/* * Lowlevel clock handling for Telechips TCC8xxx SoCs * * Copyright (C) 2010 by Hans J. Koch * * Licensed under the terms of the GPL v2 */ #include #include #include #include #include #include #include #include #include #include #include "common.h" #define BCLKCTR0 (CKC_BASE + BCLKCTR0_OFFS) #define BCLKCTR1 (CKC_BASE + BCLKCTR1_OFFS) #define ACLKREF (CKC_BASE + ACLKREF_OFFS) #define ACLKUART0 (CKC_BASE + ACLKUART0_OFFS) #define ACLKUART1 (CKC_BASE + ACLKUART1_OFFS) #define ACLKUART2 (CKC_BASE + ACLKUART2_OFFS) #define ACLKUART3 (CKC_BASE + ACLKUART3_OFFS) #define ACLKUART4 (CKC_BASE + ACLKUART4_OFFS) #define ACLKI2C (CKC_BASE + ACLKI2C_OFFS) #define ACLKADC (CKC_BASE + ACLKADC_OFFS) #define ACLKUSBH (CKC_BASE + ACLKUSBH_OFFS) #define ACLKLCD (CKC_BASE + ACLKLCD_OFFS) #define ACLKSDH0 (CKC_BASE + ACLKSDH0_OFFS) #define ACLKSDH1 (CKC_BASE + ACLKSDH1_OFFS) #define ACLKSPI0 (CKC_BASE + ACLKSPI0_OFFS) #define ACLKSPI1 (CKC_BASE + ACLKSPI1_OFFS) #define ACLKSPDIF (CKC_BASE + ACLKSPDIF_OFFS) #define ACLKC3DEC (CKC_BASE + ACLKC3DEC_OFFS) #define ACLKCAN0 (CKC_BASE + ACLKCAN0_OFFS) #define ACLKCAN1 (CKC_BASE + ACLKCAN1_OFFS) #define ACLKGSB0 (CKC_BASE + ACLKGSB0_OFFS) #define ACLKGSB1 (CKC_BASE + ACLKGSB1_OFFS) #define ACLKGSB2 (CKC_BASE + ACLKGSB2_OFFS) #define ACLKGSB3 (CKC_BASE + ACLKGSB3_OFFS) #define ACLKUSBH (CKC_BASE + ACLKUSBH_OFFS) #define ACLKTCT (CKC_BASE + ACLKTCT_OFFS) #define ACLKTCX (CKC_BASE + ACLKTCX_OFFS) #define ACLKTCZ (CKC_BASE + ACLKTCZ_OFFS) /* Crystal frequencies */ static unsigned long xi_rate, xti_rate; static void __iomem *pll_cfg_addr(int pll) { switch (pll) { case 0: return (CKC_BASE + PLL0CFG_OFFS); case 1: return (CKC_BASE + PLL1CFG_OFFS); case 2: return (CKC_BASE + PLL2CFG_OFFS); default: BUG(); } } static int pll_enable(int pll, int enable) { u32 reg; void __iomem *addr = pll_cfg_addr(pll); reg = __raw_readl(addr); if (enable) reg &= ~PLLxCFG_PD; else reg |= PLLxCFG_PD; __raw_writel(reg, addr); return 0; } static int xi_enable(int enable) { u32 reg; reg = __raw_readl(CKC_BASE + CLKCTRL_OFFS); if (enable) reg |= CLKCTRL_XE; else reg &= ~CLKCTRL_XE; __raw_writel(reg, CKC_BASE + CLKCTRL_OFFS); return 0; } static int root_clk_enable(enum root_clks src) { switch (src) { case CLK_SRC_PLL0: return pll_enable(0, 1); case CLK_SRC_PLL1: return pll_enable(1, 1); case CLK_SRC_PLL2: return pll_enable(2, 1); case CLK_SRC_XI: return xi_enable(1); default: BUG(); } return 0; } static int root_clk_disable(enum root_clks root_src) { switch (root_src) { case CLK_SRC_PLL0: return pll_enable(0, 0); case CLK_SRC_PLL1: return pll_enable(1, 0); case CLK_SRC_PLL2: return pll_enable(2, 0); case CLK_SRC_XI: return xi_enable(0); default: BUG(); } return 0; } static int enable_clk(struct clk *clk) { u32 reg; if (clk->root_id != CLK_SRC_NOROOT) return