1*4882a593Smuzhiyun /*
2*4882a593Smuzhiyun * (C) Copyright 2016 Google, Inc
3*4882a593Smuzhiyun *
4*4882a593Smuzhiyun * SPDX-License-Identifier: GPL-2.0
5*4882a593Smuzhiyun */
6*4882a593Smuzhiyun
7*4882a593Smuzhiyun #include <common.h>
8*4882a593Smuzhiyun #include <clk-uclass.h>
9*4882a593Smuzhiyun #include <dm.h>
10*4882a593Smuzhiyun #include <asm/io.h>
11*4882a593Smuzhiyun #include <asm/arch/scu_ast2500.h>
12*4882a593Smuzhiyun #include <dm/lists.h>
13*4882a593Smuzhiyun #include <dt-bindings/clock/ast2500-scu.h>
14*4882a593Smuzhiyun
15*4882a593Smuzhiyun /*
16*4882a593Smuzhiyun * MAC Clock Delay settings, taken from Aspeed SDK
17*4882a593Smuzhiyun */
18*4882a593Smuzhiyun #define RGMII_TXCLK_ODLY 8
19*4882a593Smuzhiyun #define RMII_RXCLK_IDLY 2
20*4882a593Smuzhiyun
21*4882a593Smuzhiyun /*
22*4882a593Smuzhiyun * TGMII Clock Duty constants, taken from Aspeed SDK
23*4882a593Smuzhiyun */
24*4882a593Smuzhiyun #define RGMII2_TXCK_DUTY 0x66
25*4882a593Smuzhiyun #define RGMII1_TXCK_DUTY 0x64
26*4882a593Smuzhiyun
27*4882a593Smuzhiyun #define D2PLL_DEFAULT_RATE (250 * 1000 * 1000)
28*4882a593Smuzhiyun
29*4882a593Smuzhiyun DECLARE_GLOBAL_DATA_PTR;
30*4882a593Smuzhiyun
31*4882a593Smuzhiyun /*
32*4882a593Smuzhiyun * Clock divider/multiplier configuration struct.
33*4882a593Smuzhiyun * For H-PLL and M-PLL the formula is
34*4882a593Smuzhiyun * (Output Frequency) = CLKIN * ((M + 1) / (N + 1)) / (P + 1)
35*4882a593Smuzhiyun * M - Numerator
36*4882a593Smuzhiyun * N - Denumerator
37*4882a593Smuzhiyun * P - Post Divider
38*4882a593Smuzhiyun * They have the same layout in their control register.
39*4882a593Smuzhiyun *
40*4882a593Smuzhiyun * D-PLL and D2-PLL have extra divider (OD + 1), which is not
41*4882a593Smuzhiyun * yet needed and ignored by clock configurations.
42*4882a593Smuzhiyun */
43*4882a593Smuzhiyun struct ast2500_div_config {
44*4882a593Smuzhiyun unsigned int num;
45*4882a593Smuzhiyun unsigned int denum;
46*4882a593Smuzhiyun unsigned int post_div;
47*4882a593Smuzhiyun };
48*4882a593Smuzhiyun
49*4882a593Smuzhiyun /*
50*4882a593Smuzhiyun * Get the rate of the M-PLL clock from input clock frequency and
51*4882a593Smuzhiyun * the value of the M-PLL Parameter Register.
