SGhennadi Procopciuc 219b5101c45SGhennadi Procopciuc /* MFN formula : (double)(pll_vco % ref_freq) / ref_freq * 18432.0 */ 220b5101c45SGhennadi Procopciuc mfn64 = pll_vco % ref_freq; 221b5101c45SGhennadi Procopciuc mfn64 *= FP_PRECISION; 222b5101c45SGhennadi Procopciuc mfn64 /= ref_freq; 223b5101c45SGhennadi Procopciuc mfn64 *= 18432UL; 224b5101c45SGhennadi Procopciuc mfn64 /= FP_PRECISION; 225b5101c45SGhennadi Procopciuc 226b5101c45SGhennadi Procopciuc if (mfn64 > UINT32_MAX) { 227b5101c45SGhennadi Procopciuc return -EINVAL; 228b5101c45SGhennadi Procopciuc } 229b5101c45SGhennadi Procopciuc 230b5101c45SGhennadi Procopciuc *mfn = (uint32_t)mfn64; 231b5101c45SGhennadi Procopciuc 232b5101c45SGhennadi Procopciuc vco = ((unsigned long)*mfn * FP_PRECISION) / 18432UL; 233b5101c45SGhennadi Procopciuc vco += (unsigned long)*mfi * FP_PRECISION; 234b5101c45SGhennadi Procopciuc vco *= ref_freq; 235b5101c45SGhennadi Procopciuc vco /= FP_PRECISION; 236b5101c45SGhennadi Procopciuc 237b5101c45SGhennadi Procopciuc if (vco != pll_vco) { 238b5101c45SGhennadi Procopciuc ERROR("Failed to find MFI and MFN settings for PLL freq %lu. Nearest freq = %lu\n", 239b5101c45SGhennadi Procopciuc pll_vco, vco); 240b5101c45SGhennadi Procopciuc return -EINVAL; 241b5101c45SGhennadi Procopciuc } 242b5101c45SGhennadi Procopciuc 243b5101c45SGhennadi Procopciuc return 0; 244b5101c45SGhennadi Procopciuc } 245b5101c45SGhennadi Procopciuc 246b5101c45SGhennadi Procopciuc static struct s32cc_clkmux *get_pll_mux(const struct s32cc_pll *pll) 247b5101c45SGhennadi Procopciuc { 248b5101c45SGhennadi Procopciuc const struct s32cc_clk_obj *source = pll->source; 249b5101c45SGhennadi Procopciuc const struct s32cc_clk *clk; 250b5101c45SGhennadi Procopciuc 251b5101c45SGhennadi Procopciuc if (source == NULL) { 252b5101c45SGhennadi Procopciuc ERROR("Failed to identify PLL's parent\n"); 253b5101c45SGhennadi Procopciuc return NULL; 254b5101c45SGhennadi Procopciuc } 255b5101c45SGhennadi Procopciuc 256b5101c45SGhennadi Procopciuc if (source->type != s32cc_clk_t) { 257b5101c45SGhennadi Procopciuc ERROR("The parent of the PLL isn't a clock\n"); 258b5101c45SGhennadi Procopciuc return NULL; 259b5101c45SGhennadi Procopciuc } 260b5101c45SGhennadi Procopciuc 261b5101c45SGhennadi Procopciuc clk = s32cc_obj2clk(source); 262b5101c45SGhennadi Procopciuc 263b5101c45SGhennadi Procopciuc if (clk->module == NULL) { 264b5101c45SGhennadi Procopciuc ERROR("The clock isn't connected to a module\n"); 265b5101c45SGhennadi Procopciuc return NULL; 266b5101c45SGhennadi Procopciuc } 267b5101c45SGhennadi Procopciuc 268b5101c45SGhennadi Procopciuc source = clk->module; 269b5101c45SGhennadi Procopciuc 270b5101c45SGhennadi Procopciuc if ((source->type != s32cc_clkmux_t) && 271b5101c45SGhennadi Procopciuc (source->type != s32cc_shared_clkmux_t)) { 272b5101c45SGhennadi Procopciuc ERROR("The parent of the PLL isn't a MUX\n"); 273b5101c45SGhennadi Procopciuc return NULL; 274b5101c45SGhennadi Procopciuc } 275b5101c45SGhennadi Procopciuc 276b5101c45SGhennadi Procopciuc return s32cc_obj2clkmux(source); 277b5101c45SGhennadi Procopciuc } 278b5101c45SGhennadi Procopciuc 279b5101c45SGhennadi Procopciuc static void disable_odiv(uintptr_t pll_addr, uint32_t div_index) 280b5101c45SGhennadi Procopciuc { 281b5101c45SGhennadi Procopciuc mmio_clrbits_32(PLLDIG_PLLODIV(pll_addr, div_index), PLLDIG_PLLODIV_DE); 282b5101c45SGhennadi Procopciuc } 283b5101c45SGhennadi Procopciuc 28484e82085SGhennadi Procopciuc static void enable_odiv(uintptr_t pll_addr, uint32_t div_index) 28584e82085SGhennadi Procopciuc { 28684e82085SGhennadi Procopciuc mmio_setbits_32(PLLDIG_PLLODIV(pll_addr, div_index), PLLDIG_PLLODIV_DE); 28784e82085SGhennadi Procopciuc } 28884e82085SGhennadi Procopciuc 289c23dde6cSGhennadi Procopciuc static void enable_odivs(uintptr_t pll_addr, uint32_t ndivs, uint32_t mask) 290c23dde6cSGhennadi Procopciuc { 291c23dde6cSGhennadi Procopciuc uint32_t i; 292c23dde6cSGhennadi Procopciuc 293c23dde6cSGhennadi Procopciuc for (i = 0; i < ndivs; i++) { 294c23dde6cSGhennadi Procopciuc if ((mask & BIT_32(i)) != 0U) { 295c23dde6cSGhennadi Procopciuc enable_odiv(pll_addr, i); 296c23dde6cSGhennadi Procopciuc } 297c23dde6cSGhennadi Procopciuc } 298c23dde6cSGhennadi Procopciuc } 299c23dde6cSGhennadi Procopciuc 300c23dde6cSGhennadi Procopciuc static int adjust_odiv_settings(const struct s32cc_pll *pll, uintptr_t pll_addr, 301c23dde6cSGhennadi Procopciuc uint32_t odivs_mask, unsigned long old_vco) 302c23dde6cSGhennadi Procopciuc { 303c23dde6cSGhennadi Procopciuc uint64_t old_odiv_freq, odiv_freq; 304c23dde6cSGhennadi Procopciuc uint32_t i, pllodiv, pdiv; 305c23dde6cSGhennadi Procopciuc int ret = 0; 306c23dde6cSGhennadi Procopciuc 307c23dde6cSGhennadi Procopciuc if (old_vco == 0UL) { 308c23dde6cSGhennadi Procopciuc return 0; 309c23dde6cSGhennadi Procopciuc } 310c23dde6cSGhennadi Procopciuc 311c23dde6cSGhennadi Procopciuc for (i = 0; i < pll->ndividers; i++) { 312c23dde6cSGhennadi Procopciuc if ((odivs_mask & BIT_32(i)) == 0U) { 313c23dde6cSGhennadi Procopciuc continue; 314c23dde6cSGhennadi Procopciuc } 315c23dde6cSGhennadi Procopciuc 316c23dde6cSGhennadi Procopciuc pllodiv = mmio_read_32(PLLDIG_PLLODIV(pll_addr, i)); 317c23dde6cSGhennadi Procopciuc 318c23dde6cSGhennadi Procopciuc pdiv = PLLDIG_PLLODIV_DIV(pllodiv); 319c23dde6cSGhennadi Procopciuc 320c23dde6cSGhennadi Procopciuc old_odiv_freq = ((old_vco * FP_PRECISION) / (pdiv + 1U)) / FP_PRECISION; 321c23dde6cSGhennadi Procopciuc pdiv = (uint32_t)(pll->vco_freq * FP_PRECISION / old_odiv_freq / FP_PRECISION); 322c23dde6cSGhennadi Procopciuc 323c23dde6cSGhennadi Procopciuc odiv_freq = pll->vco_freq * FP_PRECISION / pdiv / FP_PRECISION; 324c23dde6cSGhennadi Procopciuc 325c23dde6cSGhennadi Procopciuc if (old_odiv_freq != odiv_freq) { 326c23dde6cSGhennadi Procopciuc ERROR("Failed to adjust ODIV %" PRIu32 " to match previous frequency\n", 327c23dde6cSGhennadi Procopciuc i); 328c23dde6cSGhennadi Procopciuc } 329c23dde6cSGhennadi Procopciuc 330c23dde6cSGhennadi Procopciuc pllodiv = PLLDIG_PLLODIV_DIV_SET(pdiv - 1U); 331c23dde6cSGhennadi Procopciuc mmio_write_32(PLLDIG_PLLODIV(pll_addr, i), pllodiv); 332c23dde6cSGhennadi Procopciuc } 333c23dde6cSGhennadi Procopciuc 334c23dde6cSGhennadi Procopciuc return ret; 335c23dde6cSGhennadi Procopciuc } 336c23dde6cSGhennadi Procopciuc 337c23dde6cSGhennadi Procopciuc static uint32_t get_enabled_odivs(uintptr_t pll_addr, uint32_t ndivs) 338c23dde6cSGhennadi Procopciuc { 339c23dde6cSGhennadi Procopciuc uint32_t mask = 0; 340c23dde6cSGhennadi Procopciuc uint32_t pllodiv; 341c23dde6cSGhennadi Procopciuc uint32_t i; 342c23dde6cSGhennadi Procopciuc 343c23dde6cSGhennadi Procopciuc for (i = 0; i < ndivs; i++) { 344c23dde6cSGhennadi Procopciuc pllodiv = mmio_read_32(PLLDIG_PLLODIV(pll_addr, i)); 345c23dde6cSGhennadi Procopciuc if ((pllodiv & PLLDIG_PLLODIV_DE) != 0U) { 346c23dde6cSGhennadi Procopciuc mask |= BIT_32(i); 347c23dde6cSGhennadi Procopciuc } 348c23dde6cSGhennadi Procopciuc } 349c23dde6cSGhennadi Procopciuc 350c23dde6cSGhennadi Procopciuc return mask; 351c23dde6cSGhennadi Procopciuc } 352c23dde6cSGhennadi Procopciuc 353b5101c45SGhennadi Procopciuc static void disable_odivs(uintptr_t pll_addr, uint32_t ndivs) 354b5101c45SGhennadi Procopciuc { 355b5101c45SGhennadi Procopciuc uint32_t i; 356b5101c45SGhennadi Procopciuc 357b5101c45SGhennadi Procopciuc for (i = 0; i < ndivs; i++) { 358b5101c45SGhennadi Procopciuc disable_odiv(pll_addr, i); 359b5101c45SGhennadi Procopciuc } 360b5101c45SGhennadi Procopciuc } 361b5101c45SGhennadi Procopciuc 362b5101c45SGhennadi Procopciuc static void enable_pll_hw(uintptr_t pll_addr) 363b5101c45SGhennadi Procopciuc { 364b5101c45SGhennadi Procopciuc /* Enable the PLL. */ 365b5101c45SGhennadi Procopciuc mmio_write_32(PLLDIG_PLLCR(pll_addr), 0x0); 366b5101c45SGhennadi Procopciuc 367b5101c45SGhennadi Procopciuc /* Poll until PLL acquires lock. */ 368b5101c45SGhennadi Procopciuc while ((mmio_read_32(PLLDIG_PLLSR(pll_addr)) & PLLDIG_PLLSR_LOCK) == 0U) { 369b5101c45SGhennadi Procopciuc } 370b5101c45SGhennadi Procopciuc } 371b5101c45SGhennadi Procopciuc 372b5101c45SGhennadi Procopciuc static void disable_pll_hw(uintptr_t pll_addr) 373b5101c45SGhennadi Procopciuc { 374b5101c45SGhennadi Procopciuc mmio_write_32(PLLDIG_PLLCR(pll_addr), PLLDIG_PLLCR_PLLPD); 375b5101c45SGhennadi Procopciuc } 376b5101c45SGhennadi Procopciuc 377c23dde6cSGhennadi Procopciuc static bool is_pll_enabled(uintptr_t pll_base) 378c23dde6cSGhennadi Procopciuc { 379c23dde6cSGhennadi Procopciuc uint32_t pllcr, pllsr; 380c23dde6cSGhennadi Procopciuc 381c23dde6cSGhennadi Procopciuc pllcr = mmio_read_32(PLLDIG_PLLCR(pll_base)); 382c23dde6cSGhennadi Procopciuc pllsr = mmio_read_32(PLLDIG_PLLSR(pll_base)); 383c23dde6cSGhennadi Procopciuc 384c23dde6cSGhennadi Procopciuc /* Enabled and locked PLL */ 385c23dde6cSGhennadi Procopciuc if ((pllcr & PLLDIG_PLLCR_PLLPD) != 0U) { 386c23dde6cSGhennadi Procopciuc return false; 387c23dde6cSGhennadi Procopciuc } 388c23dde6cSGhennadi Procopciuc 389c23dde6cSGhennadi Procopciuc if ((pllsr & PLLDIG_PLLSR_LOCK) == 0U) { 390c23dde6cSGhennadi Procopciuc return false; 391c23dde6cSGhennadi Procopciuc } 392c23dde6cSGhennadi Procopciuc 393c23dde6cSGhennadi Procopciuc return true; 394c23dde6cSGhennadi Procopciuc } 395c23dde6cSGhennadi Procopciuc 396b5101c45SGhennadi Procopciuc static int program_pll(const struct s32cc_pll *pll, uintptr_t pll_addr, 397b5101c45SGhennadi Procopciuc const struct s32cc_clk_drv *drv, uint32_t sclk_id, 398c23dde6cSGhennadi Procopciuc unsigned long sclk_freq, unsigned int depth) 399b5101c45SGhennadi Procopciuc { 400b5101c45SGhennadi Procopciuc uint32_t rdiv = 1, mfi, mfn; 401c23dde6cSGhennadi Procopciuc unsigned long old_vco = 0UL; 402c23dde6cSGhennadi Procopciuc unsigned int ldepth = depth; 403c23dde6cSGhennadi Procopciuc uint32_t odivs_mask; 404b5101c45SGhennadi Procopciuc int ret; 405b5101c45SGhennadi Procopciuc 406c23dde6cSGhennadi Procopciuc ret = update_stack_depth(&ldepth); 407c23dde6cSGhennadi Procopciuc if (ret != 0) { 408c23dde6cSGhennadi Procopciuc return ret; 409c23dde6cSGhennadi Procopciuc } 410c23dde6cSGhennadi Procopciuc 411b5101c45SGhennadi Procopciuc ret = get_pll_mfi_mfn(pll->vco_freq, sclk_freq, &mfi, &mfn); 412b5101c45SGhennadi Procopciuc if (ret != 0) { 413b5101c45SGhennadi Procopciuc return -EINVAL; 414b5101c45SGhennadi Procopciuc } 415b5101c45SGhennadi Procopciuc 416c23dde6cSGhennadi Procopciuc odivs_mask = get_enabled_odivs(pll_addr, pll->ndividers); 417c23dde6cSGhennadi Procopciuc 418c23dde6cSGhennadi Procopciuc if (is_pll_enabled(pll_addr)) { 419c23dde6cSGhennadi Procopciuc ret = get_module_rate(&pll->desc, drv, &old_vco, ldepth); 420c23dde6cSGhennadi Procopciuc if (ret != 0) { 421c23dde6cSGhennadi Procopciuc return ret; 422c23dde6cSGhennadi Procopciuc } 423c23dde6cSGhennadi Procopciuc } 424c23dde6cSGhennadi Procopciuc 425b5101c45SGhennadi Procopciuc /* Disable ODIVs*/ 426b5101c45SGhennadi Procopciuc disable_odivs(pll_addr, pll->ndividers); 427b5101c45SGhennadi Procopciuc 428b5101c45SGhennadi Procopciuc /* Disable PLL */ 429b5101c45SGhennadi Procopciuc disable_pll_hw(pll_addr); 430b5101c45SGhennadi Procopciuc 431b5101c45SGhennadi Procopciuc /* Program PLLCLKMUX */ 432b5101c45SGhennadi Procopciuc mmio_write_32(PLLDIG_PLLCLKMUX(pll_addr), sclk_id); 433b5101c45SGhennadi Procopciuc 434b5101c45SGhennadi Procopciuc /* Program VCO */ 435b5101c45SGhennadi Procopciuc mmio_clrsetbits_32(PLLDIG_PLLDV(pll_addr), 436b5101c45SGhennadi Procopciuc PLLDIG_PLLDV_RDIV_MASK | PLLDIG_PLLDV_MFI_MASK, 437b5101c45SGhennadi Procopciuc PLLDIG_PLLDV_RDIV_SET(rdiv) | PLLDIG_PLLDV_MFI(mfi)); 438b5101c45SGhennadi Procopciuc 439b5101c45SGhennadi Procopciuc mmio_write_32(PLLDIG_PLLFD(pll_addr), 440b5101c45SGhennadi Procopciuc PLLDIG_PLLFD_MFN_SET(mfn) | PLLDIG_PLLFD_SMDEN); 441b5101c45SGhennadi Procopciuc 442c23dde6cSGhennadi Procopciuc ret = adjust_odiv_settings(pll, pll_addr, odivs_mask, old_vco); 443c23dde6cSGhennadi Procopciuc if (ret != 0) { 444c23dde6cSGhennadi Procopciuc return ret; 445c23dde6cSGhennadi Procopciuc } 446c23dde6cSGhennadi Procopciuc 447b5101c45SGhennadi Procopciuc enable_pll_hw(pll_addr); 448b5101c45SGhennadi Procopciuc 449c23dde6cSGhennadi Procopciuc /* Enable out dividers */ 450c23dde6cSGhennadi Procopciuc enable_odivs(pll_addr, pll->ndividers, odivs_mask); 451c23dde6cSGhennadi Procopciuc 452b5101c45SGhennadi Procopciuc return ret; 453b5101c45SGhennadi Procopciuc } 454b5101c45SGhennadi Procopciuc 4555300040bSGhennadi Procopciuc static int enable_pll(struct s32cc_clk_obj *module, 456b5101c45SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 4575300040bSGhennadi Procopciuc unsigned int depth) 458b5101c45SGhennadi Procopciuc { 459b5101c45SGhennadi Procopciuc const struct s32cc_pll *pll = s32cc_obj2pll(module); 460c23dde6cSGhennadi Procopciuc unsigned int clk_src, ldepth = depth; 461c23dde6cSGhennadi Procopciuc unsigned long sclk_freq, pll_vco; 462b5101c45SGhennadi Procopciuc const struct s32cc_clkmux *mux; 463b5101c45SGhennadi Procopciuc uintptr_t pll_addr = UL(0x0); 464c23dde6cSGhennadi Procopciuc bool pll_enabled; 465b5101c45SGhennadi Procopciuc uint32_t sclk_id; 466b5101c45SGhennadi Procopciuc int ret; 467b5101c45SGhennadi Procopciuc 4688ee0fc31SGhennadi Procopciuc ret = update_stack_depth(&ldepth); 469b5101c45SGhennadi Procopciuc if (ret != 0) { 470b5101c45SGhennadi Procopciuc return ret; 471b5101c45SGhennadi Procopciuc } 472b5101c45SGhennadi Procopciuc 473b5101c45SGhennadi Procopciuc mux = get_pll_mux(pll); 474b5101c45SGhennadi Procopciuc if (mux == NULL) { 475b5101c45SGhennadi Procopciuc return -EINVAL; 476b5101c45SGhennadi Procopciuc } 477b5101c45SGhennadi Procopciuc 478b5101c45SGhennadi Procopciuc if (pll->instance != mux->module) { 479b5101c45SGhennadi Procopciuc ERROR("MUX type is not in sync with PLL ID\n"); 480b5101c45SGhennadi Procopciuc return -EINVAL; 481b5101c45SGhennadi Procopciuc } 482b5101c45SGhennadi Procopciuc 483b5101c45SGhennadi Procopciuc ret = get_base_addr(pll->instance, drv, &pll_addr); 484b5101c45SGhennadi Procopciuc if (ret != 0) { 485b5101c45SGhennadi Procopciuc