root_clk_enable(clk->root_id); if (clk->aclkreg) { reg = __raw_readl(clk->aclkreg); reg |= ACLK_EN; __raw_writel(reg, clk->aclkreg); } if (clk->bclkctr) { reg = __raw_readl(clk->bclkctr); reg |= 1 << clk->bclk_shift; __raw_writel(reg, clk->bclkctr); } return 0; } static void disable_clk(struct clk *clk) { u32 reg; if (clk->root_id != CLK_SRC_NOROOT) { root_clk_disable(clk->root_id); return; } if (clk->bclkctr) { reg = __raw_readl(clk->bclkctr); reg &= ~(1 << clk->bclk_shift); __raw_writel(reg, clk->bclkctr); } if (clk->aclkreg) { reg = __raw_readl(clk->aclkreg); reg &= ~ACLK_EN; __raw_writel(reg, clk->aclkreg); } } static unsigned long get_rate_pll(int pll) { u32 reg; unsigned long s, m, p; void __iomem *addr = pll_cfg_addr(pll); reg = __raw_readl(addr); s = (reg >> 16) & 0x07; m = (reg >> 8) & 0xff; p = reg & 0x3f; return (m * xi_rate) / (p * (1 << s)); } static unsigned long get_rate_pll_div(int pll) { u32 reg; unsigned long div = 0; void __iomem *addr; switch (pll) { case 0: addr = CKC_BASE + CLKDIVC0_OFFS; reg = __raw_readl(addr); if (reg & CLKDIVC0_P0E) div = (reg >> 24) & 0x3f; break; case 1: addr = CKC_BASE + CLKDIVC0_OFFS; reg = __raw_readl(addr); if (reg & CLKDIVC0_P1E) div = (reg >> 16) & 0x3f; break; case 2: addr = CKC_BASE + CLKDIVC1_OFFS; reg = __raw_readl(addr); if (reg & CLKDIVC1_P2E) div = __raw_readl(addr) & 0x3f; break; } return get_rate_pll(pll) / (div + 1); } static unsigned long get_rate_xi_div(void) { unsigned long div = 0; u32 reg = __raw_readl(CKC_BASE + CLKDIVC0_OFFS); if (reg & CLKDIVC0_XE) div = (reg >> 8) & 0x3f; return xi_rate / (div + 1); } static unsigned long get_rate_xti_div(void) { unsigned long div = 0; u32 reg = __raw_readl(CKC_BASE + CLKDIVC0_OFFS); if (reg & CLKDIVC0_XTE) div = reg & 0x3f; return xti_rate / (div + 1); } static unsigned long root_clk_get_rate(enum root_clks src) { switch (src) { case CLK_SRC_PLL0: return get_rate_pll(0); case CLK_SRC_PLL1: return get_rate_pll(1); case CLK_SRC_PLL2: return get_rate_pll(2); case CLK_SRC_PLL0DIV: return get_rate_pll_div(0); case CLK_SRC_PLL1DIV: return get_rate_pll_div(1); case CLK_SRC_PLL2DIV: return get_rate_pll_div(2); case CLK_SRC_XI: return xi_rate; case CLK_SRC_XTI: return xti_rate; case CLK_SRC_XIDIV: return get_rate_xi_div(); case CLK_SRC_XTIDIV: return get_rate_xti_div(); default: return 0; } } static unsigned long aclk_get_rate(struct clk *clk) { u32 reg; unsigned long div; unsigned int src; reg = __raw_readl(clk->aclkreg); div = reg & 0x0fff; src = (reg >> ACLK_SEL_SHIFT) & CLK_SRC_MASK; return root_clk_get_rate(src) / (div + 1); } static unsigned long aclk_best_div(struct clk *clk, unsigned long rate) { unsigned long div, src, freq, r1, r2; src = __raw_readl(clk->aclkreg) >> ACLK_SEL_SHIFT; src &= CLK_SRC_MASK; freq = root_clk_get_rate(src); div = freq / rate + 1; r1 = freq / div; r2 = freq / (div + 1); if (r2 >= rate) return div + 1; if ((rate - r2) < (r1 - rate)) return div + 1; return div; } static unsigned long aclk_round_rate(struct clk *clk, unsigned long rate) { unsigned int src; src = __raw_readl(clk->aclkreg) >> ACLK_SEL_SHIFT; src &= CLK_SRC_MASK; return root_clk_get_rate(src) / aclk_best_div(clk, rate); } static int aclk_set_rate(struct clk *clk, unsigned long rate) { u32 reg; reg = __raw_readl(clk->aclkreg) & ~ACLK_DIV_MASK; reg |= aclk_best_div(clk, rate); return 0; } static unsigned long get_rate_sys(struct clk *clk) { unsigned int src; src = __raw_readl(CKC_BASE + CLKCTRL_OFFS) & CLK_SRC_MASK; return root_clk_get_rate(src); } static unsigned long get_rate_bus(struct clk *clk) { unsigned int div; div = (__raw_readl(CKC_BASE + CLKCTRL_OFFS) >> 4) & 0xff; return get_rate_sys(clk) / (div + 1); } static unsigned long get_rate_cpu(struct clk *clk) { unsigned int reg, div, fsys, fbus; fbus = get_rate_bus(clk); reg = __raw_readl(CKC_BASE + CLKCTRL_OFFS); if (reg & (1 << 29)) return fbus; fsys = get_rate_sys(clk); div = (reg >> 16) & 0x0f; return fbus + ((fsys - fbus) * (div + 1)) / 16; } static unsigned long get_rate_root(struct clk *clk) { return root_clk_get_rate(clk->root_id); } static int aclk_set_parent(struct clk *clock, struct clk *parent) { u32 reg; if (clock->parent == parent) return 0; clock->parent = parent; if (!parent) return 0; if (parent->root_id == CLK_SRC_NOROOT) return 0; reg = __raw_readl(clock->aclkreg); reg &= ~ACLK_SEL_MASK; reg |= (parent->root_id << ACLK_SEL_SHIFT) & ACLK_SEL_MASK; __raw_writel(reg, clock->aclkreg); return 0; } #define DEFINE_ROOT_CLOCK(name, ri, p) \ static struct clk name = { \ .root_id = ri, \ .get_rate = get_rate_root, \ .enable = enable_clk, \ .disable = disable_clk, \ .parent = p, \ }; #define DEFINE_SPECIAL_CLOCK(name, gr, p) \ static struct clk name = { \ .root_id = CLK_SRC_NOROOT, \ .get_rate = gr, \ .parent = p, \ }; #define DEFINE_ACLOCK(name, bc, bs, ar) \ static struct clk name = { \ .root_id = CLK_SRC_NOROOT, \ .bclkctr = bc, \ .bclk_shift = bs, \ .aclkreg = ar, \ .get_rate = aclk_get_rate, \ .set_rate = aclk_set_rate, \ .round_rate = aclk_round_rate, \ .enable = enable_clk, \ .disable = disable_clk, \ .set_parent = aclk_set_parent, \ }; #define DEFINE_BCLOCK(name, bc, bs, gr, p) \ static struct clk name = { \ .root_id = CLK_SRC_NOROOT, \ .bclkctr = bc, \ .bclk_shift = bs, \ .get_rate = gr, \ .enable = enable_clk, \ .disable = disable_clk, \ .parent = p, \ }; DEFINE_ROOT_CLOCK(xi, CLK_SRC_XI, NULL) DEFINE_ROOT_CLOCK(xti, CLK_SRC_XTI, NULL) DEFINE_ROOT_CLOCK(xidiv, CLK_SRC_XIDIV, &xi) DEFINE_ROOT_CLOCK(xtidiv, CLK_SRC_XTIDIV, &xti) DEFINE_ROOT_CLOCK(pll0, CLK_SRC_PLL0, &xi) DEFINE_ROOT_CLOCK(pll1, CLK_SRC_PLL1, &xi) DEFINE_ROOT_CLOCK(pll2, CLK_SRC_PLL2, &xi) DEFINE_ROOT_CLOCK(pll0div, CLK_SRC_PLL0DIV, &pll0) DEFINE_ROOT_CLOCK(pll1div, CLK_SRC_PLL1DIV, &pll1) DEFINE_ROOT_CLOCK(pll2div, CLK_SRC_PLL2DIV, &pll2) /* The