52*4882a593Smuzhiyun */
ast2500_get_mpll_rate(ulong clkin,u32 mpll_reg)53*4882a593Smuzhiyun static ulong ast2500_get_mpll_rate(ulong clkin, u32 mpll_reg)
54*4882a593Smuzhiyun {
55*4882a593Smuzhiyun const ulong num = (mpll_reg & SCU_MPLL_NUM_MASK) >> SCU_MPLL_NUM_SHIFT;
56*4882a593Smuzhiyun const ulong denum = (mpll_reg & SCU_MPLL_DENUM_MASK)
57*4882a593Smuzhiyun >> SCU_MPLL_DENUM_SHIFT;
58*4882a593Smuzhiyun const ulong post_div = (mpll_reg & SCU_MPLL_POST_MASK)
59*4882a593Smuzhiyun >> SCU_MPLL_POST_SHIFT;
60*4882a593Smuzhiyun
61*4882a593Smuzhiyun return (clkin * ((num + 1) / (denum + 1))) / (post_div + 1);
62*4882a593Smuzhiyun }
63*4882a593Smuzhiyun
64*4882a593Smuzhiyun /*
65*4882a593Smuzhiyun * Get the rate of the H-PLL clock from input clock frequency and
66*4882a593Smuzhiyun * the value of the H-PLL Parameter Register.
67*4882a593Smuzhiyun */
ast2500_get_hpll_rate(ulong clkin,u32 hpll_reg)68*4882a593Smuzhiyun static ulong ast2500_get_hpll_rate(ulong clkin, u32 hpll_reg)
69*4882a593Smuzhiyun {
70*4882a593Smuzhiyun const ulong num = (hpll_reg & SCU_HPLL_NUM_MASK) >> SCU_HPLL_NUM_SHIFT;
71*4882a593Smuzhiyun const ulong denum = (hpll_reg & SCU_HPLL_DENUM_MASK)
72*4882a593Smuzhiyun >> SCU_HPLL_DENUM_SHIFT;
73*4882a593Smuzhiyun const ulong post_div = (hpll_reg & SCU_HPLL_POST_MASK)
74*4882a593Smuzhiyun >> SCU_HPLL_POST_SHIFT;
75*4882a593Smuzhiyun
76*4882a593Smuzhiyun return (clkin * ((num + 1) / (denum + 1))) / (post_div + 1);
77*4882a593Smuzhiyun }
78*4882a593Smuzhiyun
ast2500_get_clkin(struct ast2500_scu * scu)79*4882a593Smuzhiyun static ulong ast2500_get_clkin(struct ast2500_scu *scu)
80*4882a593Smuzhiyun {
81*4882a593Smuzhiyun return readl(&scu->hwstrap) & SCU_HWSTRAP_CLKIN_25MHZ
82*4882a593Smuzhiyun ? 25 * 1000 * 1000 : 24 * 1000 * 1000;
83*4882a593Smuzhiyun }
84*4882a593Smuzhiyun
85*4882a593Smuzhiyun /**
86*4882a593Smuzhiyun * Get current rate or uart clock
87*4882a593Smuzhiyun *
88*4882a593Smuzhiyun * @scu SCU registers
89*4882a593Smuzhiyun * @uart_index UART index, 1-5
90*4882a593Smuzhiyun *
91*4882a593Smuzhiyun * @return current setting for uart clock rate
92*4882a593Smuzhiyun */
ast2500_get_uart_clk_rate(struct ast2500_scu * scu,int uart_index)93*4882a593Smuzhiyun static ulong ast2500_get_uart_clk_rate(struct ast2500_scu *scu, int uart_index)
94*4882a593Smuzhiyun {
95*4882a593Smuzhiyun /*
96*4882a593Smuzhiyun * ast2500 datasheet is very confusing when it comes to UART clocks,
97*4882a593Smuzhiyun * especially when CLKIN = 25 MHz. The settings are in
98*4882a593Smuzhiyun * different registers and it is unclear how they interact.
99*4882a593Smuzhiyun *
100*4882a593Smuzhiyun * This has only been tested with default settings and CLKIN = 24 MHz.