ERROR("Failed to detect PLL instance\n"); 486b5101c45SGhennadi Procopciuc return ret; 487b5101c45SGhennadi Procopciuc } 488b5101c45SGhennadi Procopciuc 489b5101c45SGhennadi Procopciuc switch (mux->source_id) { 490b5101c45SGhennadi Procopciuc case S32CC_CLK_FIRC: 491b5101c45SGhennadi Procopciuc sclk_freq = 48U * MHZ; 492b5101c45SGhennadi Procopciuc sclk_id = 0; 493b5101c45SGhennadi Procopciuc break; 494b5101c45SGhennadi Procopciuc case S32CC_CLK_FXOSC: 495b5101c45SGhennadi Procopciuc sclk_freq = 40U * MHZ; 496b5101c45SGhennadi Procopciuc sclk_id = 1; 497b5101c45SGhennadi Procopciuc break; 498b5101c45SGhennadi Procopciuc default: 499b5101c45SGhennadi Procopciuc ERROR("Invalid source selection for PLL 0x%lx\n", 500b5101c45SGhennadi Procopciuc pll_addr); 501b5101c45SGhennadi Procopciuc return -EINVAL; 502b5101c45SGhennadi Procopciuc }; 503b5101c45SGhennadi Procopciuc 504c23dde6cSGhennadi Procopciuc ret = get_module_rate(&pll->desc, drv, &pll_vco, depth); 505c23dde6cSGhennadi Procopciuc if (ret != 0) { 506c23dde6cSGhennadi Procopciuc return ret; 507c23dde6cSGhennadi Procopciuc } 508c23dde6cSGhennadi Procopciuc 509c23dde6cSGhennadi Procopciuc pll_enabled = is_pll_enabled(pll_addr); 510c23dde6cSGhennadi Procopciuc clk_src = mmio_read_32(PLLDIG_PLLCLKMUX(pll_addr)); 511c23dde6cSGhennadi Procopciuc 512c23dde6cSGhennadi Procopciuc if ((clk_src == sclk_id) && pll_enabled && 513c23dde6cSGhennadi Procopciuc (pll_vco == pll->vco_freq)) { 514c23dde6cSGhennadi Procopciuc return 0; 515c23dde6cSGhennadi Procopciuc } 516c23dde6cSGhennadi Procopciuc 517c23dde6cSGhennadi Procopciuc return program_pll(pll, pll_addr, drv, sclk_id, sclk_freq, ldepth); 518b5101c45SGhennadi Procopciuc } 519b5101c45SGhennadi Procopciuc 52084e82085SGhennadi Procopciuc static inline struct s32cc_pll *get_div_pll(const struct s32cc_pll_out_div *pdiv) 52184e82085SGhennadi Procopciuc { 52284e82085SGhennadi Procopciuc const struct s32cc_clk_obj *parent; 52384e82085SGhennadi Procopciuc 52484e82085SGhennadi Procopciuc parent = pdiv->parent; 52584e82085SGhennadi Procopciuc if (parent == NULL) { 52684e82085SGhennadi Procopciuc ERROR("Failed to identify PLL divider's parent\n"); 52784e82085SGhennadi Procopciuc return NULL; 52884e82085SGhennadi Procopciuc } 52984e82085SGhennadi Procopciuc 53084e82085SGhennadi Procopciuc if (parent->type != s32cc_pll_t) { 53184e82085SGhennadi Procopciuc ERROR("The parent of the divider is not a PLL instance\n"); 53284e82085SGhennadi Procopciuc return NULL; 53384e82085SGhennadi Procopciuc } 53484e82085SGhennadi Procopciuc 53584e82085SGhennadi Procopciuc return s32cc_obj2pll(parent); 53684e82085SGhennadi Procopciuc } 53784e82085SGhennadi Procopciuc 53884e82085SGhennadi Procopciuc static void config_pll_out_div(uintptr_t pll_addr, uint32_t div_index, uint32_t dc) 53984e82085SGhennadi Procopciuc { 54084e82085SGhennadi Procopciuc uint32_t pllodiv; 54184e82085SGhennadi Procopciuc uint32_t pdiv; 54284e82085SGhennadi Procopciuc 54384e82085SGhennadi Procopciuc pllodiv = mmio_read_32(PLLDIG_PLLODIV(pll_addr, div_index)); 54484e82085SGhennadi Procopciuc pdiv = PLLDIG_PLLODIV_DIV(pllodiv); 54584e82085SGhennadi Procopciuc 54684e82085SGhennadi Procopciuc if (((pdiv + 1U) == dc) && ((pllodiv & PLLDIG_PLLODIV_DE) != 0U)) { 54784e82085SGhennadi Procopciuc return; 54884e82085SGhennadi Procopciuc } 54984e82085SGhennadi Procopciuc 55084e82085SGhennadi Procopciuc if ((pllodiv & PLLDIG_PLLODIV_DE) != 0U) { 55184e82085SGhennadi Procopciuc disable_odiv(pll_addr, div_index); 55284e82085SGhennadi Procopciuc } 55384e82085SGhennadi Procopciuc 55484e82085SGhennadi Procopciuc pllodiv = PLLDIG_PLLODIV_DIV_SET(dc - 1U); 55584e82085SGhennadi Procopciuc mmio_write_32(PLLDIG_PLLODIV(pll_addr, div_index), pllodiv); 55684e82085SGhennadi Procopciuc 55784e82085SGhennadi Procopciuc enable_odiv(pll_addr, div_index); 55884e82085SGhennadi Procopciuc } 55984e82085SGhennadi Procopciuc 56096e069cbSGhennadi Procopciuc static struct s32cc_clk_obj *get_pll_div_parent(const struct s32cc_clk_obj *module) 56196e069cbSGhennadi Procopciuc { 56296e069cbSGhennadi Procopciuc const struct s32cc_pll_out_div *pdiv = s32cc_obj2plldiv(module); 56396e069cbSGhennadi Procopciuc 56496e069cbSGhennadi Procopciuc if (pdiv->parent == NULL) { 56596e069cbSGhennadi Procopciuc ERROR("Failed to identify PLL DIV's parent\n"); 56696e069cbSGhennadi Procopciuc } 56796e069cbSGhennadi Procopciuc 56896e069cbSGhennadi Procopciuc return pdiv->parent; 56996e069cbSGhennadi Procopciuc } 57096e069cbSGhennadi Procopciuc 5715300040bSGhennadi Procopciuc static int enable_pll_div(struct s32cc_clk_obj *module, 57284e82085SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 5735300040bSGhennadi Procopciuc unsigned int depth) 57484e82085SGhennadi Procopciuc { 57584e82085SGhennadi Procopciuc const struct s32cc_pll_out_div *pdiv = s32cc_obj2plldiv(module); 57684e82085SGhennadi Procopciuc uintptr_t pll_addr = 0x0ULL; 5778ee0fc31SGhennadi Procopciuc unsigned int ldepth = depth; 57884e82085SGhennadi Procopciuc const struct s32cc_pll *pll; 579c23dde6cSGhennadi Procopciuc unsigned long pll_vco; 58084e82085SGhennadi Procopciuc uint32_t dc; 58184e82085SGhennadi Procopciuc int ret; 58284e82085SGhennadi Procopciuc 5838ee0fc31SGhennadi Procopciuc ret = update_stack_depth(&ldepth); 58484e82085SGhennadi Procopciuc if (ret != 0) { 58584e82085SGhennadi Procopciuc return ret; 58684e82085SGhennadi Procopciuc } 58784e82085SGhennadi Procopciuc 58884e82085SGhennadi Procopciuc pll = get_div_pll(pdiv); 58984e82085SGhennadi Procopciuc if (pll == NULL) { 59084e82085SGhennadi Procopciuc ERROR("The parent of the PLL DIV is invalid\n"); 59184e82085SGhennadi Procopciuc return 0; 59284e82085SGhennadi Procopciuc } 59384e82085SGhennadi Procopciuc 59484e82085SGhennadi Procopciuc ret = get_base_addr(pll->instance, drv, &pll_addr); 59584e82085SGhennadi Procopciuc if (ret != 0) { 59684e82085SGhennadi Procopciuc ERROR("Failed to detect PLL instance\n"); 59784e82085SGhennadi Procopciuc return -EINVAL; 59884e82085SGhennadi Procopciuc } 59984e82085SGhennadi Procopciuc 600c23dde6cSGhennadi Procopciuc ret = get_module_rate(&pll->desc, drv, &pll_vco, ldepth); 601c23dde6cSGhennadi Procopciuc if (ret != 0) { 602c23dde6cSGhennadi Procopciuc ERROR("Failed to enable the PLL due to unknown rate for 0x%" PRIxPTR "\n", 603c23dde6cSGhennadi Procopciuc pll_addr); 604c23dde6cSGhennadi Procopciuc return ret; 605c23dde6cSGhennadi Procopciuc } 606c23dde6cSGhennadi Procopciuc 607c23dde6cSGhennadi Procopciuc dc = (uint32_t)(pll_vco / pdiv->freq); 60884e82085SGhennadi Procopciuc 60984e82085SGhennadi Procopciuc config_pll_out_div(pll_addr, pdiv->index, dc); 61084e82085SGhennadi Procopciuc 61184e82085SGhennadi Procopciuc return 0; 61284e82085SGhennadi Procopciuc } 61384e82085SGhennadi Procopciuc 6147004f678SGhennadi Procopciuc static int cgm_mux_clk_config(uintptr_t cgm_addr, uint32_t mux, uint32_t source, 6157004f678SGhennadi Procopciuc bool safe_clk) 6167004f678SGhennadi Procopciuc { 6177004f678SGhennadi Procopciuc uint32_t css, csc; 6187004f678SGhennadi Procopciuc 6197004f678SGhennadi Procopciuc css = mmio_read_32(CGM_MUXn_CSS(cgm_addr, mux)); 6207004f678SGhennadi Procopciuc 6217004f678SGhennadi Procopciuc /* Already configured */ 6227004f678SGhennadi Procopciuc if ((MC_CGM_MUXn_CSS_SELSTAT(css) == source) && 6237004f678SGhennadi Procopciuc (MC_CGM_MUXn_CSS_SWTRG(css) == MC_CGM_MUXn_CSS_SWTRG_SUCCESS) && 6247004f678SGhennadi Procopciuc ((css & MC_CGM_MUXn_CSS_SWIP) == 0U) && !safe_clk) { 6257004f678SGhennadi Procopciuc return 0; 6267004f678SGhennadi Procopciuc } 6277004f678SGhennadi Procopciuc 6287004f678SGhennadi Procopciuc /* Ongoing clock switch? */ 6297004f678SGhennadi Procopciuc while ((mmio_read_32(CGM_MUXn_CSS(cgm_addr, mux)) & 6307004f678SGhennadi Procopciuc MC_CGM_MUXn_CSS_SWIP) != 0U) { 6317004f678SGhennadi Procopciuc } 6327004f678SGhennadi Procopciuc 6337004f678SGhennadi Procopciuc csc = mmio_read_32(CGM_MUXn_CSC(cgm_addr, mux)); 6347004f678SGhennadi Procopciuc 6357004f678SGhennadi Procopciuc /* Clear previous source. */ 6367004f678SGhennadi Procopciuc csc &= ~(MC_CGM_MUXn_CSC_SELCTL_MASK); 6377004f678SGhennadi Procopciuc 6387004f678SGhennadi Procopciuc if (!safe_clk) { 6397004f678SGhennadi Procopciuc /* Select the clock source and trigger the clock switch. */ 6407004f678SGhennadi Procopciuc csc |= MC_CGM_MUXn_CSC_SELCTL(source) | MC_CGM_MUXn_CSC_CLK_SW; 6417004f678SGhennadi Procopciuc } else { 6427004f678SGhennadi Procopciuc /* Switch to safe clock */ 6437004f678SGhennadi Procopciuc csc |= MC_CGM_MUXn_CSC_SAFE_SW; 6447004f678SGhennadi Procopciuc } 6457004f678SGhennadi Procopciuc 6467004f678SGhennadi Procopciuc mmio_write_32(CGM_MUXn_CSC(cgm_addr, mux), csc); 6477004f678SGhennadi Procopciuc 6487004f678SGhennadi Procopciuc /* Wait for configuration bit to auto-clear. */ 6497004f678SGhennadi Procopciuc while ((mmio_read_32(CGM_MUXn_CSC(cgm_addr, mux)) & 6507004f678SGhennadi Procopciuc MC_CGM_MUXn_CSC_CLK_SW) != 0U) { 6517004f678SGhennadi Procopciuc } 6527004f678SGhennadi Procopciuc 6537004f678SGhennadi Procopciuc /* Is the clock switch completed? */ 6547004f678SGhennadi Procopciuc while ((mmio_read_32(CGM_MUXn_CSS(cgm_addr, mux)) & 6557004f678SGhennadi Procopciuc MC_CGM_MUXn_CSS_SWIP) != 0U) { 6567004f678SGhennadi Procopciuc } 6577004f678SGhennadi Procopciuc 6587004f678SGhennadi Procopciuc /* 6597004f678SGhennadi Procopciuc * Check if the switch succeeded. 6607004f678SGhennadi Procopciuc * Check switch trigger cause and the source. 6617004f678SGhennadi Procopciuc */ 6627004f678SGhennadi Procopciuc css = mmio_read_32(CGM_MUXn_CSS(cgm_addr, mux)); 6637004f678SGhennadi Procopciuc if (!safe_clk) { 6647004f678SGhennadi Procopciuc if ((MC_CGM_MUXn_CSS_SWTRG(css) == MC_CGM_MUXn_CSS_SWTRG_SUCCESS) && 6657004f678SGhennadi Procopciuc (MC_CGM_MUXn_CSS_SELSTAT(css) == source)) { 6667004f678SGhennadi Procopciuc return 0; 6677004f678SGhennadi Procopciuc } 6687004f678SGhennadi Procopciuc 6697004f678SGhennadi Procopciuc ERROR("Failed to change the source of mux %" PRIu32 " to %" PRIu32 " (CGM=%lu)\n", 6707004f678SGhennadi Procopciuc mux, source, cgm_addr); 6717004f678SGhennadi Procopciuc } else { 6727004f678SGhennadi Procopciuc if (((MC_CGM_MUXn_CSS_SWTRG(css) == MC_CGM_MUXn_CSS_SWTRG_SAFE_CLK) || 6737004f678SGhennadi Procopciuc (MC_CGM_MUXn_CSS_SWTRG(css) == MC_CGM_MUXn_CSS_SWTRG_SAFE_CLK_INACTIVE)) && 6747004f678SGhennadi Procopciuc ((MC_CGM_MUXn_CSS_SAFE_SW & css) != 0U)) { 6757004f678SGhennadi Procopciuc return 0; 6767004f678SGhennadi Procopciuc } 6777004f678SGhennadi Procopciuc 6787004f678SGhennadi Procopciuc ERROR("The switch of mux %" PRIu32 " (CGM=%lu) to safe clock failed\n", 6797004f678SGhennadi Procopciuc mux, cgm_addr); 6807004f678SGhennadi Procopciuc } 6817004f678SGhennadi Procopciuc 6827004f678SGhennadi Procopciuc return -EINVAL; 6837004f678SGhennadi Procopciuc } 6847004f678SGhennadi Procopciuc 6857004f678SGhennadi Procopciuc static int enable_cgm_mux(const struct s32cc_clkmux *mux, 6867004f678SGhennadi Procopciuc const struct s32cc_clk_drv *drv) 6877004f678SGhennadi Procopciuc { 6887004f678SGhennadi Procopciuc uintptr_t cgm_addr = UL(0x0); 6897004f678SGhennadi Procopciuc uint32_t mux_hw_clk; 6907004f678SGhennadi Procopciuc int ret; 6917004f678SGhennadi Procopciuc 6927004f678SGhennadi Procopciuc ret = get_base_addr(mux->module, drv, &cgm_addr); 6937004f678SGhennadi Procopciuc if (ret != 0) { 6947004f678SGhennadi Procopciuc return ret; 6957004f678SGhennadi Procopciuc } 6967004f678SGhennadi Procopciuc 6977004f678SGhennadi Procopciuc mux_hw_clk = (uint32_t)S32CC_CLK_ID(mux->source_id); 6987004f678SGhennadi Procopciuc 6997004f678SGhennadi Procopciuc return cgm_mux_clk_config(cgm_addr, mux->index, 7007004f678SGhennadi Procopciuc mux_hw_clk, false); 7017004f678SGhennadi Procopciuc } 7027004f678SGhennadi Procopciuc 70396e069cbSGhennadi Procopciuc static struct s32cc_clk_obj *get_mux_parent(const struct s32cc_clk_obj *module) 70496e069cbSGhennadi Procopciuc { 70596e069cbSGhennadi Procopciuc const struct s32cc_clkmux *mux = s32cc_obj2clkmux(module); 70696e069cbSGhennadi Procopciuc struct s32cc_clk *clk; 70796e069cbSGhennadi Procopciuc 70896e069cbSGhennadi Procopciuc if (mux == NULL) { 70996e069cbSGhennadi Procopciuc return NULL; 71096e069cbSGhennadi Procopciuc } 71196e069cbSGhennadi Procopciuc 71296e069cbSGhennadi Procopciuc clk = s32cc_get_arch_clk(mux->source_id); 71396e069cbSGhennadi Procopciuc if (clk == NULL) { 71496e069cbSGhennadi Procopciuc ERROR("Invalid parent (%lu) for mux %" PRIu8 "\n", 71596e069cbSGhennadi Procopciuc mux->source_id, mux->index); 71696e069cbSGhennadi Procopciuc return NULL; 71796e069cbSGhennadi Procopciuc } 71896e069cbSGhennadi Procopciuc 71996e069cbSGhennadi Procopciuc return &clk->desc; 72096e069cbSGhennadi Procopciuc } 72196e069cbSGhennadi Procopciuc 7225300040bSGhennadi Procopciuc static int enable_mux(struct s32cc_clk_obj *module, 7237004f678SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 7245300040bSGhennadi Procopciuc unsigned int depth) 7257004f678SGhennadi Procopciuc { 7267004f678SGhennadi Procopciuc const struct s32cc_clkmux *mux = s32cc_obj2clkmux(module); 7278ee0fc31SGhennadi Procopciuc unsigned int ldepth = depth; 7287004f678SGhennadi Procopciuc const struct s32cc_clk *clk; 7297004f678SGhennadi Procopciuc int ret = 0; 7307004f678SGhennadi Procopciuc 7318ee0fc31SGhennadi Procopciuc ret = update_stack_depth(&ldepth); 7327004f678SGhennadi Procopciuc if (ret != 0) { 7337004f678SGhennadi Procopciuc return ret; 7347004f678SGhennadi Procopciuc } 7357004f678SGhennadi Procopciuc 7367004f678SGhennadi Procopciuc if (mux == NULL) { 7377004f678SGhennadi Procopciuc return -EINVAL; 7387004f678SGhennadi Procopciuc } 7397004f678SGhennadi Procopciuc 7407004f678SGhennadi Procopciuc clk = s32cc_get_arch_clk(mux->source_id); 7417004f678SGhennadi Procopciuc if (clk == NULL) { 7427004f678SGhennadi Procopciuc ERROR("Invalid parent (%lu) for mux %" PRIu8 "\n", 7437004f678SGhennadi Procopciuc mux->source_id, mux->index); 7447004f678SGhennadi Procopciuc return -EINVAL; 7457004f678SGhennadi Procopciuc } 7467004f678SGhennadi Procopciuc 7477004f678SGhennadi