/* * Synopsys HSDK SDP CGU clock driver * * Copyright (C) 2017 Synopsys * Author: Eugeniy Paltsev * * This file is licensed under the terms of the GNU General Public * License version 2. This program is licensed "as is" without any * warranty of any kind, whether express or implied. */ #include #include #include #include #include /* * Synopsys ARC HSDK clock tree. * * ------------------ * | 33.33 MHz xtal | * ------------------ * | * | ----------- * |-->| ARC PLL | * | ----------- * | | * | |-->|CGU_ARC_IDIV|-----------> * | |-->|CREG_CORE_IF_DIV|-------> * | * | -------------- * |-->| SYSTEM PLL | * | -------------- * | | * | |-->|CGU_SYS_IDIV_APB|-------> * | |-->|CGU_SYS_IDIV_AXI|-------> * | |-->|CGU_SYS_IDIV_*|---------> * | |-->|CGU_SYS_IDIV_EBI_REF|---> * | * | -------------- * |-->| TUNNEL PLL | * | -------------- * | | * | |-->|CGU_TUN_IDIV_TUN|-----------> * | |-->|CGU_TUN_IDIV_ROM|-----------> * | |-->|CGU_TUN_IDIV_PWM|-----------> * | * | ------------ * |-->| HDMI PLL | * | ------------ * | | * | |-->|CGU_HDMI_IDIV_APB|------> * | * | ----------- * |-->| DDR PLL | * ----------- * | * |----------------------------> */ #define CGU_ARC_IDIV 0x080 #define CGU_TUN_IDIV_TUN 0x380 #define CGU_TUN_IDIV_ROM 0x390 #define CGU_TUN_IDIV_PWM 0x3A0 #define CGU_HDMI_IDIV_APB 0x480 #define CGU_SYS_IDIV_APB 0x180 #define CGU_SYS_IDIV_AXI 0x190 #define CGU_SYS_IDIV_ETH 0x1A0 #define CGU_SYS_IDIV_USB 0x1B0 #define CGU_SYS_IDIV_SDIO 0x1C0 #define CGU_SYS_IDIV_HDMI 0x1D0 #define CGU_SYS_IDIV_GFX_CORE 0x1E0 #define CGU_SYS_IDIV_GFX_DMA 0x1F0 #define CGU_SYS_IDIV_GFX_CFG 0x200 #define CGU_SYS_IDIV_DMAC_CORE 0x210 #define CGU_SYS_IDIV_DMAC_CFG 0x220 #define CGU_SYS_IDIV_SDIO_REF 0x230 #define CGU_SYS_IDIV_SPI_REF 0x240 #define CGU_SYS_IDIV_I2C_REF 0x250 #define CGU_SYS_IDIV_UART_REF 0x260 #define CGU_SYS_IDIV_EBI_REF 0x270 #define CGU_IDIV_MASK 0xFF /* All idiv have 8 significant bits */ #define CGU_ARC_PLL 0x0 #define CGU_SYS_PLL 0x10 #define CGU_DDR_PLL 0x20 #define CGU_TUN_PLL 0x30 #define CGU_HDMI_PLL 0x40 #define CGU_PLL_CTRL 0x000 /* ARC PLL control register */ #define CGU_PLL_STATUS 0x004 /* ARC PLL status register */ #define CGU_PLL_FMEAS 0x008 /* ARC PLL frequency measurement register */ #define CGU_PLL_MON 0x00C /* ARC PLL monitor register */ #define CGU_PLL_CTRL_ODIV_SHIFT 2 #define CGU_PLL_CTRL_IDIV_SHIFT 4 #define CGU_PLL_CTRL_FBDIV_SHIFT 9 #define CGU_PLL_CTRL_BAND_SHIFT 20 #define CGU_PLL_CTRL_ODIV_MASK GENMASK(3, CGU_PLL_CTRL_ODIV_SHIFT) #define CGU_PLL_CTRL_IDIV_MASK GENMASK(8, CGU_PLL_CTRL_IDIV_SHIFT) #define CGU_PLL_CTRL_FBDIV_MASK GENMASK(15, CGU_PLL_CTRL_FBDIV_SHIFT) #define CGU_PLL_CTRL_PD BIT(0) #define CGU_PLL_CTRL_BYPASS BIT(1) #define