101*4882a593Smuzhiyun */
102*4882a593Smuzhiyun ulong uart_clkin;
103*4882a593Smuzhiyun
104*4882a593Smuzhiyun if (readl(&scu->misc_ctrl2) &
105*4882a593Smuzhiyun (1 << (uart_index - 1 + SCU_MISC2_UARTCLK_SHIFT)))
106*4882a593Smuzhiyun uart_clkin = 192 * 1000 * 1000;
107*4882a593Smuzhiyun else
108*4882a593Smuzhiyun uart_clkin = 24 * 1000 * 1000;
109*4882a593Smuzhiyun
110*4882a593Smuzhiyun if (readl(&scu->misc_ctrl1) & SCU_MISC_UARTCLK_DIV13)
111*4882a593Smuzhiyun uart_clkin /= 13;
112*4882a593Smuzhiyun
113*4882a593Smuzhiyun return uart_clkin;
114*4882a593Smuzhiyun }
115*4882a593Smuzhiyun
ast2500_clk_get_rate(struct clk * clk)116*4882a593Smuzhiyun static ulong ast2500_clk_get_rate(struct clk *clk)
117*4882a593Smuzhiyun {
118*4882a593Smuzhiyun struct ast2500_clk_priv *priv = dev_get_priv(clk->dev);
119*4882a593Smuzhiyun ulong clkin = ast2500_get_clkin(priv->scu);
120*4882a593Smuzhiyun ulong rate;
121*4882a593Smuzhiyun
122*4882a593Smuzhiyun switch (clk->id) {
123*4882a593Smuzhiyun case PLL_HPLL:
124*4882a593Smuzhiyun case ARMCLK:
125*4882a593Smuzhiyun /*
126*4882a593Smuzhiyun * This ignores dynamic/static slowdown of ARMCLK and may
127*4882a593Smuzhiyun * be inaccurate.
128*4882a593Smuzhiyun */
129*4882a593Smuzhiyun rate = ast2500_get_hpll_rate(clkin,
130*4882a593Smuzhiyun readl(&priv->scu->h_pll_param));
131*4882a593Smuzhiyun break;
132*4882a593Smuzhiyun case MCLK_DDR:
133*4882a593Smuzhiyun rate = ast2500_get_mpll_rate(clkin,
134*4882a593Smuzhiyun readl(&priv->scu->m_pll_param));
135*4882a593Smuzhiyun break;
136*4882a593Smuzhiyun case BCLK_PCLK:
137*4882a593Smuzhiyun {
138*4882a593Smuzhiyun ulong apb_div = 4 + 4 * ((readl(&priv->scu->clk_sel1)
139*4882a593Smuzhiyun & SCU_PCLK_DIV_MASK)
140*4882a593Smuzhiyun >> SCU_PCLK_DIV_SHIFT);
141*4882a593Smuzhiyun rate = ast2500_get_hpll_rate(clkin,
142*4882a593Smuzhiyun readl(&priv->
143*4882a593Smuzhiyun scu->h_pll_param));
144*4882a593Smuzhiyun rate = rate / apb_div;
145*4882a593Smuzhiyun }
146*4882a593Smuzhiyun break;
147*4882a593Smuzhiyun case PCLK_UART1:
148*4882a593Smuzhiyun rate = ast2500_get_uart_clk_rate(priv->scu, 1);
149*4882a593Smuzhiyun break;
150*4882a593Smuzhiyun case PCLK_UART2:
151*4882a593Smuzhiyun rate = ast2500_get_uart_clk_rate(priv->scu, 2);
152*4882a593Smuzhiyun break;
153*4882a593Smuzhiyun case PCLK_UART3:
154*4882a593Smuzhiyun rate = ast2500_get_uart_clk_rate(priv->scu, 3);
155*4882a593Smuzhiyun break;
156*4882a593Smuzhiyun case PCLK_UART4:
157*4882a593Smuzhiyun rate = ast2500_get_uart_clk_rate(priv->scu, 4);
158*4882a593Smuzhiyun break;
159*4882a593Smuzhiyun case PCLK_UART5:
160*4882a593Smuzhiyun rate = ast2500_get_uart_clk_rate(priv->scu, 5);
161*4882a593Smuzhiyun break;
162*4882a593Smuzhiyun default:
163*4882a593Smuzhiyun return -ENOENT;
164*4882a593Smuzhiyun }
165*4882a593Smuzhiyun
166*4882a593Smuzhiyun return rate;
167*4882a593Smuzhiyun }
168*4882a593Smuzhiyun
169*4882a593Smuzhiyun /*
170*4882a593Smuzhiyun * @input_rate - the rate of input clock in Hz
171*4882a593Smuzhiyun * @requested_rate - desired output rate in Hz
172*4882a593Smuzhiyun * @div - this is an IN/OUT parameter, at input all fields of the config
173*4882a593Smuzhiyun * need to be set to their maximum allowed values.