following 3 clocks are special and are initialized explicitly later */ DEFINE_SPECIAL_CLOCK(sys, get_rate_sys, NULL) DEFINE_SPECIAL_CLOCK(bus, get_rate_bus, &sys) DEFINE_SPECIAL_CLOCK(cpu, get_rate_cpu, &sys) DEFINE_ACLOCK(tct, NULL, 0, ACLKTCT) DEFINE_ACLOCK(tcx, NULL, 0, ACLKTCX) DEFINE_ACLOCK(tcz, NULL, 0, ACLKTCZ) DEFINE_ACLOCK(ref, NULL, 0, ACLKREF) DEFINE_ACLOCK(uart0, BCLKCTR0, 5, ACLKUART0) DEFINE_ACLOCK(uart1, BCLKCTR0, 23, ACLKUART1) DEFINE_ACLOCK(uart2, BCLKCTR0, 6, ACLKUART2) DEFINE_ACLOCK(uart3, BCLKCTR0, 8, ACLKUART3) DEFINE_ACLOCK(uart4, BCLKCTR1, 6, ACLKUART4) DEFINE_ACLOCK(i2c, BCLKCTR0, 7, ACLKI2C) DEFINE_ACLOCK(adc, BCLKCTR0, 10, ACLKADC) DEFINE_ACLOCK(usbh0, BCLKCTR0, 11, ACLKUSBH) DEFINE_ACLOCK(lcd, BCLKCTR0, 13, ACLKLCD) DEFINE_ACLOCK(sd0, BCLKCTR0, 17, ACLKSDH0) DEFINE_ACLOCK(sd1, BCLKCTR1, 5, ACLKSDH1) DEFINE_ACLOCK(spi0, BCLKCTR0, 24, ACLKSPI0) DEFINE_ACLOCK(spi1, BCLKCTR0, 30, ACLKSPI1) DEFINE_ACLOCK(spdif, BCLKCTR1, 2, ACLKSPDIF) DEFINE_ACLOCK(c3dec, BCLKCTR1, 9, ACLKC3DEC) DEFINE_ACLOCK(can0, BCLKCTR1, 10, ACLKCAN0) DEFINE_ACLOCK(can1, BCLKCTR1, 11, ACLKCAN1) DEFINE_ACLOCK(gsb0, BCLKCTR1, 13, ACLKGSB0) DEFINE_ACLOCK(gsb1, BCLKCTR1, 14, ACLKGSB1) DEFINE_ACLOCK(gsb2, BCLKCTR1, 15, ACLKGSB2) DEFINE_ACLOCK(gsb3, BCLKCTR1, 16, ACLKGSB3) DEFINE_ACLOCK(usbh1, BCLKCTR1, 20, ACLKUSBH) DEFINE_BCLOCK(dai0, BCLKCTR0, 0, NULL, NULL) DEFINE_BCLOCK(pic, BCLKCTR0, 1, NULL, NULL) DEFINE_BCLOCK(tc, BCLKCTR0, 2, NULL, NULL) DEFINE_BCLOCK(gpio, BCLKCTR0, 3, NULL, NULL) DEFINE_BCLOCK(usbd, BCLKCTR0, 4, NULL, NULL) DEFINE_BCLOCK(ecc, BCLKCTR0, 9, NULL, NULL) DEFINE_BCLOCK(gdma0, BCLKCTR0, 12, NULL, NULL) DEFINE_BCLOCK(rtc, BCLKCTR0, 15, NULL, NULL) DEFINE_BCLOCK(nfc, BCLKCTR0, 16, NULL, NULL) DEFINE_BCLOCK(g2d, BCLKCTR0, 18, NULL, NULL) DEFINE_BCLOCK(gdma1, BCLKCTR0, 22, NULL, NULL) DEFINE_BCLOCK(mscl, BCLKCTR0, 25, NULL, NULL) DEFINE_BCLOCK(bdma, BCLKCTR1, 0, NULL, NULL) DEFINE_BCLOCK(adma0, BCLKCTR1, 1, NULL, NULL) DEFINE_BCLOCK(scfg, BCLKCTR1, 3, NULL, NULL) DEFINE_BCLOCK(cid, BCLKCTR1, 4, NULL, NULL) DEFINE_BCLOCK(dai1, BCLKCTR1, 7, NULL, NULL) DEFINE_BCLOCK(adma1, BCLKCTR1, 8, NULL, NULL) DEFINE_BCLOCK(gps, BCLKCTR1, 12, NULL, NULL) DEFINE_BCLOCK(gdma2, BCLKCTR1, 17, NULL, NULL) DEFINE_BCLOCK(gdma3, BCLKCTR1, 18, NULL, NULL) DEFINE_BCLOCK(ddrc, BCLKCTR1, 19, NULL, NULL) #define _REGISTER_CLOCK(d, n, c) \ { \ .dev_id = d, \ .con_id = n, \ .clk = &c, \ }, static struct clk_lookup