CGU_PLL_STATUS_LOCK BIT(0) #define CGU_PLL_STATUS_ERR BIT(1) #define HSDK_PLL_MAX_LOCK_TIME 100 /* 100 us */ #define CREG_CORE_IF_DIV 0x000 /* ARC CORE interface divider */ #define CORE_IF_CLK_THRESHOLD_HZ 500000000 #define CREG_CORE_IF_CLK_DIV_1 0x0 #define CREG_CORE_IF_CLK_DIV_2 0x1 #define MIN_PLL_RATE 100000000 /* 100 MHz */ #define PARENT_RATE 33333333 /* fixed clock - xtal */ #define CGU_MAX_CLOCKS 26 #define CGU_SYS_CLOCKS 16 #define MAX_AXI_CLOCKS 4 #define CGU_TUN_CLOCKS 3 #define MAX_TUN_CLOCKS 6 struct hsdk_tun_idiv_cfg { u32 oft; u8 val[MAX_TUN_CLOCKS]; }; struct hsdk_tun_clk_cfg { const u32 clk_rate[MAX_TUN_CLOCKS]; const u32 pll_rate[MAX_TUN_CLOCKS]; const struct hsdk_tun_idiv_cfg idiv[CGU_TUN_CLOCKS]; }; static const struct hsdk_tun_clk_cfg tun_clk_cfg = { { 25000000, 50000000, 75000000, 100000000, 125000000, 150000000 }, { 600000000, 600000000, 600000000, 600000000, 700000000, 600000000 }, { { CGU_TUN_IDIV_TUN, { 24, 12, 8, 6, 6, 4 } }, { CGU_TUN_IDIV_ROM, { 4, 4, 4, 4, 5, 4 } }, { CGU_TUN_IDIV_PWM, { 8, 8, 8, 8, 10, 8 } } } }; struct hsdk_sys_idiv_cfg { u32 oft; u8 val[MAX_AXI_CLOCKS]; }; struct hsdk_axi_clk_cfg { const u32 clk_rate[MAX_AXI_CLOCKS]; const u32 pll_rate[MAX_AXI_CLOCKS]; const struct hsdk_sys_idiv_cfg idiv[CGU_SYS_CLOCKS]; }; static const struct hsdk_axi_clk_cfg axi_clk_cfg = { { 200000000, 400000000, 600000000, 800000000 }, { 800000000, 800000000, 600000000, 800000000 }, { { CGU_SYS_IDIV_APB, { 4, 4, 3, 4 } }, /* APB */ { CGU_SYS_IDIV_AXI, { 4, 2, 1, 1 } }, /* AXI */ { CGU_SYS_IDIV_ETH, { 2, 2, 2, 2 } }, /* ETH */ { CGU_SYS_IDIV_USB, { 2, 2, 2, 2 } }, /* USB */ { CGU_SYS_IDIV_SDIO, { 2, 2, 2, 2 } }, /* SDIO */ { CGU_SYS_IDIV_HDMI, { 2, 2, 2, 2 } }, /* HDMI */ { CGU_SYS_IDIV_GFX_CORE, { 1, 1, 1, 1 } }, /* GPU-CORE */ { CGU_SYS_IDIV_GFX_DMA, { 2, 2, 2, 2 } }, /* GPU-DMA */ { CGU_SYS_IDIV_GFX_CFG, { 4, 4, 3, 4 } }, /* GPU-CFG */ { CGU_SYS_IDIV_DMAC_CORE,{ 2, 2, 2, 2 } }, /* DMAC-CORE */ { CGU_SYS_IDIV_DMAC_CFG, { 4, 4, 3, 4 } }, /* DMAC-CFG */ { CGU_SYS_IDIV_SDIO_REF, { 8, 8, 6, 8 } }, /* SDIO-REF */ { CGU_SYS_IDIV_SPI_REF, { 24, 24, 18, 24 } }, /* SPI-REF */ { CGU_SYS_IDIV_I2C_REF, { 4, 4, 3, 4 } }, /* I2C-REF */ { CGU_SYS_IDIV_UART_REF, { 24, 24, 18, 24 } }, /* UART-REF */ { CGU_SYS_IDIV_EBI_REF, { 16, 16, 12, 16 } } /* EBI-REF */ } }; struct hsdk_pll_cfg { u32 rate; u32 idiv; u32 fbdiv; u32 odiv; u32 band; }; static const struct hsdk_pll_cfg asdt_pll_cfg[] = { { 100000000, 0, 11, 3, 0 }, { 125000000, 0, 14, 3, 0 }, { 133000000, 0, 15, 3, 0 }, { 150000000, 0, 17, 3, 0 }, { 200000000, 1, 47, 3, 0 }, { 233000000, 1, 27, 2, 0 }, { 300000000, 1, 35, 2, 0 }, { 333000000, 1, 39, 2, 0 }, { 400000000, 1, 47, 2, 0 }, { 500000000, 0, 14, 