174*4882a593Smuzhiyun * The result (the best config we could find), would also be returned
175*4882a593Smuzhiyun * in this structure.
176*4882a593Smuzhiyun *
177*4882a593Smuzhiyun * @return The clock rate, when the resulting div_config is used.
178*4882a593Smuzhiyun */
ast2500_calc_clock_config(ulong input_rate,ulong requested_rate,struct ast2500_div_config * cfg)179*4882a593Smuzhiyun static ulong ast2500_calc_clock_config(ulong input_rate, ulong requested_rate,
180*4882a593Smuzhiyun struct ast2500_div_config *cfg)
181*4882a593Smuzhiyun {
182*4882a593Smuzhiyun /*
183*4882a593Smuzhiyun * The assumption is that kHz precision is good enough and
184*4882a593Smuzhiyun * also enough to avoid overflow when multiplying.
185*4882a593Smuzhiyun */
186*4882a593Smuzhiyun const ulong input_rate_khz = input_rate / 1000;
187*4882a593Smuzhiyun const ulong rate_khz = requested_rate / 1000;
188*4882a593Smuzhiyun const struct ast2500_div_config max_vals = *cfg;
189*4882a593Smuzhiyun struct ast2500_div_config it = { 0, 0, 0 };
190*4882a593Smuzhiyun ulong delta = rate_khz;
191*4882a593Smuzhiyun ulong new_rate_khz = 0;
192*4882a593Smuzhiyun
193*4882a593Smuzhiyun for (; it.denum <= max_vals.denum; ++it.denum) {
194*4882a593Smuzhiyun for (it.post_div = 0; it.post_div <= max_vals.post_div;
195*4882a593Smuzhiyun ++it.post_div) {
196*4882a593Smuzhiyun it.num = (rate_khz * (it.post_div + 1) / input_rate_khz)
197*4882a593Smuzhiyun * (it.denum + 1);
198*4882a593Smuzhiyun if (it.num > max_vals.num)
199*4882a593Smuzhiyun continue;
200*4882a593Smuzhiyun
201*4882a593Smuzhiyun new_rate_khz = (input_rate_khz
202*4882a593Smuzhiyun * ((it.num + 1) / (it.denum + 1)))
203*4882a593Smuzhiyun / (it.post_div + 1);
204*4882a593Smuzhiyun
205*4882a593Smuzhiyun /* Keep the rate below requested one. */
206*4882a593Smuzhiyun if (new_rate_khz > rate_khz)
207*4882a593Smuzhiyun continue;
208*4882a593Smuzhiyun
209*4882a593Smuzhiyun if (new_rate_khz - rate_khz < delta) {
210*4882a593Smuzhiyun delta = new_rate_khz - rate_khz;
211*4882a593Smuzhiyun *cfg = it;
212*4882a593Smuzhiyun if (delta == 0)
213*4882a593Smuzhiyun return new_rate_khz * 1000;
214*4882a593Smuzhiyun }
215*4882a593Smuzhiyun }
216*4882a593Smuzhiyun }
217*4882a593Smuzhiyun
218*4882a593Smuzhiyun return new_rate_khz * 1000;
219*4882a593Smuzhiyun }
220*4882a593Smuzhiyun
ast2500_configure_ddr(struct ast2500_scu * scu,ulong rate)221*4882a593Smuzhiyun static ulong ast2500_configure_ddr(struct ast2500_scu *scu, ulong rate)