lookups[] = { _REGISTER_CLOCK(NULL, "bus", bus) _REGISTER_CLOCK(NULL, "cpu", cpu) _REGISTER_CLOCK(NULL, "tct", tct) _REGISTER_CLOCK(NULL, "tcx", tcx) _REGISTER_CLOCK(NULL, "tcz", tcz) _REGISTER_CLOCK(NULL, "ref", ref) _REGISTER_CLOCK(NULL, "dai0", dai0) _REGISTER_CLOCK(NULL, "pic", pic) _REGISTER_CLOCK(NULL, "tc", tc) _REGISTER_CLOCK(NULL, "gpio", gpio) _REGISTER_CLOCK(NULL, "usbd", usbd) _REGISTER_CLOCK("tcc-uart.0", NULL, uart0) _REGISTER_CLOCK("tcc-uart.2", NULL, uart2) _REGISTER_CLOCK("tcc-i2c", NULL, i2c) _REGISTER_CLOCK("tcc-uart.3", NULL, uart3) _REGISTER_CLOCK(NULL, "ecc", ecc) _REGISTER_CLOCK(NULL, "adc", adc) _REGISTER_CLOCK("tcc-usbh.0", "usb", usbh0) _REGISTER_CLOCK(NULL, "gdma0", gdma0) _REGISTER_CLOCK(NULL, "lcd", lcd) _REGISTER_CLOCK(NULL, "rtc", rtc) _REGISTER_CLOCK(NULL, "nfc", nfc) _REGISTER_CLOCK("tcc-mmc.0", NULL, sd0) _REGISTER_CLOCK(NULL, "g2d", g2d) _REGISTER_CLOCK(NULL, "gdma1", gdma1) _REGISTER_CLOCK("tcc-uart.1", NULL, uart1) _REGISTER_CLOCK("tcc-spi.0", NULL, spi0) _REGISTER_CLOCK(NULL, "mscl", mscl) _REGISTER_CLOCK("tcc-spi.1", NULL, spi1) _REGISTER_CLOCK(NULL, "bdma", bdma) _REGISTER_CLOCK(NULL, "adma0", adma0) _REGISTER_CLOCK(NULL, "spdif", spdif) _REGISTER_CLOCK(NULL, "scfg", scfg) _REGISTER_CLOCK(NULL, "cid", cid) _REGISTER_CLOCK("tcc-mmc.1", NULL, sd1) _REGISTER_CLOCK("tcc-uart.4", NULL, uart4) _REGISTER_CLOCK(NULL, "dai1", dai1) _REGISTER_CLOCK(NULL, "adma1", adma1) _REGISTER_CLOCK(NULL, "c3dec", c3dec) _REGISTER_CLOCK("tcc-can.0", NULL, can0) _REGISTER_CLOCK("tcc-can.1", NULL, can1) _REGISTER_CLOCK(NULL, "gps", gps) _REGISTER_CLOCK("tcc-gsb.0", NULL, gsb0) _REGISTER_CLOCK("tcc-gsb.1", NULL, gsb1) _REGISTER_CLOCK("tcc-gsb.2", NULL, gsb2) _REGISTER_CLOCK("tcc-gsb.3", NULL, gsb3) _REGISTER_CLOCK(NULL, "gdma2", gdma2) _REGISTER_CLOCK(NULL, "gdma3", gdma3) _REGISTER_CLOCK(NULL, "ddrc", ddrc) _REGISTER_CLOCK("tcc-usbh.1", "usb", usbh1) }; static struct clk *root_clk_by_index(enum root_clks src) { switch (src) { case CLK_SRC_PLL0: return &pll0; case CLK_SRC_PLL1: return &pll1; case CLK_SRC_PLL2: return &pll2; case CLK_SRC_PLL0DIV: return &pll0div; case CLK_SRC_PLL1DIV: return &pll1div; case CLK_SRC_PLL2DIV: return &pll2div; case CLK_SRC_XI: return ξ case CLK_SRC_XTI: return &xti; case CLK_SRC_XIDIV: return &xidiv; case CLK_SRC_XTIDIV: return &xtidiv; default: return NULL; } } static void find_aclk_parent(struct clk *clk) { unsigned int src; struct clk *clock; if (!clk->aclkreg) return; src = __raw_readl(clk->aclkreg) >> ACLK_SEL_SHIFT; src &= CLK_SRC_MASK; clock = root_clk_by_index(src); if (!clock) return; clk->parent = clock; clk->set_parent = aclk_set_parent; } void __init tcc_clocks_init(unsigned long xi_freq, unsigned long xti_freq) { int i; xi_rate = xi_freq; xti_rate = xti_freq; /* fixup parents and add the clock */ for (i = 0; i < ARRAY_SIZE(lookups); i++) { find_aclk_parent(lookups[i].clk); clkdev_add(&lookups[i]); } tcc8k_timer_init(&tcz, (void __iomem *)TIMER_BASE, INT_TC32); }