1, 0 }, { 600000000, 0, 17, 1, 0 }, { 700000000, 0, 20, 1, 0 }, { 800000000, 0, 23, 1, 0 }, { 900000000, 1, 26, 0, 0 }, { 1000000000, 1, 29, 0, 0 }, { 1100000000, 1, 32, 0, 0 }, { 1200000000, 1, 35, 0, 0 }, { 1300000000, 1, 38, 0, 0 }, { 1400000000, 1, 41, 0, 0 }, { 1500000000, 1, 44, 0, 0 }, { 1600000000, 1, 47, 0, 0 }, {} }; static const struct hsdk_pll_cfg hdmi_pll_cfg[] = { { 297000000, 0, 21, 2, 0 }, { 540000000, 0, 19, 1, 0 }, { 594000000, 0, 21, 1, 0 }, {} }; struct hsdk_cgu_clk { /* CGU block register */ void __iomem *cgu_regs; /* CREG block register */ void __iomem *creg_regs; /* PLLs registers */ void __iomem *regs; /* PLLs special registers */ void __iomem *spec_regs; /* PLLs devdata */ const struct hsdk_pll_devdata *pll_devdata; /* Dividers registers */ void __iomem *idiv_regs; }; struct hsdk_pll_devdata { const struct hsdk_pll_cfg *pll_cfg; int (*update_rate)(struct hsdk_cgu_clk *clk, unsigned long rate, const struct hsdk_pll_cfg *cfg); }; static int hsdk_pll_core_update_rate(struct hsdk_cgu_clk *, unsigned long, const struct hsdk_pll_cfg *); static int hsdk_pll_comm_update_rate(struct hsdk_cgu_clk *, unsigned long, const struct hsdk_pll_cfg *); static const struct hsdk_pll_devdata core_pll_dat = { .pll_cfg = asdt_pll_cfg, .update_rate = hsdk_pll_core_update_rate, }; static const struct hsdk_pll_devdata sdt_pll_dat = { .pll_cfg = asdt_pll_cfg, .update_rate = hsdk_pll_comm_update_rate, }; static const struct hsdk_pll_devdata hdmi_pll_dat = { .pll_cfg = hdmi_pll_cfg, .update_rate = hsdk_pll_comm_update_rate, }; static ulong idiv_set(struct clk *, ulong); static ulong cpu_clk_set(struct clk *, ulong); static ulong axi_clk_set(struct clk *, ulong); static ulong tun_clk_set(struct clk *, ulong); static ulong idiv_get(struct clk *); static int idiv_off(struct clk *); static ulong pll_set(struct clk *, ulong); static ulong pll_get(struct clk *); struct hsdk_cgu_clock_map { u32 cgu_pll_oft; u32 creg_div_oft; u32 cgu_div_oft; const struct hsdk_pll_devdata *pll_devdata; ulong (*get_rate)(struct clk *clk); ulong (*set_rate)(struct clk *clk, ulong rate); int (*disable)(struct clk *clk); }; static const struct hsdk_cgu_clock_map clock_map[] = { { CGU_ARC_PLL, 0, 0, &core_pll_dat, pll_get, pll_set, NULL }, { CGU_ARC_PLL, 0, CGU_ARC_IDIV, &core_pll_dat, idiv_get, cpu_clk_set, idiv_off }, { CGU_DDR_PLL, 0, 0, &sdt_pll_dat, pll_get, pll_set, NULL }, { CGU_SYS_PLL, 0, 0, &sdt_pll_dat, pll_get, pll_set, NULL }, { CGU_SYS_PLL, 0, CGU_SYS_IDIV_APB, &sdt_pll_dat, idiv_get, idiv_set, idiv_off }, { CGU_SYS_PLL, 0, CGU_SYS_IDIV_AXI, &sdt_pll_dat, idiv_get, axi_clk_set, idiv_off }, { CGU_SYS_PLL, 0, CGU_SYS_IDIV_ETH, &sdt_pll_dat, idiv_get, idiv_set, idiv_off }, { CGU_SYS_PLL, 0, CGU_SYS_IDIV_USB, &sdt_pll_dat, idiv_get, idiv_set, idiv_off }, { CGU_SYS_PLL, 0, CGU_SYS_IDIV_SDIO, &sdt_pll_dat, idiv_get, idiv_set, idiv_off }, { CGU_SYS_PLL, 0, CGU_SYS_IDIV_HDMI, &sdt_pll_dat, idiv_get, idiv_set, idiv_off }, { CGU_SYS_PLL, 0, CGU_SYS_IDIV_GFX_CORE, &sdt_pll_dat, idiv_get, idiv_set, idiv_off }, { CGU_SYS_PLL, 0, CGU_SYS_IDIV_GFX_DMA, &sdt_pll_dat, idiv_get, idiv_set, idiv_off }, { CGU_SYS_PLL, 0, CGU_SYS_IDIV_GFX_CFG, &sdt_pll_dat, idiv_get, idiv_set, idiv_off }, { CGU_SYS_PLL, 0, CGU_SYS_IDIV_DMAC_CORE, &sdt_pll_dat, idiv_get, idiv_set, idiv_off }, { CGU_SYS_PLL, 0, CGU_SYS_IDIV_DMAC_CFG, &sdt_pll_dat, idiv_get, idiv_set, idiv_off }, { CGU_SYS_PLL, 0, CGU_SYS_IDIV_SDIO_REF, &sdt_pll_dat, idiv_get, idiv_set, idiv_off }, { CGU_SYS_PLL, 0, CGU_SYS_IDIV_SPI_REF, &sdt_pll_dat, idiv_get, idiv_set, idiv_off }, { CGU_SYS_PLL, 0, CGU_SYS_IDIV_I2C_REF, &sdt_pll_dat, idiv_get, idiv_set, idiv_off }, { CGU_SYS_PLL, 0, CGU_SYS_IDIV_UART_REF, &sdt_pll_dat, idiv_get, idiv_set, idiv_off }, { CGU_SYS_PLL, 0, CGU_SYS_IDIV_EBI_REF, &sdt_pll_dat, idiv_get, idiv_set, idiv_off }, { CGU_TUN_PLL, 0, 0, &sdt_pll_dat, pll_get, pll_set, NULL }, { CGU_TUN_PLL, 0, CGU_TUN_IDIV_TUN, &sdt_pll_dat, idiv_get, tun_clk_set, idiv_off }, { CGU_TUN_PLL, 0, CGU_TUN_IDIV_ROM, &sdt_pll_dat, idiv_get, idiv_set, idiv_off }, { CGU_TUN_PLL, 0, CGU_TUN_IDIV_PWM, &sdt_pll_dat, idiv_get, idiv_set, idiv_off }, { CGU_HDMI_PLL, 0, 0, &hdmi_pll_dat, pll_get, pll_set, NULL }, { CGU_HDMI_PLL, 0, CGU_HDMI_IDIV_APB, &hdmi_pll_dat, idiv_get, idiv_set, idiv_off } }; static inline void hsdk_idiv_write(struct hsdk_cgu_clk *clk, u32 val) { iowrite32(val, clk->idiv_regs); } static inline u32 hsdk_idiv_read(struct hsdk_cgu_clk *clk) { return ioread32(clk->idiv_regs); } static inline void hsdk_pll_write(struct hsdk_cgu_clk *clk, u32 reg, u32 val) { iowrite32(val, clk->regs + reg); } static inline u32 hsdk_pll_read(struct hsdk_cgu_clk *clk, u32 reg) { return ioread32(clk->regs + reg); } static inline void hsdk_pll_spcwrite(struct hsdk_cgu_clk *clk, u32 reg, u32 val) { iowrite32(val, clk->spec_regs + reg); } static inline u32 hsdk_pll_spcread(struct hsdk_cgu_clk *clk, u32 reg) { return ioread32(clk->spec_regs + reg); } static inline void hsdk_pll_set_cfg(struct hsdk_cgu_clk *clk, const struct hsdk_pll_cfg *cfg) { u32 val = 0; /* Powerdown and Bypass bits should be cleared */ val |= cfg->idiv << CGU_PLL_CTRL_IDIV_SHIFT; val |= cfg->fbdiv << CGU_PLL_CTRL_FBDIV_SHIFT; val |= cfg->odiv << CGU_PLL_CTRL_ODIV_SHIFT; val |= cfg->band << CGU_PLL_CTRL_BAND_SHIFT; pr_debug("write configurarion: %#x\n", val); hsdk_pll_write(clk, CGU_PLL_CTRL, val); } static inline bool hsdk_pll_is_locked(struct hsdk_cgu_clk *clk) { return !!