222*4882a593Smuzhiyun {
223*4882a593Smuzhiyun ulong clkin = ast2500_get_clkin(scu);
224*4882a593Smuzhiyun u32 mpll_reg;
225*4882a593Smuzhiyun struct ast2500_div_config div_cfg = {
226*4882a593Smuzhiyun .num = (SCU_MPLL_NUM_MASK >> SCU_MPLL_NUM_SHIFT),
227*4882a593Smuzhiyun .denum = (SCU_MPLL_DENUM_MASK >> SCU_MPLL_DENUM_SHIFT),
228*4882a593Smuzhiyun .post_div = (SCU_MPLL_POST_MASK >> SCU_MPLL_POST_SHIFT),
229*4882a593Smuzhiyun };
230*4882a593Smuzhiyun
231*4882a593Smuzhiyun ast2500_calc_clock_config(clkin, rate, &div_cfg);
232*4882a593Smuzhiyun
233*4882a593Smuzhiyun mpll_reg = readl(&scu->m_pll_param);
234*4882a593Smuzhiyun mpll_reg &= ~(SCU_MPLL_POST_MASK | SCU_MPLL_NUM_MASK
235*4882a593Smuzhiyun | SCU_MPLL_DENUM_MASK);
236*4882a593Smuzhiyun mpll_reg |= (div_cfg.post_div << SCU_MPLL_POST_SHIFT)
237*4882a593Smuzhiyun | (div_cfg.num << SCU_MPLL_NUM_SHIFT)
238*4882a593Smuzhiyun | (div_cfg.denum << SCU_MPLL_DENUM_SHIFT);
239*4882a593Smuzhiyun
240*4882a593Smuzhiyun ast_scu_unlock(scu);
241*4882a593Smuzhiyun writel(mpll_reg, &scu->m_pll_param);
242*4882a593Smuzhiyun ast_scu_lock(scu);
243*4882a593Smuzhiyun
244*4882a593Smuzhiyun return ast2500_get_mpll_rate(clkin, mpll_reg);
245*4882a593Smuzhiyun }
246*4882a593Smuzhiyun
ast2500_configure_mac(struct ast2500_scu * scu,int index)247*4882a593Smuzhiyun static ulong ast2500_configure_mac(struct ast2500_scu *scu, int index)
248*4882a593Smuzhiyun {
249*4882a593Smuzhiyun ulong clkin = ast2500_get_clkin(scu);
250*4882a593Smuzhiyun ulong hpll_rate = ast2500_get_hpll_rate(clkin,
251*4882a593Smuzhiyun readl(&scu->h_pll_param));
252*4882a593Smuzhiyun ulong required_rate;
253*4882a593Smuzhiyun u32 hwstrap;
254*4882a593Smuzhiyun u32 divisor;
255*4882a593Smuzhiyun u32 reset_bit;
256*4882a593Smuzhiyun u32 clkstop_bit;
257*4882a593Smuzhiyun
258*4882a593Smuzhiyun /*
259*4882a593Smuzhiyun * According to data sheet, for 10/100 mode the MAC clock frequency
260*4882a593Smuzhiyun * should be at least 25MHz and for 1000 mode at least 100MHz
261*4882a593Smuzhiyun */
262*4882a593Smuzhiyun hwstrap = readl(&scu->hwstrap);
263*4882a593Smuzhiyun if (hwstrap & (SCU_HWSTRAP_MAC1_RGMII | SCU_HWSTRAP_MAC2_RGMII))
264*4882a593Smuzhiyun required_rate = 100 * 1000 * 1000;
265*4882a593Smuzhiyun else
266*4882a593Smuzhiyun required_rate = 25 * 1000 * 1000;
267*4882a593Smuzhiyun
268*4882a593Smuzhiyun divisor = hpll_rate / required_rate;
269*4882a593Smuzhiyun
270*4882a593Smuzhiyun if (divisor < 4) {