Procopciuc switch (mux->module) { 7487004f678SGhennadi Procopciuc /* PLL mux will be enabled by PLL setup */ 7497004f678SGhennadi Procopciuc case S32CC_ARM_PLL: 750f8490b85SGhennadi Procopciuc case S32CC_PERIPH_PLL: 75118c2b137SGhennadi Procopciuc case S32CC_DDR_PLL: 7527004f678SGhennadi Procopciuc break; 7537004f678SGhennadi Procopciuc case S32CC_CGM1: 7547004f678SGhennadi Procopciuc ret = enable_cgm_mux(mux, drv); 7557004f678SGhennadi Procopciuc break; 7569dbca85dSGhennadi Procopciuc case S32CC_CGM0: 7579dbca85dSGhennadi Procopciuc ret = enable_cgm_mux(mux, drv); 7589dbca85dSGhennadi Procopciuc break; 7598a4f840bSGhennadi Procopciuc case S32CC_CGM5: 7608a4f840bSGhennadi Procopciuc ret = enable_cgm_mux(mux, drv); 7618a4f840bSGhennadi Procopciuc break; 7627004f678SGhennadi Procopciuc default: 7637004f678SGhennadi Procopciuc ERROR("Unknown mux parent type: %d\n", mux->module); 7647004f678SGhennadi Procopciuc ret = -EINVAL; 7657004f678SGhennadi Procopciuc break; 7667004f678SGhennadi Procopciuc }; 7677004f678SGhennadi Procopciuc 7687004f678SGhennadi Procopciuc return ret; 7697004f678SGhennadi Procopciuc } 7707004f678SGhennadi Procopciuc 77196e069cbSGhennadi Procopciuc static struct s32cc_clk_obj *get_dfs_parent(const struct s32cc_clk_obj *module) 77296e069cbSGhennadi Procopciuc { 77396e069cbSGhennadi Procopciuc const struct s32cc_dfs *dfs = s32cc_obj2dfs(module); 77496e069cbSGhennadi Procopciuc 77596e069cbSGhennadi Procopciuc if (dfs->parent == NULL) { 77696e069cbSGhennadi Procopciuc ERROR("Failed to identify DFS's parent\n"); 77796e069cbSGhennadi Procopciuc } 77896e069cbSGhennadi Procopciuc 77996e069cbSGhennadi Procopciuc return dfs->parent; 78096e069cbSGhennadi Procopciuc } 78196e069cbSGhennadi Procopciuc 7825300040bSGhennadi Procopciuc static int enable_dfs(struct s32cc_clk_obj *module, 7834cd04c50SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 7845300040bSGhennadi Procopciuc unsigned int depth) 7854cd04c50SGhennadi Procopciuc { 7868ee0fc31SGhennadi Procopciuc unsigned int ldepth = depth; 7874cd04c50SGhennadi Procopciuc int ret = 0; 7884cd04c50SGhennadi Procopciuc 7898ee0fc31SGhennadi Procopciuc ret = update_stack_depth(&ldepth); 7904cd04c50SGhennadi Procopciuc if (ret != 0) { 7914cd04c50SGhennadi Procopciuc return ret; 7924cd04c50SGhennadi Procopciuc } 7934cd04c50SGhennadi Procopciuc 7944cd04c50SGhennadi Procopciuc return 0; 7954cd04c50SGhennadi Procopciuc } 7964cd04c50SGhennadi Procopciuc 7972fb25509SGhennadi Procopciuc static int get_dfs_freq(const struct s32cc_clk_obj *module, 7982fb25509SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 7992fb25509SGhennadi Procopciuc unsigned long *rate, unsigned int depth) 8002fb25509SGhennadi Procopciuc { 8012fb25509SGhennadi Procopciuc const struct s32cc_dfs *dfs = s32cc_obj2dfs(module); 8022fb25509SGhennadi Procopciuc unsigned int ldepth = depth; 8032fb25509SGhennadi Procopciuc uintptr_t dfs_addr; 8042fb25509SGhennadi Procopciuc int ret; 8052fb25509SGhennadi Procopciuc 8062fb25509SGhennadi Procopciuc ret = update_stack_depth(&ldepth); 8072fb25509SGhennadi Procopciuc if (ret != 0) { 8082fb25509SGhennadi Procopciuc return ret; 8092fb25509SGhennadi Procopciuc } 8102fb25509SGhennadi Procopciuc 8112fb25509SGhennadi Procopciuc ret = get_base_addr(dfs->instance, drv, &dfs_addr); 8122fb25509SGhennadi Procopciuc if (ret != 0) { 8132fb25509SGhennadi Procopciuc ERROR("Failed to detect the DFS instance\n"); 8142fb25509SGhennadi Procopciuc return ret; 8152fb25509SGhennadi Procopciuc } 8162fb25509SGhennadi Procopciuc 8172fb25509SGhennadi Procopciuc return get_module_rate(dfs->parent, drv, rate, ldepth); 8182fb25509SGhennadi Procopciuc } 8192fb25509SGhennadi Procopciuc 8204cd04c50SGhennadi Procopciuc static struct s32cc_dfs *get_div_dfs(const struct s32cc_dfs_div *dfs_div) 8214cd04c50SGhennadi Procopciuc { 8224cd04c50SGhennadi Procopciuc const struct s32cc_clk_obj *parent = dfs_div->parent; 8234cd04c50SGhennadi Procopciuc 8244cd04c50SGhennadi Procopciuc if (parent->type != s32cc_dfs_t) { 8254cd04c50SGhennadi Procopciuc ERROR("DFS DIV doesn't have a DFS as parent\n"); 8264cd04c50SGhennadi Procopciuc return NULL; 8274cd04c50SGhennadi Procopciuc } 8284cd04c50SGhennadi Procopciuc 8294cd04c50SGhennadi Procopciuc return s32cc_obj2dfs(parent); 8304cd04c50SGhennadi Procopciuc } 8314cd04c50SGhennadi Procopciuc 8324cd04c50SGhennadi Procopciuc static int get_dfs_mfi_mfn(unsigned long dfs_freq, const struct s32cc_dfs_div *dfs_div, 8334cd04c50SGhennadi Procopciuc uint32_t *mfi, uint32_t *mfn) 8344cd04c50SGhennadi Procopciuc { 8354cd04c50SGhennadi Procopciuc uint64_t factor64, tmp64, ofreq; 8364cd04c50SGhennadi Procopciuc uint32_t factor32; 8374cd04c50SGhennadi Procopciuc 8384cd04c50SGhennadi Procopciuc unsigned long in = dfs_freq; 8394cd04c50SGhennadi Procopciuc unsigned long out = dfs_div->freq; 8404cd04c50SGhennadi Procopciuc 8414cd04c50SGhennadi Procopciuc /** 8424cd04c50SGhennadi Procopciuc * factor = (IN / OUT) / 2 8434cd04c50SGhennadi Procopciuc * MFI = integer(factor) 8444cd04c50SGhennadi Procopciuc * MFN = (factor - MFI) * 36 8454cd04c50SGhennadi Procopciuc */ 8464cd04c50SGhennadi Procopciuc factor64 = ((((uint64_t)in) * FP_PRECISION) / ((uint64_t)out)) / 2ULL; 8474cd04c50SGhennadi Procopciuc tmp64 = factor64 / FP_PRECISION; 8484cd04c50SGhennadi Procopciuc if (tmp64 > UINT32_MAX) { 8494cd04c50SGhennadi Procopciuc return -EINVAL; 8504cd04c50SGhennadi Procopciuc } 8514cd04c50SGhennadi Procopciuc 8524cd04c50SGhennadi Procopciuc factor32 = (uint32_t)tmp64; 8534cd04c50SGhennadi Procopciuc *mfi = factor32; 8544cd04c50SGhennadi Procopciuc 8554cd04c50SGhennadi Procopciuc tmp64 = ((factor64 - ((uint64_t)*mfi * FP_PRECISION)) * 36UL) / FP_PRECISION; 8564cd04c50SGhennadi Procopciuc if (tmp64 > UINT32_MAX) { 8574cd04c50SGhennadi Procopciuc return -EINVAL; 8584cd04c50SGhennadi Procopciuc } 8594cd04c50SGhennadi Procopciuc 8604cd04c50SGhennadi Procopciuc *mfn = (uint32_t)tmp64; 8614cd04c50SGhennadi Procopciuc 8624cd04c50SGhennadi Procopciuc /* div_freq = in / (2 * (*mfi + *mfn / 36.0)) */ 8634cd04c50SGhennadi Procopciuc factor64 = (((uint64_t)*mfn) * FP_PRECISION) / 36ULL; 8644cd04c50SGhennadi Procopciuc factor64 += ((uint64_t)*mfi) * FP_PRECISION; 8654cd04c50SGhennadi Procopciuc factor64 *= 2ULL; 8664cd04c50SGhennadi Procopciuc ofreq = (((uint64_t)in) * FP_PRECISION) / factor64; 8674cd04c50SGhennadi Procopciuc 8684cd04c50SGhennadi Procopciuc if (ofreq != dfs_div->freq) { 8694cd04c50SGhennadi Procopciuc ERROR("Failed to find MFI and MFN settings for DFS DIV freq %lu\n", 8704cd04c50SGhennadi Procopciuc dfs_div->freq); 8714cd04c50SGhennadi Procopciuc ERROR("Nearest freq = %" PRIx64 "\n", ofreq); 8724cd04c50SGhennadi Procopciuc return -EINVAL; 8734cd04c50SGhennadi Procopciuc } 8744cd04c50SGhennadi Procopciuc 8754cd04c50SGhennadi Procopciuc return 0; 8764cd04c50SGhennadi Procopciuc } 8774cd04c50SGhennadi Procopciuc 8784cd04c50SGhennadi Procopciuc static int init_dfs_port(uintptr_t dfs_addr, uint32_t port, 8794cd04c50SGhennadi Procopciuc uint32_t mfi, uint32_t mfn) 8804cd04c50SGhennadi Procopciuc { 8814cd04c50SGhennadi Procopciuc uint32_t portsr, portolsr; 8824cd04c50SGhennadi Procopciuc uint32_t mask, old_mfi, old_mfn; 8834cd04c50SGhennadi Procopciuc uint32_t dvport; 8844cd04c50SGhennadi Procopciuc bool init_dfs; 8854cd04c50SGhennadi Procopciuc 8864cd04c50SGhennadi Procopciuc dvport = mmio_read_32(DFS_DVPORTn(dfs_addr, port)); 8874cd04c50SGhennadi Procopciuc 8884cd04c50SGhennadi Procopciuc old_mfi = DFS_DVPORTn_MFI(dvport); 8894cd04c50SGhennadi Procopciuc old_mfn = DFS_DVPORTn_MFN(dvport); 8904cd04c50SGhennadi Procopciuc 8914cd04c50SGhennadi Procopciuc portsr = mmio_read_32(DFS_PORTSR(dfs_addr)); 8924cd04c50SGhennadi Procopciuc portolsr = mmio_read_32(DFS_PORTOLSR(dfs_addr)); 8934cd04c50SGhennadi Procopciuc 8944cd04c50SGhennadi Procopciuc /* Skip configuration if it's not needed */ 8954cd04c50SGhennadi Procopciuc if (((portsr & BIT_32(port)) != 0U) && 8964cd04c50SGhennadi Procopciuc ((portolsr & BIT_32(port)) == 0U) && 8974cd04c50SGhennadi Procopciuc (mfi == old_mfi) && (mfn == old_mfn)) { 8984cd04c50SGhennadi Procopciuc return 0; 8994cd04c50SGhennadi Procopciuc } 9004cd04c50SGhennadi Procopciuc 9014cd04c50SGhennadi Procopciuc init_dfs = (portsr == 0U); 9024cd04c50SGhennadi Procopciuc 9034cd04c50SGhennadi Procopciuc if (init_dfs) { 9044cd04c50SGhennadi Procopciuc mask = DFS_PORTRESET_MASK; 9054cd04c50SGhennadi Procopciuc } else { 9064cd04c50SGhennadi Procopciuc mask = DFS_PORTRESET_SET(BIT_32(port)); 9074cd04c50SGhennadi Procopciuc } 9084cd04c50SGhennadi Procopciuc 9094cd04c50SGhennadi Procopciuc mmio_write_32(DFS_PORTOLSR(dfs_addr), mask); 9104cd04c50SGhennadi Procopciuc mmio_write_32(DFS_PORTRESET(dfs_addr), mask); 9114cd04c50SGhennadi Procopciuc 9124cd04c50SGhennadi Procopciuc while ((mmio_read_32(DFS_PORTSR(dfs_addr)) & mask) != 0U) { 9134cd04c50SGhennadi Procopciuc } 9144cd04c50SGhennadi Procopciuc 9154cd04c50SGhennadi Procopciuc if (init_dfs) { 9164cd04c50SGhennadi Procopciuc mmio_write_32(DFS_CTL(dfs_addr), DFS_CTL_RESET); 9174cd04c50SGhennadi Procopciuc } 9184cd04c50SGhennadi Procopciuc 9194cd04c50SGhennadi Procopciuc mmio_write_32(DFS_DVPORTn(dfs_addr, port), 9204cd04c50SGhennadi Procopciuc DFS_DVPORTn_MFI_SET(mfi) | DFS_DVPORTn_MFN_SET(mfn)); 9214cd04c50SGhennadi Procopciuc 9224cd04c50SGhennadi Procopciuc if (init_dfs) { 9234cd04c50SGhennadi Procopciuc /* DFS clk enable programming */ 9244cd04c50SGhennadi Procopciuc mmio_clrbits_32(DFS_CTL(dfs_addr), DFS_CTL_RESET); 9254cd04c50SGhennadi Procopciuc } 9264cd04c50SGhennadi Procopciuc 9274cd04c50SGhennadi Procopciuc mmio_clrbits_32(DFS_PORTRESET(dfs_addr), BIT_32(port)); 9284cd04c50SGhennadi Procopciuc 9294cd04c50SGhennadi Procopciuc while ((mmio_read_32(DFS_PORTSR(dfs_addr)) & BIT_32(port)) != BIT_32(port)) { 9304cd04c50SGhennadi Procopciuc } 9314cd04c50SGhennadi Procopciuc 9324cd04c50SGhennadi Procopciuc portolsr = mmio_read_32(DFS_PORTOLSR(dfs_addr)); 9334cd04c50SGhennadi Procopciuc if ((portolsr & DFS_PORTOLSR_LOL(port)) != 0U) { 9344cd04c50SGhennadi Procopciuc ERROR("Failed to lock DFS divider\n"); 9354cd04c50SGhennadi Procopciuc return -EINVAL; 9364cd04c50SGhennadi Procopciuc } 9374cd04c50SGhennadi Procopciuc 9384cd04c50SGhennadi Procopciuc return 0; 9394cd04c50SGhennadi Procopciuc } 9404cd04c50SGhennadi Procopciuc 94196e069cbSGhennadi Procopciuc static struct s32cc_clk_obj * 94296e069cbSGhennadi Procopciuc get_dfs_div_parent(const struct s32cc_clk_obj *module) 94396e069cbSGhennadi Procopciuc { 94496e069cbSGhennadi Procopciuc const struct s32cc_dfs_div *dfs_div = s32cc_obj2dfsdiv(module); 94596e069cbSGhennadi Procopciuc 94696e069cbSGhennadi Procopciuc if (dfs_div->parent == NULL) { 94796e069cbSGhennadi Procopciuc ERROR("Failed to identify DFS divider's parent\n"); 94896e069cbSGhennadi Procopciuc } 94996e069cbSGhennadi Procopciuc 95096e069cbSGhennadi Procopciuc return dfs_div->parent; 95196e069cbSGhennadi Procopciuc } 95296e069cbSGhennadi Procopciuc 9535300040bSGhennadi Procopciuc static int enable_dfs_div(struct s32cc_clk_obj *module, 9544cd04c50SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 9555300040bSGhennadi Procopciuc unsigned int depth) 9564cd04c50SGhennadi Procopciuc { 9574cd04c50SGhennadi Procopciuc const struct s32cc_dfs_div *dfs_div = s32cc_obj2dfsdiv(module); 9588ee0fc31SGhennadi Procopciuc unsigned int ldepth = depth; 9594cd04c50SGhennadi Procopciuc const struct s32cc_dfs *dfs; 9604cd04c50SGhennadi Procopciuc uintptr_t dfs_addr = 0UL; 96143b4b29fSGhennadi Procopciuc unsigned long dfs_freq; 9624cd04c50SGhennadi Procopciuc uint32_t mfi, mfn; 9634cd04c50SGhennadi Procopciuc int ret = 0; 9644cd04c50SGhennadi Procopciuc 9658ee0fc31SGhennadi Procopciuc ret = update_stack_depth(&ldepth); 9664cd04c50SGhennadi Procopciuc if (ret != 0) { 9674cd04c50SGhennadi Procopciuc return ret; 9684cd04c50SGhennadi Procopciuc } 9694cd04c50SGhennadi Procopciuc 9704cd04c50SGhennadi Procopciuc dfs = get_div_dfs(dfs_div); 9714cd04c50SGhennadi Procopciuc if (dfs == NULL) { 9724cd04c50SGhennadi Procopciuc return -EINVAL; 9734cd04c50SGhennadi Procopciuc } 9744cd04c50SGhennadi Procopciuc 9754cd04c50SGhennadi Procopciuc ret = get_base_addr(dfs->instance, drv, &dfs_addr); 9764cd04c50SGhennadi Procopciuc if ((ret != 0) || (dfs_addr == 0UL)) { 9774cd04c50SGhennadi Procopciuc return -EINVAL; 9784cd04c50SGhennadi Procopciuc } 9794cd04c50SGhennadi Procopciuc 98043b4b29fSGhennadi Procopciuc ret = get_module_rate(&dfs->desc, drv, &dfs_freq, depth); 98143b4b29fSGhennadi Procopciuc if (ret != 0) { 98243b4b29fSGhennadi Procopciuc return ret; 98343b4b29fSGhennadi Procopciuc } 98443b4b29fSGhennadi Procopciuc 98543b4b29fSGhennadi Procopciuc ret = get_dfs_mfi_mfn(dfs_freq, dfs_div, &mfi, &mfn); 9864cd04c50SGhennadi Procopciuc if (ret != 0) { 9874cd04c50SGhennadi Procopciuc return -EINVAL; 9884cd04c50SGhennadi Procopciuc } 9894cd04c50SGhennadi Procopciuc 9904cd04c50SGhennadi Procopciuc return init_dfs_port(dfs_addr, dfs_div->index, mfi, mfn); 9914cd04c50SGhennadi Procopciuc } 9924cd04c50SGhennadi Procopciuc 9935300040bSGhennadi Procopciuc typedef int (*enable_clk_t)(struct s32cc_clk_obj *module, 9945300040bSGhennadi Procopciuc const struct s32cc_clk_drv *drv, 9955300040bSGhennadi Procopciuc unsigned int depth); 9965300040bSGhennadi Procopciuc 9978a4f840bSGhennadi Procopciuc static int enable_part(struct s32cc_clk_obj *module, 9988a4f840bSGhennadi Procopciuc const struct s32cc_clk_drv *drv, 9998a4f840bSGhennadi Procopciuc unsigned int depth) 10008a4f840bSGhennadi Procopciuc { 10018a4f840bSGhennadi Procopciuc const struct s32cc_part *part = s32cc_obj2part(module); 10028a4f840bSGhennadi Procopciuc uint32_t part_no = part->partition_id; 10038a4f840bSGhennadi Procopciuc 10048a4f840bSGhennadi Procopciuc if ((drv->mc_me == 0UL) || (drv->mc_rgm == 0UL) || (drv->rdc == 0UL)) { 10058a4f840bSGhennadi Procopciuc return -EINVAL; 10068a4f840bSGhennadi Procopciuc } 10078a4f840bSGhennadi Procopciuc 10088a4f840bSGhennadi Procopciuc return mc_me_enable_partition(drv->mc_me, drv->mc_rgm, drv->rdc, part_no); 10098a4f840bSGhennadi Procopciuc } 10108a4f840bSGhennadi