(hsdk_pll_read(clk, CGU_PLL_STATUS) & CGU_PLL_STATUS_LOCK); } static inline bool hsdk_pll_is_err(struct hsdk_cgu_clk *clk) { return !!(hsdk_pll_read(clk, CGU_PLL_STATUS) & CGU_PLL_STATUS_ERR); } static ulong pll_get(struct clk *sclk) { u32 val; u64 rate; u32 idiv, fbdiv, odiv; struct hsdk_cgu_clk *clk = dev_get_priv(sclk->dev); val = hsdk_pll_read(clk, CGU_PLL_CTRL); pr_debug("current configurarion: %#x\n", val); /* Check if PLL is disabled */ if (val & CGU_PLL_CTRL_PD) return 0; /* Check if PLL is bypassed */ if (val & CGU_PLL_CTRL_BYPASS) return PARENT_RATE; /* input divider = reg.idiv + 1 */ idiv = 1 + ((val & CGU_PLL_CTRL_IDIV_MASK) >> CGU_PLL_CTRL_IDIV_SHIFT); /* fb divider = 2*(reg.fbdiv + 1) */ fbdiv = 2 * (1 + ((val & CGU_PLL_CTRL_FBDIV_MASK) >> CGU_PLL_CTRL_FBDIV_SHIFT)); /* output divider = 2^(reg.odiv) */ odiv = 1 << ((val & CGU_PLL_CTRL_ODIV_MASK) >> CGU_PLL_CTRL_ODIV_SHIFT); rate = (u64)PARENT_RATE * fbdiv; do_div(rate, idiv * odiv); return rate; } static unsigned long hsdk_pll_round_rate(struct clk *sclk, unsigned long rate) { int i; unsigned long best_rate; struct hsdk_cgu_clk *clk = dev_get_priv(sclk->dev); const struct hsdk_pll_cfg *pll_cfg = clk->pll_devdata->pll_cfg; if (pll_cfg[0].rate == 0) return -EINVAL; best_rate = pll_cfg[0].rate; for (i = 1; pll_cfg[i].rate != 0; i++) { if (abs(rate - pll_cfg[i].rate) < abs(rate - best_rate)) best_rate = pll_cfg[i].rate; } pr_debug("chosen best rate: %lu\n", best_rate); return best_rate; } static int hsdk_pll_comm_update_rate(struct hsdk_cgu_clk *clk, unsigned long rate, const struct hsdk_pll_cfg *cfg) { hsdk_pll_set_cfg(clk, cfg); /* * Wait until CGU relocks and check error status. * If after timeout CGU is unlocked yet return error. */ udelay(HSDK_PLL_MAX_LOCK_TIME); if (!hsdk_pll_is_locked(clk)) return -ETIMEDOUT; if (hsdk_pll_is_err(clk)) return -EINVAL; return 0; } static int hsdk_pll_core_update_rate(struct hsdk_cgu_clk *clk, unsigned long rate, const struct hsdk_pll_cfg *cfg) { /* * When core clock exceeds 500MHz, the divider for the interface * clock must be programmed to div-by-2. */ if (rate > CORE_IF_CLK_THRESHOLD_HZ) hsdk_pll_spcwrite(clk, CREG_CORE_IF_DIV, CREG_CORE_IF_CLK_DIV_2); hsdk_pll_set_cfg(clk, cfg); /* * Wait until CGU relocks and check error status. * If after timeout CGU is unlocked yet return error. */ udelay(HSDK_PLL_MAX_LOCK_TIME); if (!hsdk_pll_is_locked(clk)) return -ETIMEDOUT; if (hsdk_pll_is_err(clk)) return -EINVAL; /* * Program divider to div-by-1 if we succesfuly set core clock below * 500MHz threshold. */ if (rate <= CORE_IF_CLK_THRESHOLD_HZ) hsdk_pll_spcwrite(clk, CREG_CORE_IF_DIV, CREG_CORE_IF_CLK_DIV_1); return 0; } static ulong