Procopciuc 10118a4f840bSGhennadi Procopciuc static int enable_part_block(struct s32cc_clk_obj *module, 10128a4f840bSGhennadi Procopciuc const struct s32cc_clk_drv *drv, 10138a4f840bSGhennadi Procopciuc unsigned int depth) 10148a4f840bSGhennadi Procopciuc { 10158a4f840bSGhennadi Procopciuc const struct s32cc_part_block *block = s32cc_obj2partblock(module); 10168a4f840bSGhennadi Procopciuc const struct s32cc_part *part = block->part; 10178a4f840bSGhennadi Procopciuc uint32_t part_no = part->partition_id; 10188a4f840bSGhennadi Procopciuc unsigned int ldepth = depth; 10198a4f840bSGhennadi Procopciuc uint32_t cofb; 10208a4f840bSGhennadi Procopciuc int ret; 10218a4f840bSGhennadi Procopciuc 10228a4f840bSGhennadi Procopciuc ret = update_stack_depth(&ldepth); 10238a4f840bSGhennadi Procopciuc if (ret != 0) { 10248a4f840bSGhennadi Procopciuc return ret; 10258a4f840bSGhennadi Procopciuc } 10268a4f840bSGhennadi Procopciuc 10278a4f840bSGhennadi Procopciuc if ((block->block >= s32cc_part_block0) && 10288a4f840bSGhennadi Procopciuc (block->block <= s32cc_part_block15)) { 10298a4f840bSGhennadi Procopciuc cofb = (uint32_t)block->block - (uint32_t)s32cc_part_block0; 10308a4f840bSGhennadi Procopciuc mc_me_enable_part_cofb(drv->mc_me, part_no, cofb, block->status); 10318a4f840bSGhennadi Procopciuc } else { 10328a4f840bSGhennadi Procopciuc ERROR("Unknown partition block type: %d\n", block->block); 10338a4f840bSGhennadi Procopciuc return -EINVAL; 10348a4f840bSGhennadi Procopciuc } 10358a4f840bSGhennadi Procopciuc 10368a4f840bSGhennadi Procopciuc return 0; 10378a4f840bSGhennadi Procopciuc } 10388a4f840bSGhennadi Procopciuc 10398a4f840bSGhennadi Procopciuc static struct s32cc_clk_obj * 10408a4f840bSGhennadi Procopciuc get_part_block_parent(const struct s32cc_clk_obj *module) 10418a4f840bSGhennadi Procopciuc { 10428a4f840bSGhennadi Procopciuc const struct s32cc_part_block *block = s32cc_obj2partblock(module); 10438a4f840bSGhennadi Procopciuc 10448a4f840bSGhennadi Procopciuc return &block->part->desc; 10458a4f840bSGhennadi Procopciuc } 10468a4f840bSGhennadi Procopciuc 10478a4f840bSGhennadi Procopciuc static int enable_module_with_refcount(struct s32cc_clk_obj *module, 10488a4f840bSGhennadi Procopciuc const struct s32cc_clk_drv *drv, 10498a4f840bSGhennadi Procopciuc unsigned int depth); 10508a4f840bSGhennadi Procopciuc 10518a4f840bSGhennadi Procopciuc static int enable_part_block_link(struct s32cc_clk_obj *module, 10528a4f840bSGhennadi Procopciuc const struct s32cc_clk_drv *drv, 10538a4f840bSGhennadi Procopciuc unsigned int depth) 10548a4f840bSGhennadi Procopciuc { 10558a4f840bSGhennadi Procopciuc const struct s32cc_part_block_link *link = s32cc_obj2partblocklink(module); 10568a4f840bSGhennadi Procopciuc struct s32cc_part_block *block = link->block; 10578a4f840bSGhennadi Procopciuc unsigned int ldepth = depth; 10588a4f840bSGhennadi Procopciuc int ret; 10598a4f840bSGhennadi Procopciuc 10608a4f840bSGhennadi Procopciuc ret = update_stack_depth(&ldepth); 10618a4f840bSGhennadi Procopciuc if (ret != 0) { 10628a4f840bSGhennadi Procopciuc return ret; 10638a4f840bSGhennadi Procopciuc } 10648a4f840bSGhennadi Procopciuc 10658a4f840bSGhennadi Procopciuc /* Move the enablement algorithm to partition tree */ 10668a4f840bSGhennadi Procopciuc return enable_module_with_refcount(&block->desc, drv, ldepth); 10678a4f840bSGhennadi Procopciuc } 10688a4f840bSGhennadi Procopciuc 10698a4f840bSGhennadi Procopciuc static struct s32cc_clk_obj * 10708a4f840bSGhennadi Procopciuc get_part_block_link_parent(const struct s32cc_clk_obj *module) 10718a4f840bSGhennadi Procopciuc { 10728a4f840bSGhennadi Procopciuc const struct s32cc_part_block_link *link = s32cc_obj2partblocklink(module); 10738a4f840bSGhennadi Procopciuc 10748a4f840bSGhennadi Procopciuc return link->parent; 10758a4f840bSGhennadi Procopciuc } 10768a4f840bSGhennadi Procopciuc 1077a74cf75fSGhennadi Procopciuc static int get_part_block_link_freq(const struct s32cc_clk_obj *module, 1078a74cf75fSGhennadi Procopciuc const struct s32cc_clk_drv *drv, 1079a74cf75fSGhennadi Procopciuc unsigned long *rate, unsigned int depth) 1080a74cf75fSGhennadi Procopciuc { 1081a74cf75fSGhennadi Procopciuc const struct s32cc_part_block_link *block = s32cc_obj2partblocklink(module); 1082a74cf75fSGhennadi Procopciuc unsigned int ldepth = depth; 1083a74cf75fSGhennadi Procopciuc int ret; 1084a74cf75fSGhennadi Procopciuc 1085a74cf75fSGhennadi Procopciuc ret = update_stack_depth(&ldepth); 1086a74cf75fSGhennadi Procopciuc if (ret != 0) { 1087a74cf75fSGhennadi Procopciuc return ret; 1088a74cf75fSGhennadi Procopciuc } 1089a74cf75fSGhennadi Procopciuc 1090a74cf75fSGhennadi Procopciuc return get_module_rate(block->parent, drv, rate, ldepth); 1091a74cf75fSGhennadi Procopciuc } 1092a74cf75fSGhennadi Procopciuc 10932710bdadSGhennadi Procopciuc static void cgm_mux_div_config(uintptr_t cgm_addr, uint32_t mux, 10942710bdadSGhennadi Procopciuc uint32_t dc, uint32_t div_index) 10952710bdadSGhennadi Procopciuc { 10962710bdadSGhennadi Procopciuc uint32_t updstat; 10972710bdadSGhennadi Procopciuc uint32_t dc_val = mmio_read_32(MC_CGM_MUXn_DCm(cgm_addr, mux, div_index)); 10982710bdadSGhennadi Procopciuc 10992710bdadSGhennadi Procopciuc dc_val &= (MC_CGM_MUXn_DCm_DIV_MASK | MC_CGM_MUXn_DCm_DE); 11002710bdadSGhennadi Procopciuc 11012710bdadSGhennadi Procopciuc if (dc_val == (MC_CGM_MUXn_DCm_DE | MC_CGM_MUXn_DCm_DIV_SET(dc))) { 11022710bdadSGhennadi Procopciuc return; 11032710bdadSGhennadi Procopciuc } 11042710bdadSGhennadi Procopciuc 11052710bdadSGhennadi Procopciuc /* Set the divider */ 11062710bdadSGhennadi Procopciuc mmio_write_32(MC_CGM_MUXn_DCm(cgm_addr, mux, div_index), 11072710bdadSGhennadi Procopciuc MC_CGM_MUXn_DCm_DE | MC_CGM_MUXn_DCm_DIV_SET(dc)); 11082710bdadSGhennadi Procopciuc 11092710bdadSGhennadi Procopciuc /* Wait for divider to get updated */ 11102710bdadSGhennadi Procopciuc do { 11112710bdadSGhennadi Procopciuc updstat = mmio_read_32(MC_CGM_MUXn_DIV_UPD_STAT(cgm_addr, mux)); 11122710bdadSGhennadi Procopciuc } while (MC_CGM_MUXn_DIV_UPD_STAT_DIVSTAT(updstat) != 0U); 11132710bdadSGhennadi Procopciuc } 11142710bdadSGhennadi Procopciuc 11152710bdadSGhennadi Procopciuc static inline struct s32cc_clkmux *get_cgm_div_mux(const struct s32cc_cgm_div *cgm_div) 11162710bdadSGhennadi Procopciuc { 11172710bdadSGhennadi Procopciuc const struct s32cc_clk_obj *parent = cgm_div->parent; 11182710bdadSGhennadi Procopciuc const struct s32cc_clk_obj *mux_obj; 11192710bdadSGhennadi Procopciuc const struct s32cc_clk *clk; 11202710bdadSGhennadi Procopciuc 11212710bdadSGhennadi Procopciuc if (parent == NULL) { 11222710bdadSGhennadi Procopciuc ERROR("Failed to identify CGM DIV's parent\n"); 11232710bdadSGhennadi Procopciuc return NULL; 11242710bdadSGhennadi Procopciuc } 11252710bdadSGhennadi Procopciuc 11262710bdadSGhennadi Procopciuc if (parent->type != s32cc_clk_t) { 11272710bdadSGhennadi Procopciuc ERROR("The parent of the CGM DIV isn't a clock\n"); 11282710bdadSGhennadi Procopciuc return NULL; 11292710bdadSGhennadi Procopciuc } 11302710bdadSGhennadi Procopciuc 11312710bdadSGhennadi Procopciuc clk = s32cc_obj2clk(parent); 11322710bdadSGhennadi Procopciuc 11332710bdadSGhennadi Procopciuc if (clk->module == NULL) { 11342710bdadSGhennadi Procopciuc ERROR("The clock isn't connected to a module\n"); 11352710bdadSGhennadi Procopciuc return NULL; 11362710bdadSGhennadi Procopciuc } 11372710bdadSGhennadi Procopciuc 11382710bdadSGhennadi Procopciuc mux_obj = clk->module; 11392710bdadSGhennadi Procopciuc 11402710bdadSGhennadi Procopciuc if ((mux_obj->type != s32cc_clkmux_t) && 11412710bdadSGhennadi Procopciuc (mux_obj->type != s32cc_shared_clkmux_t)) { 11422710bdadSGhennadi Procopciuc ERROR("The parent of the CGM DIV isn't a MUX\n"); 11432710bdadSGhennadi Procopciuc return NULL; 11442710bdadSGhennadi Procopciuc } 11452710bdadSGhennadi Procopciuc 11462710bdadSGhennadi Procopciuc return s32cc_obj2clkmux(mux_obj); 11472710bdadSGhennadi Procopciuc } 11482710bdadSGhennadi Procopciuc 11492710bdadSGhennadi Procopciuc static int enable_cgm_div(struct s32cc_clk_obj *module, 11502710bdadSGhennadi Procopciuc const struct s32cc_clk_drv *drv, unsigned int depth) 11512710bdadSGhennadi Procopciuc { 11522710bdadSGhennadi Procopciuc const struct s32cc_cgm_div *cgm_div = s32cc_obj2cgmdiv(module); 11532710bdadSGhennadi Procopciuc const struct s32cc_clkmux *mux; 11542710bdadSGhennadi Procopciuc unsigned int ldepth = depth; 11552710bdadSGhennadi Procopciuc uintptr_t cgm_addr = 0ULL; 11562710bdadSGhennadi Procopciuc uint64_t pfreq, dc64; 11572710bdadSGhennadi Procopciuc uint32_t dc; 11582710bdadSGhennadi Procopciuc int ret; 11592710bdadSGhennadi Procopciuc 11602710bdadSGhennadi Procopciuc ret = update_stack_depth(&ldepth); 11612710bdadSGhennadi Procopciuc if (ret != 0) { 11622710bdadSGhennadi Procopciuc return ret; 11632710bdadSGhennadi Procopciuc } 11642710bdadSGhennadi Procopciuc 11652710bdadSGhennadi Procopciuc if (cgm_div->parent == NULL) { 11662710bdadSGhennadi Procopciuc ERROR("Failed to identify CGM divider's parent\n"); 11672710bdadSGhennadi Procopciuc return -EINVAL; 11682710bdadSGhennadi Procopciuc } 11692710bdadSGhennadi Procopciuc 11702710bdadSGhennadi Procopciuc if (cgm_div->freq == 0U) { 11712710bdadSGhennadi Procopciuc ERROR("The frequency of the divider %" PRIu32 " is not set\n", 11722710bdadSGhennadi Procopciuc cgm_div->index); 11732710bdadSGhennadi Procopciuc return -EINVAL; 11742710bdadSGhennadi Procopciuc } 11752710bdadSGhennadi Procopciuc 11762710bdadSGhennadi Procopciuc mux = get_cgm_div_mux(cgm_div); 11772710bdadSGhennadi Procopciuc if (mux == NULL) { 11782710bdadSGhennadi Procopciuc return -EINVAL; 11792710bdadSGhennadi Procopciuc } 11802710bdadSGhennadi Procopciuc 11812710bdadSGhennadi Procopciuc ret = get_base_addr(mux->module, drv, &cgm_addr); 11822710bdadSGhennadi Procopciuc if (ret != 0) { 11832710bdadSGhennadi Procopciuc ERROR("Failed to get CGM base address of the MUX module %d\n", 11842710bdadSGhennadi Procopciuc mux->module); 11852710bdadSGhennadi Procopciuc return ret; 11862710bdadSGhennadi Procopciuc } 11872710bdadSGhennadi Procopciuc 11882710bdadSGhennadi Procopciuc ret = get_module_rate(cgm_div->parent, drv, &pfreq, ldepth); 11892710bdadSGhennadi Procopciuc if (ret != 0) { 11902710bdadSGhennadi Procopciuc ERROR("Failed to enable the div due to unknown frequency of " 11912710bdadSGhennadi Procopciuc "the CGM MUX %" PRIu8 "(CGM=%" PRIxPTR ")\n", 11922710bdadSGhennadi Procopciuc mux->index, cgm_addr); 11932710bdadSGhennadi Procopciuc return -EINVAL; 11942710bdadSGhennadi Procopciuc } 11952710bdadSGhennadi Procopciuc 11962710bdadSGhennadi Procopciuc dc64 = ((pfreq * FP_PRECISION) / cgm_div->freq) / FP_PRECISION; 11972710bdadSGhennadi Procopciuc dc = (uint32_t)dc64; 11982710bdadSGhennadi Procopciuc 11992710bdadSGhennadi Procopciuc if ((pfreq / dc64) != cgm_div->freq) { 12002710bdadSGhennadi Procopciuc ERROR("Cannot set CGM divider (mux:%" PRIu8 ", div:%" PRIu32 12012710bdadSGhennadi Procopciuc ") for input = %lu & output = %lu, Nearest freq = %lu\n", 12022710bdadSGhennadi Procopciuc mux->index, cgm_div->index, (unsigned long)pfreq, 12032710bdadSGhennadi Procopciuc cgm_div->freq, (unsigned long)(pfreq / dc)); 12042710bdadSGhennadi Procopciuc return -EINVAL; 12052710bdadSGhennadi Procopciuc } 12062710bdadSGhennadi Procopciuc 12072710bdadSGhennadi Procopciuc cgm_mux_div_config(cgm_addr, mux->index, dc - 1U, cgm_div->index); 12082710bdadSGhennadi Procopciuc return 0; 12092710bdadSGhennadi Procopciuc } 12102710bdadSGhennadi Procopciuc 1211f99078a6SGhennadi Procopciuc static int set_cgm_div_freq(const struct s32cc_clk_obj *module, 1212f99078a6SGhennadi Procopciuc unsigned long rate, unsigned long *orate, 1213f99078a6SGhennadi Procopciuc unsigned int *depth) 1214f99078a6SGhennadi Procopciuc { 1215f99078a6SGhennadi Procopciuc struct s32cc_cgm_div *cgm_div = s32cc_obj2cgmdiv(module); 1216f99078a6SGhennadi Procopciuc int ret; 1217f99078a6SGhennadi Procopciuc 1218f99078a6SGhennadi Procopciuc ret = update_stack_depth(depth); 1219f99078a6SGhennadi Procopciuc if (ret != 0) { 1220f99078a6SGhennadi Procopciuc return ret; 1221f99078a6SGhennadi Procopciuc } 1222f99078a6SGhennadi Procopciuc 1223f99078a6SGhennadi Procopciuc if (cgm_div->parent == NULL) { 1224f99078a6SGhennadi Procopciuc ERROR("Failed to identify the CGM divider's parent\n"); 1225f99078a6SGhennadi Procopciuc return -EINVAL; 1226f99078a6SGhennadi Procopciuc } 1227f99078a6SGhennadi Procopciuc 1228f99078a6SGhennadi Procopciuc cgm_div->freq = rate; 1229f99078a6SGhennadi Procopciuc *orate = rate; 1230f99078a6SGhennadi Procopciuc 1231f99078a6SGhennadi Procopciuc return 0; 1232f99078a6SGhennadi Procopciuc } 1233f99078a6SGhennadi Procopciuc 1234*ad412c0dSGhennadi Procopciuc static inline bool is_cgm_div_enabled(uintptr_t cgm_addr, uint32_t mux, 1235*ad412c0dSGhennadi Procopciuc uint32_t div_index) 1236*ad412c0dSGhennadi Procopciuc { 1237*ad412c0dSGhennadi Procopciuc uint32_t dc_val; 1238*ad412c0dSGhennadi Procopciuc 1239*ad412c0dSGhennadi Procopciuc dc_val = mmio_read_32(MC_CGM_MUXn_DCm(cgm_addr, mux, div_index)); 1240*ad412c0dSGhennadi Procopciuc 1241*ad412c0dSGhennadi Procopciuc return ((dc_val & MC_CGM_MUXn_DCm_DE) != 0U); 1242*ad412c0dSGhennadi Procopciuc } 1243*ad412c0dSGhennadi Procopciuc 1244*ad412c0dSGhennadi Procopciuc static unsigned long calc_cgm_div_freq(uintptr_t cgm_addr, uint32_t mux, 1245*ad412c0dSGhennadi Procopciuc uint32_t div_index, unsigned long pfreq) 1246*ad412c0dSGhennadi Procopciuc { 1247*ad412c0dSGhennadi Procopciuc uint32_t dc_val; 1248*ad412c0dSGhennadi Procopciuc uint32_t dc_div; 1249*ad412c0dSGhennadi Procopciuc 1250*ad412c0dSGhennadi Procopciuc dc_val = mmio_read_32(MC_CGM_MUXn_DCm(cgm_addr, mux, div_index)); 1251*ad412c0dSGhennadi Procopciuc dc_div = MC_CGM_MUXn_DCm_DIV(dc_val) + 1U; 1252*ad412c0dSGhennadi Procopciuc 1253*ad412c0dSGhennadi Procopciuc return pfreq * FP_PRECISION / dc_div / FP_PRECISION; 1254*ad412c0dSGhennadi Procopciuc } 1255*ad412c0dSGhennadi Procopciuc 1256*ad412c0dSGhennadi Procopciuc static int get_cgm_div_freq(const struct s32cc_clk_obj *module, 1257*ad412c0dSGhennadi Procopciuc const struct s32cc_clk_drv *drv, 1258*ad412c0dSGhennadi Procopciuc unsigned long *rate, unsigned int depth) 1259*ad412c0dSGhennadi Procopciuc { 1260*ad412c0dSGhennadi Procopciuc const struct s32cc_cgm_div *cgm_div = s32cc_obj2cgmdiv(module); 1261*ad412c0dSGhennadi Procopciuc const struct s32cc_clkmux *mux; 1262*ad412c0dSGhennadi Procopciuc unsigned int ldepth = depth; 1263*ad412c0dSGhennadi Procopciuc uintptr_t cgm_addr = 0ULL; 1264*ad412c0dSGhennadi Procopciuc unsigned long pfreq; 1265*ad412c0dSGhennadi Procopciuc int ret; 1266*ad412c0dSGhennadi Procopciuc 1267*ad412c0dSGhennadi Procopciuc ret = update_stack_depth(&ldepth); 1268*ad412c0dSGhennadi Procopciuc if (ret != 0) { 1269*ad412c0dSGhennadi Procopciuc return ret; 1270*ad412c0dSGhennadi Procopciuc } 1271*ad412c0dSGhennadi Procopciuc 1272*ad412c0dSGhennadi Procopciuc if (cgm_div->parent == NULL) { 1273*ad412c0dSGhennadi Procopciuc ERROR("Failed to identify CGM divider's parent\n"); 1274*ad412c0dSGhennadi Procopciuc return -EINVAL; 1275*ad412c0dSGhennadi Procopciuc } 1276*ad412c0dSGhennadi Procopciuc 1277*ad412c0dSGhennadi Procopciuc mux = get_cgm_div_mux(cgm_div); 1278*ad412c0dSGhennadi Procopciuc if (mux == NULL) { 1279*ad412c0dSGhennadi Procopciuc return -EINVAL; 1280*ad412c0dSGhennadi Procopciuc } 1281*ad412c0dSGhennadi Procopciuc 1282*ad412c0dSGhennadi Procopciuc ret = get_base_addr(mux->module, drv, &cgm_addr); 1283*ad412c0dSGhennadi Procopciuc if (ret != 0) { 1284*ad412c0dSGhennadi Procopciuc ERROR("Failed to get CGM base address of the MUX module %d\n", 1285*ad412c0dSGhennadi Procopciuc mux->module); 1286*ad412c0dSGhennadi Procopciuc return ret; 1287*ad412c0dSGhennadi Procopciuc } 1288*ad412c0dSGhennadi Procopciuc 1289*ad412c0dSGhennadi Procopciuc if (!is_cgm_div_enabled(cgm_addr, mux->index, cgm_div->index)) { 1290*ad412c0dSGhennadi Procopciuc *rate = cgm_div->freq; 1291*ad412c0dSGhennadi Procopciuc return 0; 1292*ad412c0dSGhennadi Procopciuc } 1293*ad412c0dSGhennadi Procopciuc 1294*ad412c0dSGhennadi Procopciuc ret = get_module_rate(cgm_div->parent, drv, &pfreq, ldepth); 1295*ad412c0dSGhennadi Procopciuc if (ret != 0) { 1296*ad412c0dSGhennadi Procopciuc ERROR("Failed to get the frequency of CGM MUX %" PRIu8 "(CGM=0x%" PRIxPTR ")\n", 1297*ad412c0dSGhennadi Procopciuc mux->index, cgm_addr); 1298*ad412c0dSGhennadi Procopciuc return ret; 1299*ad412c0dSGhennadi Procopciuc } 1300*ad412c0dSGhennadi Procopciuc 1301*ad412c0dSGhennadi Procopciuc *rate = calc_cgm_div_freq(cgm_addr, mux->index, cgm_div->index, pfreq); 1302*ad412c0dSGhennadi Procopciuc 1303*ad412c0dSGhennadi Procopciuc return 0; 1304*ad412c0dSGhennadi Procopciuc } 1305*ad412c0dSGhennadi Procopciuc 13065300040bSGhennadi Procopciuc static int no_enable(struct s32cc_clk_obj *module, 13075300040bSGhennadi Procopciuc const struct s32cc_clk_drv *drv, 13085300040bSGhennadi Procopciuc unsigned int depth) 13098ab34357SGhennadi Procopciuc { 13105300040bSGhennadi Procopciuc return 0; 13115300040bSGhennadi Procopciuc } 13125300040bSGhennadi Procopciuc 13135300040bSGhennadi Procopciuc static int exec_cb_with_refcount(enable_clk_t en_cb, struct s32cc_clk_obj *mod, 13145300040bSGhennadi Procopciuc const struct s32cc_clk_drv *drv, bool leaf_node, 13155300040bSGhennadi Procopciuc unsigned int depth) 13165300040bSGhennadi Procopciuc { 13178ee0fc31SGhennadi Procopciuc unsigned int ldepth = depth; 13188ab34357SGhennadi Procopciuc int ret = 0; 13198ab34357SGhennadi Procopciuc 13205300040bSGhennadi Procopciuc if (mod == NULL) { 13215300040bSGhennadi Procopciuc return 0; 13225300040bSGhennadi Procopciuc } 13235300040bSGhennadi Procopciuc 13248ee0fc31SGhennadi Procopciuc ret = update_stack_depth(&ldepth); 13255300040bSGhennadi Procopciuc if (ret != 0) { 13265300040bSGhennadi Procopciuc return ret; 13275300040bSGhennadi Procopciuc } 13285300040bSGhennadi Procopciuc 13295300040bSGhennadi Procopciuc /* Refcount will be updated as part of the recursivity */ 13305300040bSGhennadi Procopciuc if (leaf_node) { 13318ee0fc31SGhennadi Procopciuc return en_cb(mod, drv, ldepth); 13325300040bSGhennadi Procopciuc } 13335300040bSGhennadi Procopciuc 13345300040bSGhennadi Procopciuc if (mod->refcount == 0U) { 13358ee0fc31SGhennadi Procopciuc ret = en_cb(mod, drv, ldepth); 13365300040bSGhennadi Procopciuc } 13375300040bSGhennadi Procopciuc 13385300040bSGhennadi Procopciuc if (ret == 0) { 13395300040bSGhennadi Procopciuc mod->refcount++; 13405300040bSGhennadi Procopciuc } 13415300040bSGhennadi Procopciuc 13425300040bSGhennadi Procopciuc return ret; 13435300040bSGhennadi Procopciuc } 13445300040bSGhennadi Procopciuc 13455300040bSGhennadi Procopciuc static struct s32cc_clk_obj *get_module_parent(const struct s32cc_clk_obj *module); 13465300040bSGhennadi Procopciuc 13475300040bSGhennadi Procopciuc static int enable_module(struct s32cc_clk_obj *module, 13485300040bSGhennadi Procopciuc const struct s32cc_clk_drv *drv, 13495300040bSGhennadi Procopciuc unsigned int depth) 13505300040bSGhennadi Procopciuc { 13515300040bSGhennadi Procopciuc struct s32cc_clk_obj *parent = get_module_parent(module); 135263d536feSGhennadi Procopciuc static const enable_clk_t enable_clbs[13] = { 13535300040bSGhennadi Procopciuc [s32cc_clk_t] = no_enable, 13545300040bSGhennadi Procopciuc [s32cc_osc_t] = enable_osc, 13555300040bSGhennadi Procopciuc [s32cc_pll_t] = enable_pll, 13565300040bSGhennadi Procopciuc [s32cc_pll_out_div_t] = enable_pll_div, 13575300040bSGhennadi Procopciuc [s32cc_clkmux_t] = enable_mux, 13585300040bSGhennadi Procopciuc [s32cc_shared_clkmux_t] = enable_mux, 13595300040bSGhennadi Procopciuc [s32cc_dfs_t] = enable_dfs, 13605300040bSGhennadi Procopciuc [s32cc_dfs_div_t] = enable_dfs_div, 13618a4f840bSGhennadi Procopciuc [s32cc_part_t] = enable_part, 13628a4f840bSGhennadi Procopciuc [s32cc_part_block_t] = enable_part_block, 13638a4f840bSGhennadi Procopciuc [s32cc_part_block_link_t] = enable_part_block_link, 13642710bdadSGhennadi Procopciuc [s32cc_cgm_div_t] = enable_cgm_div, 13655300040bSGhennadi Procopciuc }; 13668ee0fc31SGhennadi Procopciuc unsigned int ldepth = depth; 13675300040bSGhennadi Procopciuc uint32_t index; 13685300040bSGhennadi Procopciuc int ret = 0; 13695300040bSGhennadi Procopciuc 13708ee0fc31SGhennadi Procopciuc ret = update_stack_depth(&ldepth); 13718ab34357SGhennadi Procopciuc if (ret != 0) { 13728ab34357SGhennadi Procopciuc return ret; 13738ab34357SGhennadi Procopciuc } 13748ab34357SGhennadi Procopciuc 13758ab34357SGhennadi Procopciuc if (drv == NULL) { 13768ab34357SGhennadi Procopciuc return -EINVAL; 13778ab34357SGhennadi Procopciuc } 13788ab34357SGhennadi Procopciuc 13795300040bSGhennadi Procopciuc index = (uint32_t)module->type; 13805300040bSGhennadi Procopciuc 13815300040bSGhennadi Procopciuc if (index >= ARRAY_SIZE(enable_clbs)) { 13825300040bSGhennadi Procopciuc ERROR("Undefined module type: %d\n", module->type); 13835300040bSGhennadi Procopciuc return -EINVAL; 13845300040bSGhennadi Procopciuc } 13855300040bSGhennadi Procopciuc 13865300040bSGhennadi Procopciuc if (enable_clbs[index] == NULL) { 13875300040bSGhennadi Procopciuc ERROR("Undefined callback for the clock type: %d\n", 13885300040bSGhennadi Procopciuc module->type); 13895300040bSGhennadi Procopciuc return -EINVAL; 13905300040bSGhennadi Procopciuc } 13915300040bSGhennadi Procopciuc 13925300040bSGhennadi Procopciuc parent = get_module_parent(module); 13935300040bSGhennadi Procopciuc 13945300040bSGhennadi Procopciuc ret = exec_cb_with_refcount(enable_module, parent, drv, 13958ee0fc31SGhennadi Procopciuc false, ldepth); 13965300040bSGhennadi Procopciuc if (ret != 0) { 13975300040bSGhennadi Procopciuc return ret; 13985300040bSGhennadi Procopciuc } 13995300040bSGhennadi Procopciuc 14005300040bSGhennadi Procopciuc ret = exec_cb_with_refcount(enable_clbs[index], module, drv, 14018ee0fc31SGhennadi Procopciuc true, ldepth); 14025300040bSGhennadi Procopciuc if (ret != 0) { 14035300040bSGhennadi Procopciuc return ret; 14048ab34357SGhennadi Procopciuc } 14058ab34357SGhennadi Procopciuc 14068ab34357SGhennadi Procopciuc return ret; 14078ab34357SGhennadi Procopciuc } 14088ab34357SGhennadi Procopciuc 14095300040bSGhennadi Procopciuc static int enable_module_with_refcount(struct s32cc_clk_obj *module, 14105300040bSGhennadi Procopciuc const struct s32cc_clk_drv *drv, 14115300040bSGhennadi Procopciuc unsigned int depth) 14125300040bSGhennadi Procopciuc { 14135300040bSGhennadi Procopciuc return exec_cb_with_refcount(enable_module, module, drv, false, depth); 14145300040bSGhennadi Procopciuc } 14155300040bSGhennadi Procopciuc 14163a580e9eSGhennadi Procopciuc static int s32cc_clk_enable(unsigned long id) 14173a580e9eSGhennadi Procopciuc { 14185300040bSGhennadi Procopciuc const struct s32cc_clk_drv *drv = get_drv(); 14198ab34357SGhennadi Procopciuc unsigned int depth = MAX_STACK_DEPTH; 14205300040bSGhennadi Procopciuc struct s32cc_clk *clk; 14218ab34357SGhennadi Procopciuc 14228ab34357SGhennadi Procopciuc clk = s32cc_get_arch_clk(id); 14238ab34357SGhennadi Procopciuc if (clk == NULL) { 14248ab34357SGhennadi Procopciuc return -EINVAL; 14258ab34357SGhennadi Procopciuc } 14268ab34357SGhennadi Procopciuc 14275300040bSGhennadi Procopciuc return enable_module_with_refcount(&clk->desc, drv, depth); 14283a580e9eSGhennadi Procopciuc } 14293a580e9eSGhennadi Procopciuc 14303a580e9eSGhennadi Procopciuc static void s32cc_clk_disable(unsigned long id) 14313a580e9eSGhennadi Procopciuc { 14323a580e9eSGhennadi Procopciuc } 14333a580e9eSGhennadi Procopciuc 14343a580e9eSGhennadi Procopciuc static bool s32cc_clk_is_enabled(unsigned long id) 14353a580e9eSGhennadi Procopciuc { 14363a580e9eSGhennadi Procopciuc return false; 14373a580e9eSGhennadi Procopciuc } 14383a580e9eSGhennadi Procopciuc 1439d9373519SGhennadi Procopciuc static int set_osc_freq(const struct s32cc_clk_obj *module, unsigned long rate, 1440d9373519SGhennadi Procopciuc unsigned long *orate, unsigned int *depth) 1441d9373519SGhennadi Procopciuc { 1442d9373519SGhennadi Procopciuc struct s32cc_osc *osc = s32cc_obj2osc(module); 1443d9373519SGhennadi Procopciuc int ret; 1444d9373519SGhennadi Procopciuc 1445d9373519SGhennadi Procopciuc ret = update_stack_depth(depth); 1446d9373519SGhennadi Procopciuc if (ret != 0) { 1447d9373519SGhennadi Procopciuc return ret; 1448d9373519SGhennadi Procopciuc } 1449d9373519SGhennadi Procopciuc 1450d9373519SGhennadi Procopciuc if ((osc->freq != 0UL) && (rate != osc->freq)) { 1451d9373519SGhennadi Procopciuc ERROR("Already initialized oscillator. freq = %lu\n", 1452d9373519SGhennadi Procopciuc osc->freq); 1453d9373519SGhennadi Procopciuc return -EINVAL; 1454d9373519SGhennadi Procopciuc } 1455d9373519SGhennadi Procopciuc 1456d9373519SGhennadi Procopciuc osc->freq = rate; 1457d9373519SGhennadi Procopciuc *orate = osc->freq; 1458d9373519SGhennadi Procopciuc 1459d9373519SGhennadi Procopciuc return 0; 1460d9373519SGhennadi Procopciuc } 1461d9373519SGhennadi Procopciuc 1462bd691136SGhennadi Procopciuc static int get_osc_freq(const struct s32cc_clk_obj *module, 1463bd691136SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 1464bd691136SGhennadi Procopciuc unsigned long *rate, unsigned int depth) 1465bd691136SGhennadi Procopciuc { 1466bd691136SGhennadi Procopciuc const struct s32cc_osc *osc = s32cc_obj2osc(module); 1467bd691136SGhennadi Procopciuc unsigned int ldepth = depth; 1468bd691136SGhennadi Procopciuc int ret; 1469bd691136SGhennadi Procopciuc 1470bd691136SGhennadi Procopciuc ret = update_stack_depth(&ldepth); 1471bd691136SGhennadi Procopciuc if (ret != 0) { 1472bd691136SGhennadi Procopciuc return ret; 1473bd691136SGhennadi Procopciuc } 1474bd691136SGhennadi Procopciuc 1475bd691136SGhennadi Procopciuc if (osc->freq == 0UL) { 1476bd691136SGhennadi Procopciuc ERROR("Uninitialized oscillator\n"); 1477bd691136SGhennadi Procopciuc return -EINVAL; 1478bd691136SGhennadi Procopciuc } 1479bd691136SGhennadi Procopciuc 1480bd691136SGhennadi Procopciuc *rate = osc->freq; 1481bd691136SGhennadi Procopciuc 1482bd691136SGhennadi Procopciuc return 0; 1483bd691136SGhennadi Procopciuc } 1484bd691136SGhennadi Procopciuc 1485d9373519SGhennadi Procopciuc static int set_clk_freq(const struct s32cc_clk_obj *module, unsigned long rate, 1486d9373519SGhennadi Procopciuc unsigned long *orate, unsigned int *depth) 1487d9373519SGhennadi Procopciuc { 1488d9373519SGhennadi Procopciuc const struct s32cc_clk *clk = s32cc_obj2clk(module); 1489d9373519SGhennadi Procopciuc int ret; 1490d9373519SGhennadi Procopciuc 1491d9373519SGhennadi Procopciuc ret = update_stack_depth(depth); 1492d9373519SGhennadi Procopciuc if (ret != 0) { 1493d9373519SGhennadi Procopciuc return ret; 1494d9373519SGhennadi Procopciuc } 1495d9373519SGhennadi Procopciuc 1496d9373519SGhennadi Procopciuc if ((clk->min_freq != 0UL) && (clk->max_freq != 0UL) && 1497d9373519SGhennadi Procopciuc ((rate < clk->min_freq) || (rate > clk->max_freq))) { 1498d9373519SGhennadi Procopciuc ERROR("%lu frequency is out of the allowed range: [%lu:%lu]\n", 1499d9373519SGhennadi Procopciuc rate, clk->min_freq, clk->max_freq); 1500d9373519SGhennadi Procopciuc return -EINVAL; 1501d9373519SGhennadi Procopciuc } 1502d9373519SGhennadi Procopciuc 1503d9373519SGhennadi Procopciuc if (clk->module != NULL) { 1504d9373519SGhennadi Procopciuc return set_module_rate(clk->module, rate, orate, depth); 1505d9373519SGhennadi Procopciuc } 1506d9373519SGhennadi Procopciuc 1507d9373519SGhennadi Procopciuc if (clk->pclock != NULL) { 1508d9373519SGhennadi Procopciuc return set_clk_freq(&clk->pclock->desc, rate, orate, depth); 1509d9373519SGhennadi Procopciuc } 1510d9373519SGhennadi Procopciuc 1511d9373519SGhennadi Procopciuc return -EINVAL; 1512d9373519SGhennadi Procopciuc } 1513d9373519SGhennadi Procopciuc 151446de0b9cSGhennadi Procopciuc static int get_clk_freq(const struct s32cc_clk_obj *module, 151546de0b9cSGhennadi Procopciuc const struct s32cc_clk_drv *drv, unsigned long *rate, 151646de0b9cSGhennadi Procopciuc unsigned int depth) 151746de0b9cSGhennadi Procopciuc { 151846de0b9cSGhennadi Procopciuc const struct s32cc_clk *clk = s32cc_obj2clk(module); 151946de0b9cSGhennadi Procopciuc