pll_set(struct clk *sclk, ulong rate) { int i; unsigned long best_rate; struct hsdk_cgu_clk *clk = dev_get_priv(sclk->dev); const struct hsdk_pll_cfg *pll_cfg = clk->pll_devdata->pll_cfg; best_rate = hsdk_pll_round_rate(sclk, rate); for (i = 0; pll_cfg[i].rate != 0; i++) { if (pll_cfg[i].rate == best_rate) { return clk->pll_devdata->update_rate(clk, best_rate, &pll_cfg[i]); } } pr_err("invalid rate=%ld Hz, parent_rate=%d Hz\n", best_rate, PARENT_RATE); return -EINVAL; } static int idiv_off(struct clk *sclk) { struct hsdk_cgu_clk *clk = dev_get_priv(sclk->dev); hsdk_idiv_write(clk, 0); return 0; } static ulong idiv_get(struct clk *sclk) { struct hsdk_cgu_clk *clk = dev_get_priv(sclk->dev); ulong parent_rate = pll_get(sclk); u32 div_factor = hsdk_idiv_read(clk); div_factor &= CGU_IDIV_MASK; pr_debug("current configurarion: %#x (%d)\n", div_factor, div_factor); if (div_factor == 0) return 0; return parent_rate / div_factor; } /* Special behavior: wen we set this clock we set both idiv and pll */ static ulong cpu_clk_set(struct clk *sclk, ulong rate) { ulong ret; ret = pll_set(sclk, rate); idiv_set(sclk, rate); return ret; } /* Special behavior: wen we set this clock we set both idiv and pll and all pll dividers */ static ulong axi_clk_set(struct clk *sclk, ulong rate) { struct hsdk_cgu_clk *clk = dev_get_priv(sclk->dev); ulong pll_rate; int i, freq_idx = -1; ulong ret = 0; pll_rate = pll_get(sclk); for (i = 0; i < MAX_AXI_CLOCKS; i++) { if (axi_clk_cfg.clk_rate[i] == rate) { freq_idx = i; break; } } if (freq_idx < 0) { pr_err("axi clk: invalid rate=%ld Hz\n", rate); return -EINVAL; } /* configure PLL before dividers */ if (axi_clk_cfg.pll_rate[freq_idx] < pll_rate) ret = pll_set(sclk, axi_clk_cfg.pll_rate[freq_idx]); /* configure SYS dividers */ for (i = 0; i < CGU_SYS_CLOCKS; i++) { clk->idiv_regs = clk->cgu_regs + axi_clk_cfg.idiv[i].oft; hsdk_idiv_write(clk, axi_clk_cfg.idiv[i].val[freq_idx]); } /* configure PLL after dividers */ if (axi_clk_cfg.pll_rate[freq_idx] >= pll_rate) ret = pll_set(sclk, axi_clk_cfg.pll_rate[freq_idx]); return ret; } static ulong tun_clk_set(struct clk *sclk, ulong rate) { struct hsdk_cgu_clk *clk = dev_get_priv(sclk->dev); ulong pll_rate; int i, freq_idx = -1; ulong ret = 0; pll_rate = pll_get(sclk); for (i = 0; i < MAX_TUN_CLOCKS; i++) { if (tun_clk_cfg.clk_rate[i] == rate) { freq_idx = i; break; } } if (freq_idx < 0) { pr_err("tun clk: invalid rate=%ld Hz\n", rate); return -EINVAL; } /* configure PLL before dividers */ if (tun_clk_cfg.pll_rate[freq_idx] < pll_rate) ret = pll_set(sclk, tun_clk_cfg.pll_rate[freq_idx]); /* configure SYS dividers */ for (i = 0; i < CGU_TUN_CLOCKS; i++) { clk->idiv_regs = clk->cgu_regs + tun_clk_cfg.idiv[i].oft; hsdk_idiv_write(clk, tun_clk_cfg.idiv[i].val[freq_idx]); } /* configure PLL after dividers */ if (tun_clk_cfg.pll_rate[freq_idx] >= pll_rate) ret = pll_set(sclk, tun_clk_cfg.pll_rate[freq_idx]); return ret; } static ulong idiv_set(struct clk *sclk, ulong rate) { struct hsdk_cgu_clk *clk = dev_get_priv(sclk->dev); ulong parent_rate = pll_get(sclk); u32 div_factor; div_factor = parent_rate / rate; if (abs(rate - parent_rate / (div_factor + 1)) <= abs(rate - parent_rate / div_factor)) { div_factor += 1; } if (div_factor & ~CGU_IDIV_MASK) { pr_err("invalid rate=%ld Hz, parent_rate=%ld Hz, div=%d: max divider valie is%d\n", rate, parent_rate, div_factor, CGU_IDIV_MASK); div_factor = CGU_IDIV_MASK; } if (div_factor == 0) { pr_err("invalid rate=%ld Hz, parent_rate=%ld Hz, div=%d: min divider valie is 1\n", rate, parent_rate, div_factor); div_factor = 1; } hsdk_idiv_write(clk, div_factor); return 0; } static int hsdk_prepare_clock_tree_branch(struct clk *sclk) { struct hsdk_cgu_clk *clk = dev_get_priv(sclk->dev); if (sclk->id >= CGU_MAX_CLOCKS) return -EINVAL; clk->pll_devdata = clock_map[sclk->id].pll_devdata; clk->regs = clk->cgu_regs + clock_map[sclk->id].cgu_pll_oft; clk->spec_regs = clk->creg_regs + clock_map[sclk->id].creg_div_oft; clk->idiv_regs = clk->cgu_regs + clock_map[sclk->id].cgu_div_oft; return 0; } static ulong hsdk_cgu_get_rate(struct clk *sclk) { if (hsdk_prepare_clock_tree_branch(sclk)) return -EINVAL; return clock_map[sclk->id].get_rate(sclk); } static ulong hsdk_cgu_set_rate(struct clk *sclk, ulong rate) { if (hsdk_prepare_clock_tree_branch(sclk)) return -EINVAL; return clock_map[sclk->id].set_rate(sclk, rate); } static int hsdk_cgu_disable(struct clk *sclk) { if (hsdk_prepare_clock_tree_branch(sclk)) return -EINVAL; if (clock_map[sclk->id].disable) return clock_map[sclk->id].disable(sclk); return -ENOTSUPP; } static const struct clk_ops hsdk_cgu_ops = { .set_rate = hsdk_cgu_set_rate, .get_rate = hsdk_cgu_get_rate, .disable = hsdk_cgu_disable, }; static int hsdk_cgu_clk_probe(struct udevice *dev) { struct hsdk_cgu_clk *pll_clk = dev_get_priv(dev); BUILD_BUG_ON(ARRAY_SIZE(clock_map) != CGU_MAX_CLOCKS); pll_clk->cgu_regs = (void __iomem *)devfdt_get_addr_index(dev, 0); if (!pll_clk->cgu_regs) return -EINVAL; pll_clk->creg_regs = (void __iomem *)devfdt_get_addr_index(dev, 1); if (!pll_clk->creg_regs) return -EINVAL; return 0; } static const struct udevice_id hsdk_cgu_clk_id[] = { { .compatible = "snps,hsdk-cgu-clock" }, { } }; U_BOOT_DRIVER(hsdk_cgu_clk) = { .name = "hsdk-cgu-clk", .id = UCLASS_CLK, .of_match = hsdk_cgu_clk_id, .probe = hsdk_cgu_clk_probe, .priv_auto_alloc_size = sizeof(struct hsdk_cgu_clk), .ops = &hsdk_cgu_ops, };