unsigned int ldepth = depth; 152046de0b9cSGhennadi Procopciuc int ret; 152146de0b9cSGhennadi Procopciuc 152246de0b9cSGhennadi Procopciuc ret = update_stack_depth(&ldepth); 152346de0b9cSGhennadi Procopciuc if (ret != 0) { 152446de0b9cSGhennadi Procopciuc return ret; 152546de0b9cSGhennadi Procopciuc } 152646de0b9cSGhennadi Procopciuc 152746de0b9cSGhennadi Procopciuc if (clk == NULL) { 152846de0b9cSGhennadi Procopciuc ERROR("Invalid clock\n"); 152946de0b9cSGhennadi Procopciuc return -EINVAL; 153046de0b9cSGhennadi Procopciuc } 153146de0b9cSGhennadi Procopciuc 153246de0b9cSGhennadi Procopciuc if (clk->module != NULL) { 153346de0b9cSGhennadi Procopciuc return get_module_rate(clk->module, drv, rate, ldepth); 153446de0b9cSGhennadi Procopciuc } 153546de0b9cSGhennadi Procopciuc 153646de0b9cSGhennadi Procopciuc if (clk->pclock == NULL) { 153746de0b9cSGhennadi Procopciuc ERROR("Invalid clock parent\n"); 153846de0b9cSGhennadi Procopciuc return -EINVAL; 153946de0b9cSGhennadi Procopciuc } 154046de0b9cSGhennadi Procopciuc 154146de0b9cSGhennadi Procopciuc return get_clk_freq(&clk->pclock->desc, drv, rate, ldepth); 154246de0b9cSGhennadi Procopciuc } 154346de0b9cSGhennadi Procopciuc 15447ad4e231SGhennadi Procopciuc static int set_pll_freq(const struct s32cc_clk_obj *module, unsigned long rate, 15457ad4e231SGhennadi Procopciuc unsigned long *orate, unsigned int *depth) 15467ad4e231SGhennadi Procopciuc { 15477ad4e231SGhennadi Procopciuc struct s32cc_pll *pll = s32cc_obj2pll(module); 15487ad4e231SGhennadi Procopciuc int ret; 15497ad4e231SGhennadi Procopciuc 15507ad4e231SGhennadi Procopciuc ret = update_stack_depth(depth); 15517ad4e231SGhennadi Procopciuc if (ret != 0) { 15527ad4e231SGhennadi Procopciuc return ret; 15537ad4e231SGhennadi Procopciuc } 15547ad4e231SGhennadi Procopciuc 15557ad4e231SGhennadi Procopciuc if ((pll->vco_freq != 0UL) && (pll->vco_freq != rate)) { 15567ad4e231SGhennadi Procopciuc ERROR("PLL frequency was already set\n"); 15577ad4e231SGhennadi Procopciuc return -EINVAL; 15587ad4e231SGhennadi Procopciuc } 15597ad4e231SGhennadi Procopciuc 15607ad4e231SGhennadi Procopciuc pll->vco_freq = rate; 15617ad4e231SGhennadi Procopciuc *orate = pll->vco_freq; 15627ad4e231SGhennadi Procopciuc 15637ad4e231SGhennadi Procopciuc return 0; 15647ad4e231SGhennadi Procopciuc } 15657ad4e231SGhennadi Procopciuc 1566fbebafa5SGhennadi Procopciuc static int get_pll_freq(const struct s32cc_clk_obj *module, 1567fbebafa5SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 1568fbebafa5SGhennadi Procopciuc unsigned long *rate, unsigned int depth) 1569fbebafa5SGhennadi Procopciuc { 1570fbebafa5SGhennadi Procopciuc const struct s32cc_pll *pll = s32cc_obj2pll(module); 1571fbebafa5SGhennadi Procopciuc const struct s32cc_clk *source; 1572fbebafa5SGhennadi Procopciuc uint32_t mfi, mfn, rdiv, plldv; 1573fbebafa5SGhennadi Procopciuc unsigned long prate, clk_src; 1574fbebafa5SGhennadi Procopciuc unsigned int ldepth = depth; 1575fbebafa5SGhennadi Procopciuc uintptr_t pll_addr = 0UL; 1576fbebafa5SGhennadi Procopciuc uint64_t t1, t2; 1577fbebafa5SGhennadi Procopciuc int ret; 1578fbebafa5SGhennadi Procopciuc 1579fbebafa5SGhennadi Procopciuc ret = update_stack_depth(&ldepth); 1580fbebafa5SGhennadi Procopciuc if (ret != 0) { 1581fbebafa5SGhennadi Procopciuc return ret; 1582fbebafa5SGhennadi Procopciuc } 1583fbebafa5SGhennadi Procopciuc 1584fbebafa5SGhennadi Procopciuc ret = get_base_addr(pll->instance, drv, &pll_addr); 1585fbebafa5SGhennadi Procopciuc if (ret != 0) { 1586fbebafa5SGhennadi Procopciuc ERROR("Failed to detect PLL instance\n"); 1587fbebafa5SGhennadi Procopciuc return ret; 1588fbebafa5SGhennadi Procopciuc } 1589fbebafa5SGhennadi Procopciuc 1590fbebafa5SGhennadi Procopciuc /* Disabled PLL */ 1591c23dde6cSGhennadi Procopciuc if (!is_pll_enabled(pll_addr)) { 1592fbebafa5SGhennadi Procopciuc *rate = pll->vco_freq; 1593fbebafa5SGhennadi Procopciuc return 0; 1594fbebafa5SGhennadi Procopciuc } 1595fbebafa5SGhennadi Procopciuc 1596fbebafa5SGhennadi Procopciuc clk_src = mmio_read_32(PLLDIG_PLLCLKMUX(pll_addr)); 1597fbebafa5SGhennadi Procopciuc switch (clk_src) { 1598fbebafa5SGhennadi Procopciuc case 0: 1599fbebafa5SGhennadi Procopciuc clk_src = S32CC_CLK_FIRC; 1600fbebafa5SGhennadi Procopciuc break; 1601fbebafa5SGhennadi Procopciuc case 1: 1602fbebafa5SGhennadi Procopciuc clk_src = S32CC_CLK_FXOSC; 1603fbebafa5SGhennadi Procopciuc break; 1604fbebafa5SGhennadi Procopciuc default: 1605fbebafa5SGhennadi Procopciuc ERROR("Failed to identify PLL source id %" PRIu64 "\n", clk_src); 1606fbebafa5SGhennadi Procopciuc return -EINVAL; 1607fbebafa5SGhennadi Procopciuc }; 1608fbebafa5SGhennadi Procopciuc 1609fbebafa5SGhennadi Procopciuc source = s32cc_get_arch_clk(clk_src); 1610fbebafa5SGhennadi Procopciuc if (source == NULL) { 1611fbebafa5SGhennadi Procopciuc ERROR("Failed to get PLL source clock\n"); 1612fbebafa5SGhennadi Procopciuc return -EINVAL; 1613fbebafa5SGhennadi Procopciuc } 1614fbebafa5SGhennadi Procopciuc 1615fbebafa5SGhennadi Procopciuc ret = get_module_rate(&source->desc, drv, &prate, ldepth); 1616fbebafa5SGhennadi Procopciuc if (ret != 0) { 1617fbebafa5SGhennadi Procopciuc ERROR("Failed to get PLL's parent frequency\n"); 1618fbebafa5SGhennadi Procopciuc return ret; 1619fbebafa5SGhennadi Procopciuc } 1620fbebafa5SGhennadi Procopciuc 1621fbebafa5SGhennadi Procopciuc plldv = mmio_read_32(PLLDIG_PLLDV(pll_addr)); 1622fbebafa5SGhennadi Procopciuc mfi = PLLDIG_PLLDV_MFI(plldv); 1623fbebafa5SGhennadi Procopciuc rdiv = PLLDIG_PLLDV_RDIV(plldv); 1624fbebafa5SGhennadi Procopciuc if (rdiv == 0U) { 1625fbebafa5SGhennadi Procopciuc rdiv = 1; 1626fbebafa5SGhennadi Procopciuc } 1627fbebafa5SGhennadi Procopciuc 1628fbebafa5SGhennadi Procopciuc /* Frac-N mode */ 1629fbebafa5SGhennadi Procopciuc mfn = PLLDIG_PLLFD_MFN_SET(mmio_read_32(PLLDIG_PLLFD(pll_addr))); 1630fbebafa5SGhennadi Procopciuc 1631fbebafa5SGhennadi Procopciuc /* PLL VCO frequency in Fractional mode when PLLDV[RDIV] is not 0 */ 1632fbebafa5SGhennadi Procopciuc t1 = prate / rdiv; 1633fbebafa5SGhennadi Procopciuc t2 = (mfi * FP_PRECISION) + (mfn * FP_PRECISION / 18432U); 1634fbebafa5SGhennadi Procopciuc 1635fbebafa5SGhennadi Procopciuc *rate = t1 * t2 / FP_PRECISION; 1636fbebafa5SGhennadi Procopciuc 1637fbebafa5SGhennadi Procopciuc return 0; 1638fbebafa5SGhennadi Procopciuc } 1639fbebafa5SGhennadi Procopciuc 1640de950ef0SGhennadi Procopciuc static int set_pll_div_freq(const struct s32cc_clk_obj *module, unsigned long rate, 1641de950ef0SGhennadi Procopciuc unsigned long *orate, unsigned int *depth) 1642de950ef0SGhennadi Procopciuc { 1643de950ef0SGhennadi Procopciuc struct s32cc_pll_out_div *pdiv = s32cc_obj2plldiv(module); 1644de950ef0SGhennadi Procopciuc const struct s32cc_pll *pll; 1645de950ef0SGhennadi Procopciuc unsigned long prate, dc; 1646de950ef0SGhennadi Procopciuc int ret; 1647de950ef0SGhennadi Procopciuc 1648de950ef0SGhennadi Procopciuc ret = update_stack_depth(depth); 1649de950ef0SGhennadi Procopciuc if (ret != 0) { 1650de950ef0SGhennadi Procopciuc return ret; 1651de950ef0SGhennadi Procopciuc } 1652de950ef0SGhennadi Procopciuc 1653de950ef0SGhennadi Procopciuc if (pdiv->parent == NULL) { 1654de950ef0SGhennadi Procopciuc ERROR("Failed to identify PLL divider's parent\n"); 1655de950ef0SGhennadi Procopciuc return -EINVAL; 1656de950ef0SGhennadi Procopciuc } 1657de950ef0SGhennadi Procopciuc 1658de950ef0SGhennadi Procopciuc pll = s32cc_obj2pll(pdiv->parent); 1659de950ef0SGhennadi Procopciuc if (pll == NULL) { 1660de950ef0SGhennadi Procopciuc ERROR("The parent of the PLL DIV is invalid\n"); 1661de950ef0SGhennadi Procopciuc return -EINVAL; 1662de950ef0SGhennadi Procopciuc } 1663de950ef0SGhennadi Procopciuc 1664de950ef0SGhennadi Procopciuc prate = pll->vco_freq; 1665de950ef0SGhennadi Procopciuc 1666de950ef0SGhennadi Procopciuc /** 1667de950ef0SGhennadi Procopciuc * The PLL is not initialized yet, so let's take a risk 1668de950ef0SGhennadi Procopciuc * and accept the proposed rate. 1669de950ef0SGhennadi Procopciuc */ 1670de950ef0SGhennadi Procopciuc if (prate == 0UL) { 1671de950ef0SGhennadi Procopciuc pdiv->freq = rate; 1672de950ef0SGhennadi Procopciuc *orate = rate; 1673de950ef0SGhennadi Procopciuc return 0; 1674de950ef0SGhennadi Procopciuc } 1675de950ef0SGhennadi Procopciuc 1676de950ef0SGhennadi Procopciuc /* Decline in case the rate cannot fit PLL's requirements. */ 1677de950ef0SGhennadi Procopciuc dc = prate / rate; 1678de950ef0SGhennadi Procopciuc if ((prate / dc) != rate) { 1679de950ef0SGhennadi Procopciuc return -EINVAL; 1680de950ef0SGhennadi Procopciuc } 1681de950ef0SGhennadi Procopciuc 1682de950ef0SGhennadi Procopciuc pdiv->freq = rate; 1683de950ef0SGhennadi Procopciuc *orate = pdiv->freq; 1684de950ef0SGhennadi Procopciuc 1685de950ef0SGhennadi Procopciuc return 0; 1686de950ef0SGhennadi Procopciuc } 1687de950ef0SGhennadi Procopciuc 1688a762c505SGhennadi Procopciuc static int get_pll_div_freq(const struct s32cc_clk_obj *module, 1689a762c505SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 1690a762c505SGhennadi Procopciuc unsigned long *rate, unsigned int depth) 1691a762c505SGhennadi Procopciuc { 1692a762c505SGhennadi Procopciuc const struct s32cc_pll_out_div *pdiv = s32cc_obj2plldiv(module); 1693a762c505SGhennadi Procopciuc const struct s32cc_pll *pll; 1694a762c505SGhennadi Procopciuc unsigned int ldepth = depth; 1695a762c505SGhennadi Procopciuc uintptr_t pll_addr = 0UL; 1696a762c505SGhennadi Procopciuc unsigned long pfreq; 1697a762c505SGhennadi Procopciuc uint32_t pllodiv; 1698a762c505SGhennadi Procopciuc uint32_t dc; 1699a762c505SGhennadi Procopciuc int ret; 1700a762c505SGhennadi Procopciuc 1701a762c505SGhennadi Procopciuc ret = update_stack_depth(&ldepth); 1702a762c505SGhennadi Procopciuc if (ret != 0) { 1703a762c505SGhennadi Procopciuc return ret; 1704a762c505SGhennadi Procopciuc } 1705a762c505SGhennadi Procopciuc 1706a762c505SGhennadi Procopciuc pll = get_div_pll(pdiv); 1707a762c505SGhennadi Procopciuc if (pll == NULL) { 1708a762c505SGhennadi Procopciuc ERROR("The parent of the PLL DIV is invalid\n"); 1709a762c505SGhennadi Procopciuc return -EINVAL; 1710a762c505SGhennadi Procopciuc } 1711a762c505SGhennadi Procopciuc 1712a762c505SGhennadi Procopciuc ret = get_base_addr(pll->instance, drv, &pll_addr); 1713a762c505SGhennadi Procopciuc if (ret != 0) { 1714a762c505SGhennadi Procopciuc ERROR("Failed to detect PLL instance\n"); 1715a762c505SGhennadi Procopciuc return -EINVAL; 1716a762c505SGhennadi Procopciuc } 1717a762c505SGhennadi Procopciuc 1718a762c505SGhennadi Procopciuc ret = get_module_rate(pdiv->parent, drv, &pfreq, ldepth); 1719a762c505SGhennadi Procopciuc if (ret != 0) { 1720a762c505SGhennadi Procopciuc ERROR("Failed to get the frequency of PLL %" PRIxPTR "\n", 1721a762c505SGhennadi Procopciuc pll_addr); 1722a762c505SGhennadi Procopciuc return ret; 1723a762c505SGhennadi Procopciuc } 1724a762c505SGhennadi Procopciuc 1725a762c505SGhennadi Procopciuc pllodiv = mmio_read_32(PLLDIG_PLLODIV(pll_addr, pdiv->index)); 1726a762c505SGhennadi Procopciuc 1727a762c505SGhennadi Procopciuc /* Disabled module */ 1728a762c505SGhennadi Procopciuc if ((pllodiv & PLLDIG_PLLODIV_DE) == 0U) { 1729a762c505SGhennadi Procopciuc *rate = pdiv->freq; 1730a762c505SGhennadi Procopciuc return 0; 1731a762c505SGhennadi Procopciuc } 1732a762c505SGhennadi Procopciuc 1733a762c505SGhennadi Procopciuc dc = PLLDIG_PLLODIV_DIV(pllodiv); 1734a762c505SGhennadi Procopciuc *rate = (pfreq * FP_PRECISION) / (dc + 1U) / FP_PRECISION; 1735a762c505SGhennadi Procopciuc 1736a762c505SGhennadi Procopciuc return 0; 1737a762c505SGhennadi Procopciuc } 1738a762c505SGhennadi Procopciuc 173965739db2SGhennadi Procopciuc static int set_fixed_div_freq(const struct s32cc_clk_obj *module, unsigned long rate, 174065739db2SGhennadi Procopciuc unsigned long *orate, unsigned int *depth) 174165739db2SGhennadi Procopciuc { 174265739db2SGhennadi Procopciuc const struct s32cc_fixed_div *fdiv = s32cc_obj2fixeddiv(module); 174365739db2SGhennadi Procopciuc int ret; 174465739db2SGhennadi Procopciuc 174565739db2SGhennadi Procopciuc ret = update_stack_depth(depth); 174665739db2SGhennadi Procopciuc if (ret != 0) { 174765739db2SGhennadi Procopciuc return ret; 174865739db2SGhennadi Procopciuc } 174965739db2SGhennadi Procopciuc 175065739db2SGhennadi Procopciuc if (fdiv->parent == NULL) { 175165739db2SGhennadi Procopciuc ERROR("The divider doesn't have a valid parent\b"); 175265739db2SGhennadi Procopciuc return -EINVAL; 175365739db2SGhennadi Procopciuc } 175465739db2SGhennadi Procopciuc 175565739db2SGhennadi Procopciuc ret = set_module_rate(fdiv->parent, rate * fdiv->rate_div, orate, depth); 175665739db2SGhennadi Procopciuc 175765739db2SGhennadi Procopciuc /* Update the output rate based on the parent's rate */ 175865739db2SGhennadi Procopciuc *orate /= fdiv->rate_div; 175965739db2SGhennadi Procopciuc 176065739db2SGhennadi Procopciuc return ret; 176165739db2SGhennadi Procopciuc } 176265739db2SGhennadi Procopciuc 17637c298ebcSGhennadi Procopciuc static int get_fixed_div_freq(const struct s32cc_clk_obj *module, 17647c298ebcSGhennadi Procopciuc const struct s32cc_clk_drv *drv, 17657c298ebcSGhennadi Procopciuc unsigned long *rate, unsigned int depth) 17667c298ebcSGhennadi Procopciuc { 17677c298ebcSGhennadi Procopciuc const struct s32cc_fixed_div *fdiv = s32cc_obj2fixeddiv(module); 17687c298ebcSGhennadi Procopciuc unsigned long pfreq; 17697c298ebcSGhennadi Procopciuc int ret; 17707c298ebcSGhennadi Procopciuc 17717c298ebcSGhennadi Procopciuc ret = get_module_rate(fdiv->parent, drv, &pfreq, depth); 17727c298ebcSGhennadi Procopciuc if (ret != 0) { 17737c298ebcSGhennadi Procopciuc return ret; 17747c298ebcSGhennadi Procopciuc } 17757c298ebcSGhennadi Procopciuc 17767c298ebcSGhennadi Procopciuc *rate = (pfreq * FP_PRECISION / fdiv->rate_div) / FP_PRECISION; 17777c298ebcSGhennadi Procopciuc return 0; 17787c298ebcSGhennadi Procopciuc } 17797c298ebcSGhennadi Procopciuc 178035988a9dSGhennadi Procopciuc static inline struct s32cc_clk_obj *get_fixed_div_parent(const struct s32cc_clk_obj *module) 178135988a9dSGhennadi Procopciuc { 178235988a9dSGhennadi Procopciuc const struct s32cc_fixed_div *fdiv = s32cc_obj2fixeddiv(module); 178335988a9dSGhennadi Procopciuc 178435988a9dSGhennadi Procopciuc return fdiv->parent; 178535988a9dSGhennadi Procopciuc } 178635988a9dSGhennadi Procopciuc 178764e0c226SGhennadi Procopciuc static int set_mux_freq(const struct s32cc_clk_obj *module, unsigned long rate, 178864e0c226SGhennadi Procopciuc unsigned long *orate, unsigned int *depth) 178964e0c226SGhennadi Procopciuc { 179064e0c226SGhennadi Procopciuc const struct s32cc_clkmux *mux = s32cc_obj2clkmux(module); 179164e0c226SGhennadi Procopciuc const struct s32cc_clk *clk = s32cc_get_arch_clk(mux->source_id); 179264e0c226SGhennadi Procopciuc int ret; 179364e0c226SGhennadi Procopciuc 179464e0c226SGhennadi Procopciuc ret = update_stack_depth(depth); 179564e0c226SGhennadi Procopciuc if (ret != 0) { 179664e0c226SGhennadi Procopciuc return ret; 179764e0c226SGhennadi Procopciuc } 179864e0c226SGhennadi Procopciuc 179964e0c226SGhennadi Procopciuc if (clk == NULL) { 180064e0c226SGhennadi Procopciuc ERROR("Mux (id:%" PRIu8 ") without a valid source (%lu)\n", 180164e0c226SGhennadi Procopciuc mux->index, mux->source_id); 180264e0c226SGhennadi Procopciuc return -EINVAL; 180364e0c226SGhennadi Procopciuc } 180464e0c226SGhennadi Procopciuc 180564e0c226SGhennadi Procopciuc return set_module_rate(&clk->desc, rate, orate, depth); 180664e0c226SGhennadi Procopciuc } 180764e0c226SGhennadi Procopciuc 1808d1567da6SGhennadi Procopciuc static int get_mux_freq(const struct s32cc_clk_obj *module, 1809d1567da6SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 1810d1567da6SGhennadi Procopciuc unsigned long *rate, unsigned int depth) 1811d1567da6SGhennadi Procopciuc { 1812d1567da6SGhennadi Procopciuc const struct s32cc_clkmux *mux = s32cc_obj2clkmux(module); 1813d1567da6SGhennadi Procopciuc const struct s32cc_clk *clk = s32cc_get_arch_clk(mux->source_id); 1814d1567da6SGhennadi Procopciuc unsigned int ldepth = depth; 1815d1567da6SGhennadi Procopciuc int ret; 1816d1567da6SGhennadi Procopciuc 1817d1567da6SGhennadi Procopciuc ret = update_stack_depth(&ldepth); 1818d1567da6SGhennadi Procopciuc if (ret != 0) { 1819d1567da6SGhennadi Procopciuc return ret; 1820d1567da6SGhennadi Procopciuc } 1821d1567da6SGhennadi Procopciuc 1822d1567da6SGhennadi Procopciuc if (clk == NULL) { 1823d1567da6SGhennadi Procopciuc ERROR("Mux (id:%" PRIu8 ") without a valid source (%lu)\n", 1824d1567da6SGhennadi Procopciuc mux->index, mux->source_id); 1825d1567da6SGhennadi Procopciuc return -EINVAL; 1826d1567da6SGhennadi Procopciuc } 1827d1567da6SGhennadi Procopciuc 1828d1567da6SGhennadi Procopciuc return get_clk_freq(&clk->desc, drv, rate, ldepth); 1829d1567da6SGhennadi Procopciuc } 1830d1567da6SGhennadi Procopciuc 18314cd04c50SGhennadi Procopciuc static int set_dfs_div_freq(const struct s32cc_clk_obj *module, unsigned long rate, 18324cd04c50SGhennadi Procopciuc unsigned long *orate, unsigned int *depth) 18334cd04c50SGhennadi Procopciuc { 18344cd04c50SGhennadi Procopciuc struct s32cc_dfs_div *dfs_div = s32cc_obj2dfsdiv(module); 18354cd04c50SGhennadi Procopciuc const struct s32cc_dfs *dfs; 18364cd04c50SGhennadi Procopciuc int ret; 18374cd04c50SGhennadi Procopciuc 18384cd04c50SGhennadi Procopciuc ret = update_stack_depth(depth); 18394cd04c50SGhennadi Procopciuc if (ret != 0) { 18404cd04c50SGhennadi Procopciuc return ret; 18414cd04c50SGhennadi Procopciuc } 18424cd04c50SGhennadi Procopciuc 18434cd04c50SGhennadi Procopciuc if (dfs_div->parent == NULL) { 18444cd04c50SGhennadi Procopciuc ERROR("Failed to identify DFS divider's parent\n"); 18454cd04c50SGhennadi Procopciuc return -EINVAL; 18464cd04c50SGhennadi Procopciuc } 18474cd04c50SGhennadi Procopciuc 18484cd04c50SGhennadi Procopciuc /* Sanity check */ 18494cd04c50SGhennadi Procopciuc dfs = s32cc_obj2dfs(dfs_div->parent); 18504cd04c50SGhennadi Procopciuc if (dfs->parent == NULL) { 18514cd04c50SGhennadi Procopciuc ERROR("Failed to identify DFS's parent\n"); 18524cd04c50SGhennadi Procopciuc return -EINVAL; 18534cd04c50SGhennadi Procopciuc } 18544cd04c50SGhennadi Procopciuc 18554cd04c50SGhennadi Procopciuc if ((dfs_div->freq != 0U) && (dfs_div->freq != rate)) { 18564cd04c50SGhennadi Procopciuc ERROR("DFS DIV frequency was already set to %lu\n", 18574cd04c50SGhennadi Procopciuc dfs_div->freq); 18584cd04c50SGhennadi Procopciuc return -EINVAL; 18594cd04c50SGhennadi Procopciuc } 18604cd04c50SGhennadi Procopciuc 18614cd04c50SGhennadi Procopciuc dfs_div->freq = rate; 18624cd04c50SGhennadi Procopciuc *orate = rate; 18634cd04c50SGhennadi Procopciuc 18644cd04c50SGhennadi Procopciuc return ret; 18654cd04c50SGhennadi Procopciuc } 18664cd04c50SGhennadi Procopciuc 18678f23e76fSGhennadi Procopciuc static unsigned long compute_dfs_div_freq(unsigned long pfreq, uint32_t mfi, uint32_t mfn) 18688f23e76fSGhennadi Procopciuc { 18698f23e76fSGhennadi Procopciuc unsigned long freq; 18708f23e76fSGhennadi Procopciuc 18718f23e76fSGhennadi Procopciuc /** 18728f23e76fSGhennadi Procopciuc * Formula for input and output clocks of each port divider. 18738f23e76fSGhennadi Procopciuc * See 'Digital Frequency Synthesizer' chapter from Reference Manual. 18748f23e76fSGhennadi Procopciuc * 18758f23e76fSGhennadi Procopciuc * freq = pfreq / (2 * (mfi + mfn / 36.0)); 18768f23e76fSGhennadi Procopciuc */ 18778f23e76fSGhennadi Procopciuc freq = (mfi * FP_PRECISION) + (mfn * FP_PRECISION / 36UL); 18788f23e76fSGhennadi Procopciuc freq *= 2UL; 18798f23e76fSGhennadi Procopciuc freq = pfreq * FP_PRECISION / freq; 18808f23e76fSGhennadi Procopciuc 18818f23e76fSGhennadi Procopciuc return freq; 18828f23e76fSGhennadi Procopciuc } 18838f23e76fSGhennadi Procopciuc 18848f23e76fSGhennadi Procopciuc static int get_dfs_div_freq(const struct s32cc_clk_obj *module, 18858f23e76fSGhennadi Procopciuc const struct s32cc_clk_drv *drv, 18868f23e76fSGhennadi Procopciuc unsigned long *rate, unsigned int depth) 18878f23e76fSGhennadi Procopciuc { 18888f23e76fSGhennadi Procopciuc const struct s32cc_dfs_div *dfs_div = s32cc_obj2dfsdiv(module); 18898f23e76fSGhennadi Procopciuc unsigned int ldepth = depth; 18908f23e76fSGhennadi Procopciuc const struct s32cc_dfs *dfs; 18918f23e76fSGhennadi Procopciuc uint32_t dvport, mfi, mfn; 18928f23e76fSGhennadi Procopciuc uintptr_t dfs_addr = 0UL; 18938f23e76fSGhennadi Procopciuc unsigned long pfreq; 18948f23e76fSGhennadi Procopciuc int ret; 18958f23e76fSGhennadi Procopciuc 18968f23e76fSGhennadi Procopciuc ret = update_stack_depth(&ldepth); 18978f23e76fSGhennadi Procopciuc if (ret != 0) { 18988f23e76fSGhennadi Procopciuc return ret; 18998f23e76fSGhennadi Procopciuc } 19008f23e76fSGhennadi Procopciuc 19018f23e76fSGhennadi Procopciuc dfs = get_div_dfs(dfs_div); 19028f23e76fSGhennadi Procopciuc if (dfs == NULL) { 19038f23e76fSGhennadi Procopciuc return -EINVAL; 19048f23e76fSGhennadi Procopciuc } 19058f23e76fSGhennadi Procopciuc 19068f23e76fSGhennadi Procopciuc ret = get_module_rate(dfs_div->parent, drv, &pfreq, ldepth); 19078f23e76fSGhennadi Procopciuc if (ret != 0) { 19088f23e76fSGhennadi Procopciuc return ret; 19098f23e76fSGhennadi Procopciuc } 19108f23e76fSGhennadi Procopciuc 19118f23e76fSGhennadi Procopciuc ret = get_base_addr(dfs->instance, drv, &dfs_addr); 19128f23e76fSGhennadi Procopciuc if (ret != 0) { 19138f23e76fSGhennadi Procopciuc ERROR("Failed to detect the DFS instance\n"); 19148f23e76fSGhennadi Procopciuc return ret; 19158f23e76fSGhennadi Procopciuc } 19168f23e76fSGhennadi Procopciuc 19178f23e76fSGhennadi Procopciuc dvport = mmio_read_32(DFS_DVPORTn(dfs_addr, dfs_div->index)); 19188f23e76fSGhennadi Procopciuc 19198f23e76fSGhennadi Procopciuc mfi = DFS_DVPORTn_MFI(dvport); 19208f23e76fSGhennadi Procopciuc mfn = DFS_DVPORTn_MFN(dvport); 19218f23e76fSGhennadi Procopciuc 19228f23e76fSGhennadi Procopciuc /* Disabled port */ 19238f23e76fSGhennadi Procopciuc if ((mfi == 0U) && (mfn == 0U)) { 19248f23e76fSGhennadi Procopciuc *rate = dfs_div->freq; 19258f23e76fSGhennadi Procopciuc return 0; 19268f23e76fSGhennadi Procopciuc } 19278f23e76fSGhennadi Procopciuc 19288f23e76fSGhennadi Procopciuc *rate = compute_dfs_div_freq(pfreq, mfi, mfn); 19298f23e76fSGhennadi Procopciuc return 0; 19308f23e76fSGhennadi Procopciuc } 19318f23e76fSGhennadi Procopciuc 19328501b1fcSGhennadi Procopciuc static int set_part_block_link_freq(const struct s32cc_clk_obj *module, 19338501b1fcSGhennadi Procopciuc unsigned long rate, unsigned long *orate, 19348501b1fcSGhennadi Procopciuc const unsigned int *depth) 19358501b1fcSGhennadi Procopciuc { 19368501b1fcSGhennadi Procopciuc const struct s32cc_part_block_link *link = s32cc_obj2partblocklink(module); 19378501b1fcSGhennadi Procopciuc const struct s32cc_clk_obj *parent = link->parent; 19388501b1fcSGhennadi Procopciuc unsigned int ldepth = *depth; 19398501b1fcSGhennadi Procopciuc int ret; 19408501b1fcSGhennadi Procopciuc 19418501b1fcSGhennadi Procopciuc ret = update_stack_depth(&ldepth); 19428501b1fcSGhennadi Procopciuc if (ret != 0) { 19438501b1fcSGhennadi Procopciuc return ret; 19448501b1fcSGhennadi Procopciuc } 19458501b1fcSGhennadi Procopciuc 19468501b1fcSGhennadi Procopciuc if (parent == NULL) { 19478501b1fcSGhennadi Procopciuc ERROR("Partition block link with no parent\n"); 19488501b1fcSGhennadi Procopciuc return -EINVAL; 19498501b1fcSGhennadi Procopciuc } 19508501b1fcSGhennadi Procopciuc 19518501b1fcSGhennadi Procopciuc return set_module_rate(parent, rate, orate, &ldepth); 19528501b1fcSGhennadi Procopciuc } 19538501b1fcSGhennadi Procopciuc 1954d9373519SGhennadi Procopciuc static int set_module_rate(const struct s32cc_clk_obj *module, 1955d9373519SGhennadi Procopciuc unsigned long rate, unsigned long *orate, 1956d9373519SGhennadi Procopciuc unsigned int *depth) 1957d9373519SGhennadi Procopciuc { 1958d9373519SGhennadi Procopciuc int ret = 0; 1959d9373519SGhennadi Procopciuc 1960d9373519SGhennadi Procopciuc ret = update_stack_depth(depth); 1961d9373519SGhennadi Procopciuc if (ret != 0) { 1962d9373519SGhennadi Procopciuc return ret; 1963d9373519SGhennadi Procopciuc } 1964d9373519SGhennadi Procopciuc 19654cd04c50SGhennadi Procopciuc ret = -EINVAL; 19664cd04c50SGhennadi Procopciuc 1967d9373519SGhennadi Procopciuc switch (module->type) { 1968d9373519SGhennadi Procopciuc case s32cc_clk_t: 1969d9373519SGhennadi Procopciuc ret = set_clk_freq(module, rate, orate, depth); 1970d9373519SGhennadi Procopciuc break; 1971d9373519SGhennadi Procopciuc case s32cc_osc_t: 1972d9373519SGhennadi Procopciuc ret = set_osc_freq(module, rate, orate, depth); 1973d9373519SGhennadi Procopciuc break; 19747ad4e231SGhennadi Procopciuc case s32cc_pll_t: 19757ad4e231SGhennadi Procopciuc ret = set_pll_freq(module, rate, orate, depth); 19767ad4e231SGhennadi Procopciuc break; 1977de950ef0SGhennadi Procopciuc case s32cc_pll_out_div_t: 1978de950ef0SGhennadi Procopciuc ret = set_pll_div_freq(module, rate, orate, depth); 1979de950ef0SGhennadi Procopciuc break; 198065739db2SGhennadi Procopciuc case s32cc_fixed_div_t: 198165739db2SGhennadi Procopciuc ret = set_fixed_div_freq(module, rate, orate, depth); 198265739db2SGhennadi Procopciuc break; 1983a8be748aSGhennadi Procopciuc case s32cc_clkmux_t: 198464e0c226SGhennadi Procopciuc ret = set_mux_freq(module, rate, orate, depth); 198564e0c226SGhennadi Procopciuc break; 19863fa91a94SGhennadi Procopciuc case s32cc_shared_clkmux_t: 198764e0c226SGhennadi Procopciuc ret = set_mux_freq(module, rate, orate, depth); 1988a8be748aSGhennadi Procopciuc break; 1989f99078a6SGhennadi Procopciuc case s32cc_cgm_div_t: 1990f99078a6SGhennadi Procopciuc ret = set_cgm_div_freq(module, rate, orate, depth); 1991f99078a6SGhennadi Procopciuc break; 19924cd04c50SGhennadi Procopciuc case s32cc_dfs_t: 19934cd04c50SGhennadi Procopciuc ERROR("Setting the frequency of a DFS is not allowed!"); 19944cd04c50SGhennadi Procopciuc break; 19954cd04c50SGhennadi Procopciuc case s32cc_dfs_div_t: 19964cd04c50SGhennadi Procopciuc ret = set_dfs_div_freq(module, rate, orate, depth); 19974cd04c50SGhennadi Procopciuc break; 19988501b1fcSGhennadi Procopciuc case s32cc_part_block_link_t: 19998501b1fcSGhennadi Procopciuc ret = set_part_block_link_freq(module, rate, orate, depth); 20008501b1fcSGhennadi Procopciuc break; 20018501b1fcSGhennadi Procopciuc case s32cc_part_t: 20028501b1fcSGhennadi Procopciuc ERROR("It's not allowed to set the frequency of a partition !"); 20038501b1fcSGhennadi Procopciuc break; 20048501b1fcSGhennadi Procopciuc case s32cc_part_block_t: 20058501b1fcSGhennadi Procopciuc ERROR("It's not allowed to set the frequency of a partition block !"); 20068501b1fcSGhennadi Procopciuc break; 2007d9373519SGhennadi Procopciuc default: 2008d9373519SGhennadi Procopciuc break; 2009d9373519SGhennadi Procopciuc } 2010d9373519SGhennadi Procopciuc 2011d9373519SGhennadi Procopciuc return ret; 2012d9373519SGhennadi Procopciuc } 2013d9373519SGhennadi Procopciuc 2014bd691136SGhennadi Procopciuc static int get_module_rate(const struct s32cc_clk_obj *module, 2015bd691136SGhennadi Procopciuc const struct s32cc_clk_drv *drv, 2016bd691136SGhennadi Procopciuc unsigned long *rate, 2017bd691136SGhennadi Procopciuc unsigned int depth) 2018bd691136SGhennadi Procopciuc { 2019bd691136SGhennadi Procopciuc unsigned int ldepth = depth; 2020bd691136SGhennadi Procopciuc int ret = 0; 2021bd691136SGhennadi Procopciuc 2022bd691136SGhennadi Procopciuc ret = update_stack_depth(&ldepth); 2023bd691136SGhennadi Procopciuc if (ret != 0) { 2024bd691136SGhennadi Procopciuc return ret; 2025bd691136SGhennadi Procopciuc } 2026bd691136SGhennadi Procopciuc 2027bd691136SGhennadi Procopciuc switch (module->type) { 2028bd691136SGhennadi Procopciuc case s32cc_osc_t: 2029bd691136SGhennadi Procopciuc ret = get_osc_freq(module, drv, rate, ldepth); 2030bd691136SGhennadi Procopciuc break; 203146de0b9cSGhennadi Procopciuc case s32cc_clk_t: 203246de0b9cSGhennadi Procopciuc ret = get_clk_freq(module, drv, rate, ldepth); 203346de0b9cSGhennadi Procopciuc break; 2034fbebafa5SGhennadi Procopciuc case s32cc_pll_t: 2035fbebafa5SGhennadi Procopciuc ret = get_pll_freq(module, drv, rate, ldepth); 2036fbebafa5SGhennadi Procopciuc break; 20372fb25509SGhennadi Procopciuc case s32cc_dfs_t: 20382fb25509SGhennadi Procopciuc ret = get_dfs_freq(module, drv, rate, ldepth); 20392fb25509SGhennadi Procopciuc break; 20408f23e76fSGhennadi Procopciuc case s32cc_dfs_div_t: 20418f23e76fSGhennadi Procopciuc ret = get_dfs_div_freq(module, drv, rate, ldepth); 20428f23e76fSGhennadi Procopciuc break; 20437c298ebcSGhennadi Procopciuc case s32cc_fixed_div_t: 20447c298ebcSGhennadi Procopciuc ret = get_fixed_div_freq(module, drv, rate, ldepth); 20457c298ebcSGhennadi Procopciuc break; 2046a762c505SGhennadi Procopciuc case s32cc_pll_out_div_t: 2047a762c505SGhennadi Procopciuc ret = get_pll_div_freq(module, drv, rate, ldepth); 2048a762c505SGhennadi Procopciuc break; 2049d1567da6SGhennadi Procopciuc case s32cc_clkmux_t: 2050d1567da6SGhennadi Procopciuc ret = get_mux_freq(module, drv, rate, ldepth); 2051d1567da6SGhennadi Procopciuc break; 2052d1567da6SGhennadi Procopciuc case s32cc_shared_clkmux_t: 2053d1567da6SGhennadi Procopciuc ret = get_mux_freq(module, drv, rate, ldepth); 2054d1567da6SGhennadi Procopciuc break; 2055a74cf75fSGhennadi Procopciuc case s32cc_part_t: 2056a74cf75fSGhennadi Procopciuc ERROR("s32cc_part_t cannot be used to get rate\n"); 2057a74cf75fSGhennadi Procopciuc break; 2058a74cf75fSGhennadi Procopciuc case s32cc_part_block_t: 2059a74cf75fSGhennadi Procopciuc ERROR("s32cc_part_block_t cannot be used to get rate\n"); 2060a74cf75fSGhennadi Procopciuc break; 2061a74cf75fSGhennadi Procopciuc case s32cc_part_block_link_t: 2062a74cf75fSGhennadi Procopciuc ret = get_part_block_link_freq(module, drv, rate, ldepth); 2063a74cf75fSGhennadi Procopciuc break; 2064*ad412c0dSGhennadi Procopciuc case s32cc_cgm_div_t: 2065*ad412c0dSGhennadi Procopciuc ret = get_cgm_div_freq(module, drv, rate, ldepth); 2066*ad412c0dSGhennadi Procopciuc break; 2067bd691136SGhennadi Procopciuc default: 2068bd691136SGhennadi Procopciuc ret = -EINVAL; 2069bd691136SGhennadi Procopciuc break; 2070bd691136SGhennadi Procopciuc } 2071bd691136SGhennadi Procopciuc 2072bd691136SGhennadi Procopciuc return ret; 2073bd691136SGhennadi Procopciuc } 2074bd691136SGhennadi Procopciuc 20753a580e9eSGhennadi Procopciuc static int s32cc_clk_set_rate(unsigned long id, unsigned long rate, 20763a580e9eSGhennadi Procopciuc unsigned long *orate) 20773a580e9eSGhennadi Procopciuc { 2078d9373519SGhennadi Procopciuc unsigned int depth = MAX_STACK_DEPTH; 2079d9373519SGhennadi Procopciuc const struct s32cc_clk *clk; 2080d9373519SGhennadi Procopciuc int ret; 2081d9373519SGhennadi Procopciuc 2082d9373519SGhennadi Procopciuc clk = s32cc_get_arch_clk(id); 2083d9373519SGhennadi Procopciuc if (clk == NULL) { 2084d9373519SGhennadi Procopciuc return -EINVAL; 2085d9373519SGhennadi Procopciuc } 2086d9373519SGhennadi Procopciuc 2087d9373519SGhennadi Procopciuc ret = set_module_rate(&clk->desc, rate, orate, &depth); 2088d9373519SGhennadi Procopciuc if (ret != 0) { 2089d9373519SGhennadi Procopciuc ERROR("Failed to set frequency (%lu MHz) for clock %lu\n", 2090d9373519SGhennadi Procopciuc rate, id); 2091d9373519SGhennadi Procopciuc } 2092d9373519SGhennadi Procopciuc 2093d9373519SGhennadi Procopciuc return ret; 20943a580e9eSGhennadi Procopciuc } 20953a580e9eSGhennadi Procopciuc 2096bd691136SGhennadi Procopciuc static unsigned long s32cc_clk_get_rate(unsigned long id) 2097bd691136SGhennadi Procopciuc { 2098bd691136SGhennadi Procopciuc const struct s32cc_clk_drv *drv = get_drv(); 2099bd691136SGhennadi Procopciuc unsigned int depth = MAX_STACK_DEPTH; 2100bd691136SGhennadi Procopciuc const struct s32cc_clk *clk; 2101bd691136SGhennadi Procopciuc unsigned long rate = 0UL; 2102bd691136SGhennadi Procopciuc int ret; 2103bd691136SGhennadi Procopciuc 2104bd691136SGhennadi Procopciuc clk = s32cc_get_arch_clk(id); 2105bd691136SGhennadi Procopciuc if (clk == NULL) { 2106bd691136SGhennadi Procopciuc return 0; 2107bd691136SGhennadi Procopciuc } 2108bd691136SGhennadi Procopciuc 2109bd691136SGhennadi Procopciuc ret = get_module_rate(&clk->desc, drv, &rate, depth); 2110bd691136SGhennadi Procopciuc if (ret != 0) { 2111bd691136SGhennadi Procopciuc ERROR("Failed to get frequency (%lu MHz) for clock %lu\n", 2112bd691136SGhennadi Procopciuc rate, id); 2113bd691136SGhennadi Procopciuc return 0; 2114bd691136SGhennadi Procopciuc } 2115bd691136SGhennadi Procopciuc 2116bd691136SGhennadi Procopciuc return rate; 2117bd691136SGhennadi Procopciuc } 2118bd691136SGhennadi Procopciuc 211996e069cbSGhennadi Procopciuc static struct s32cc_clk_obj *get_no_parent(const struct s32cc_clk_obj *module) 212096e069cbSGhennadi Procopciuc { 212196e069cbSGhennadi Procopciuc return NULL; 212296e069cbSGhennadi Procopciuc } 212396e069cbSGhennadi Procopciuc 212496e069cbSGhennadi Procopciuc typedef struct s32cc_clk_obj *(*get_parent_clb_t)(const struct s32cc_clk_obj *clk_obj); 212596e069cbSGhennadi Procopciuc 212696e069cbSGhennadi Procopciuc static struct s32cc_clk_obj *get_module_parent(const struct s32cc_clk_obj *module) 212796e069cbSGhennadi Procopciuc { 212863d536feSGhennadi Procopciuc static const get_parent_clb_t parents_clbs[13] = { 212996e069cbSGhennadi Procopciuc [s32cc_clk_t] = get_clk_parent, 213096e069cbSGhennadi Procopciuc [s32cc_osc_t] = get_no_parent, 213196e069cbSGhennadi Procopciuc [s32cc_pll_t] = get_pll_parent, 213296e069cbSGhennadi Procopciuc [s32cc_pll_out_div_t] = get_pll_div_parent, 213396e069cbSGhennadi Procopciuc [s32cc_clkmux_t] = get_mux_parent, 213496e069cbSGhennadi Procopciuc [s32cc_shared_clkmux_t] = get_mux_parent, 213596e069cbSGhennadi Procopciuc [s32cc_dfs_t] = get_dfs_parent, 213696e069cbSGhennadi Procopciuc [s32cc_dfs_div_t] = get_dfs_div_parent, 21378a4f840bSGhennadi Procopciuc [s32cc_part_t] = get_no_parent, 213835988a9dSGhennadi Procopciuc [s32cc_fixed_div_t] = get_fixed_div_parent, 21398a4f840bSGhennadi Procopciuc [s32cc_part_block_t] = get_part_block_parent, 21408a4f840bSGhennadi Procopciuc [s32cc_part_block_link_t] = get_part_block_link_parent, 214196e069cbSGhennadi Procopciuc }; 214296e069cbSGhennadi Procopciuc uint32_t index; 214396e069cbSGhennadi Procopciuc 214496e069cbSGhennadi Procopciuc if (module == NULL) { 214596e069cbSGhennadi Procopciuc return NULL; 214696e069cbSGhennadi Procopciuc } 214796e069cbSGhennadi Procopciuc 214896e069cbSGhennadi Procopciuc index = (uint32_t)module->type; 214996e069cbSGhennadi Procopciuc 215096e069cbSGhennadi Procopciuc if (index >= ARRAY_SIZE(parents_clbs)) { 215196e069cbSGhennadi Procopciuc ERROR("Undefined module type: %d\n", module->type); 215296e069cbSGhennadi Procopciuc return NULL; 215396e069cbSGhennadi Procopciuc } 215496e069cbSGhennadi Procopciuc 215596e069cbSGhennadi Procopciuc if (parents_clbs[index] == NULL) { 215696e069cbSGhennadi Procopciuc ERROR("Undefined parent getter for type: %d\n", module->type); 215796e069cbSGhennadi Procopciuc return NULL; 215896e069cbSGhennadi Procopciuc } 215996e069cbSGhennadi Procopciuc 216096e069cbSGhennadi Procopciuc return parents_clbs[index](module); 216196e069cbSGhennadi Procopciuc } 216296e069cbSGhennadi Procopciuc 21633a580e9eSGhennadi Procopciuc static int s32cc_clk_get_parent(unsigned long id) 21643a580e9eSGhennadi Procopciuc { 216596e069cbSGhennadi Procopciuc struct s32cc_clk *parent_clk; 216696e069cbSGhennadi Procopciuc const struct s32cc_clk_obj *parent; 216796e069cbSGhennadi Procopciuc const struct s32cc_clk *clk; 216896e069cbSGhennadi Procopciuc unsigned long parent_id; 216996e069cbSGhennadi Procopciuc int ret; 217096e069cbSGhennadi Procopciuc 217196e069cbSGhennadi Procopciuc clk = s32cc_get_arch_clk(id); 217296e069cbSGhennadi Procopciuc if (clk == NULL) { 217396e069cbSGhennadi Procopciuc return -EINVAL; 217496e069cbSGhennadi Procopciuc } 217596e069cbSGhennadi Procopciuc 217696e069cbSGhennadi Procopciuc parent = get_module_parent(clk->module); 217796e069cbSGhennadi Procopciuc if (parent == NULL) { 217896e069cbSGhennadi Procopciuc return -EINVAL; 217996e069cbSGhennadi Procopciuc } 218096e069cbSGhennadi Procopciuc 218196e069cbSGhennadi Procopciuc parent_clk = s32cc_obj2clk(parent); 218296e069cbSGhennadi Procopciuc if (parent_clk == NULL) { 218396e069cbSGhennadi Procopciuc return -EINVAL; 218496e069cbSGhennadi Procopciuc } 218596e069cbSGhennadi Procopciuc 218696e069cbSGhennadi Procopciuc ret = s32cc_get_clk_id(parent_clk, &parent_id); 218796e069cbSGhennadi Procopciuc if (ret != 0) { 218896e069cbSGhennadi Procopciuc return ret; 218996e069cbSGhennadi Procopciuc } 219096e069cbSGhennadi Procopciuc 219196e069cbSGhennadi Procopciuc if (parent_id > (unsigned long)INT_MAX) { 219296e069cbSGhennadi Procopciuc return -E2BIG; 219396e069cbSGhennadi Procopciuc } 219496e069cbSGhennadi Procopciuc 219596e069cbSGhennadi Procopciuc return (int)parent_id; 21963a580e9eSGhennadi Procopciuc } 21973a580e9eSGhennadi Procopciuc 21983a580e9eSGhennadi Procopciuc static int s32cc_clk_set_parent(unsigned long id, unsigned long parent_id) 21993a580e9eSGhennadi Procopciuc { 220012e7a2cdSGhennadi Procopciuc const struct s32cc_clk *parent; 220112e7a2cdSGhennadi Procopciuc const struct s32cc_clk *clk; 220212e7a2cdSGhennadi Procopciuc bool valid_source = false; 220312e7a2cdSGhennadi Procopciuc struct s32cc_clkmux *mux; 220412e7a2cdSGhennadi Procopciuc uint8_t i; 220512e7a2cdSGhennadi Procopciuc 220612e7a2cdSGhennadi Procopciuc clk = s32cc_get_arch_clk(id); 220712e7a2cdSGhennadi Procopciuc if (clk == NULL) { 220812e7a2cdSGhennadi Procopciuc return -EINVAL; 220912e7a2cdSGhennadi Procopciuc } 221012e7a2cdSGhennadi Procopciuc 221112e7a2cdSGhennadi Procopciuc parent = s32cc_get_arch_clk(parent_id); 221212e7a2cdSGhennadi Procopciuc if (parent == NULL) { 221312e7a2cdSGhennadi Procopciuc return -EINVAL; 221412e7a2cdSGhennadi Procopciuc } 221512e7a2cdSGhennadi Procopciuc 221612e7a2cdSGhennadi Procopciuc if (!is_s32cc_clk_mux(clk)) { 221712e7a2cdSGhennadi Procopciuc ERROR("Clock %lu is not a mux\n", id); 221812e7a2cdSGhennadi Procopciuc return -EINVAL; 221912e7a2cdSGhennadi Procopciuc } 222012e7a2cdSGhennadi Procopciuc 222112e7a2cdSGhennadi Procopciuc mux = s32cc_clk2mux(clk); 222212e7a2cdSGhennadi Procopciuc if (mux == NULL) { 222312e7a2cdSGhennadi Procopciuc ERROR("Failed to cast clock %lu to clock mux\n", id); 222412e7a2cdSGhennadi Procopciuc return -EINVAL; 222512e7a2cdSGhennadi Procopciuc } 222612e7a2cdSGhennadi Procopciuc 222712e7a2cdSGhennadi Procopciuc for (i = 0; i < mux->nclks; i++) { 222812e7a2cdSGhennadi Procopciuc if (mux->clkids[i] == parent_id) { 222912e7a2cdSGhennadi Procopciuc valid_source = true; 223012e7a2cdSGhennadi Procopciuc break; 223112e7a2cdSGhennadi Procopciuc } 223212e7a2cdSGhennadi Procopciuc } 223312e7a2cdSGhennadi Procopciuc 223412e7a2cdSGhennadi Procopciuc if (!valid_source) { 223512e7a2cdSGhennadi Procopciuc ERROR("Clock %lu is not a valid clock for mux %lu\n", 223612e7a2cdSGhennadi Procopciuc parent_id, id); 223712e7a2cdSGhennadi Procopciuc return -EINVAL; 223812e7a2cdSGhennadi Procopciuc } 223912e7a2cdSGhennadi Procopciuc 224012e7a2cdSGhennadi Procopciuc mux->source_id = parent_id; 224112e7a2cdSGhennadi Procopciuc 224212e7a2cdSGhennadi Procopciuc return 0; 22433a580e9eSGhennadi Procopciuc } 22443a580e9eSGhennadi Procopciuc 2245514c7380SGhennadi Procopciuc static int s32cc_clk_mmap_regs(const struct s32cc_clk_drv *drv) 2246514c7380SGhennadi Procopciuc { 224729f8a952SGhennadi Procopciuc const uintptr_t base_addrs[12] = { 2248514c7380SGhennadi Procopciuc drv->fxosc_base, 2249514c7380SGhennadi Procopciuc drv->armpll_base, 2250514c7380SGhennadi Procopciuc drv->periphpll_base, 2251514c7380SGhennadi Procopciuc drv->armdfs_base, 225229f8a952SGhennadi Procopciuc drv->periphdfs_base, 2253514c7380SGhennadi Procopciuc drv->cgm0_base, 2254514c7380SGhennadi Procopciuc drv->cgm1_base, 2255514c7380SGhennadi Procopciuc drv->cgm5_base, 2256514c7380SGhennadi Procopciuc drv->ddrpll_base, 2257514c7380SGhennadi Procopciuc drv->mc_me, 2258514c7380SGhennadi Procopciuc drv->mc_rgm, 2259514c7380SGhennadi Procopciuc drv->rdc, 2260514c7380SGhennadi Procopciuc }; 2261514c7380SGhennadi Procopciuc size_t i; 2262514c7380SGhennadi Procopciuc int ret; 2263514c7380SGhennadi Procopciuc 2264514c7380SGhennadi Procopciuc for (i = 0U; i < ARRAY_SIZE(base_addrs); i++) { 2265514c7380SGhennadi Procopciuc ret = mmap_add_dynamic_region(base_addrs[i], base_addrs[i], 2266514c7380SGhennadi Procopciuc PAGE_SIZE, 2267514c7380SGhennadi Procopciuc MT_DEVICE | MT_RW | MT_SECURE); 2268514c7380SGhennadi Procopciuc if (ret != 0) { 2269514c7380SGhennadi Procopciuc ERROR("Failed to map clock module 0x%" PRIuPTR "\n", 2270514c7380SGhennadi Procopciuc base_addrs[i]); 2271514c7380SGhennadi Procopciuc return ret; 2272514c7380SGhennadi Procopciuc } 2273514c7380SGhennadi Procopciuc } 2274514c7380SGhennadi Procopciuc 2275514c7380SGhennadi Procopciuc return 0; 2276514c7380SGhennadi Procopciuc } 2277514c7380SGhennadi Procopciuc 227861b5ef21SGhennadi Procopciuc int s32cc_clk_register_drv(bool mmap_regs) 22793a580e9eSGhennadi Procopciuc { 22803a580e9eSGhennadi Procopciuc static const struct clk_ops s32cc_clk_ops = { 22813a580e9eSGhennadi Procopciuc .enable = s32cc_clk_enable, 22823a580e9eSGhennadi Procopciuc .disable = s32cc_clk_disable, 22833a580e9eSGhennadi Procopciuc .is_enabled = s32cc_clk_is_enabled, 22843a580e9eSGhennadi Procopciuc .get_rate = s32cc_clk_get_rate, 22853a580e9eSGhennadi Procopciuc .set_rate = s32cc_clk_set_rate, 22863a580e9eSGhennadi Procopciuc .get_parent = s32cc_clk_get_parent, 22873a580e9eSGhennadi Procopciuc .set_parent = s32cc_clk_set_parent, 22883a580e9eSGhennadi Procopciuc }; 2289514c7380SGhennadi Procopciuc const struct s32cc_clk_drv *drv; 22903a580e9eSGhennadi Procopciuc 22913a580e9eSGhennadi Procopciuc clk_register(&s32cc_clk_ops); 2292514c7380SGhennadi Procopciuc 2293514c7380SGhennadi Procopciuc drv = get_drv(); 2294514c7380SGhennadi Procopciuc if (drv == NULL) { 2295514c7380SGhennadi Procopciuc return -EINVAL; 2296514c7380SGhennadi Procopciuc } 2297514c7380SGhennadi Procopciuc 229861b5ef21SGhennadi Procopciuc if (mmap_regs) { 2299514c7380SGhennadi Procopciuc return s32cc_clk_mmap_regs(drv); 23003a580e9eSGhennadi Procopciuc } 23013a580e9eSGhennadi Procopciuc 230261b5ef21SGhennadi Procopciuc return 0; 230361b5ef21SGhennadi Procopciuc } 230461b5ef21SGhennadi Procopciuc 2305