271*4882a593Smuzhiyun /* Clock can't run fast enough, but let's try anyway */
272*4882a593Smuzhiyun debug("MAC clock too slow\n");
273*4882a593Smuzhiyun divisor = 4;
274*4882a593Smuzhiyun } else if (divisor > 16) {
275*4882a593Smuzhiyun /* Can't slow down the clock enough, but let's try anyway */
276*4882a593Smuzhiyun debug("MAC clock too fast\n");
277*4882a593Smuzhiyun divisor = 16;
278*4882a593Smuzhiyun }
279*4882a593Smuzhiyun
280*4882a593Smuzhiyun switch (index) {
281*4882a593Smuzhiyun case 1:
282*4882a593Smuzhiyun reset_bit = SCU_SYSRESET_MAC1;
283*4882a593Smuzhiyun clkstop_bit = SCU_CLKSTOP_MAC1;
284*4882a593Smuzhiyun break;
285*4882a593Smuzhiyun case 2:
286*4882a593Smuzhiyun reset_bit = SCU_SYSRESET_MAC2;
287*4882a593Smuzhiyun clkstop_bit = SCU_CLKSTOP_MAC2;
288*4882a593Smuzhiyun break;
289*4882a593Smuzhiyun default:
290*4882a593Smuzhiyun return -EINVAL;
291*4882a593Smuzhiyun }
292*4882a593Smuzhiyun
293*4882a593Smuzhiyun ast_scu_unlock(scu);
294*4882a593Smuzhiyun clrsetbits_le32(&scu->clk_sel1, SCU_MACCLK_MASK,
295*4882a593Smuzhiyun ((divisor - 2) / 2) << SCU_MACCLK_SHIFT);
296*4882a593Smuzhiyun
297*4882a593Smuzhiyun /*
298*4882a593Smuzhiyun * Disable MAC, start its clock and re-enable it.
299*4882a593Smuzhiyun * The procedure and the delays (100us & 10ms) are
300*4882a593Smuzhiyun * specified in the datasheet.
301*4882a593Smuzhiyun */
302*4882a593Smuzhiyun setbits_le32(&scu->sysreset_ctrl1, reset_bit);
303*4882a593Smuzhiyun udelay(100);
304*4882a593Smuzhiyun clrbits_le32(&scu->clk_stop_ctrl1, clkstop_bit);
305*4882a593Smuzhiyun mdelay(10);
306*4882a593Smuzhiyun clrbits_le32(&scu->sysreset_ctrl1, reset_bit);
307*4882a593Smuzhiyun
308*4882a593Smuzhiyun writel((RGMII2_TXCK_DUTY << SCU_CLKDUTY_RGMII2TXCK_SHIFT)
309*4882a593Smuzhiyun | (RGMII1_TXCK_DUTY << SCU_CLKDUTY_RGMII1TXCK_SHIFT),
310*4882a593Smuzhiyun &scu->clk_duty_sel);
311*4882a593Smuzhiyun
312*4882a593Smuzhiyun ast_scu_lock(scu);
313*4882a593Smuzhiyun
314*4882a593Smuzhiyun return required_rate;
315*4882a593Smuzhiyun }
316*4882a593Smuzhiyun
ast2500_configure_d2pll(struct ast2500_scu * scu,ulong rate)317*4882a593Smuzhiyun static ulong ast2500_configure_d2pll(struct ast2500_scu *scu, ulong rate)
318*4882a593Smuzhiyun {
319*4882a593Smuzhiyun /*
320*4882a593Smuzhiyun * The values and the meaning of the next three
321*4882a593Smuzhiyun * parameters are undocumented. Taken from Aspeed SDK.
322*4882a593Smuzhiyun */
323*4882a593Smuzhiyun const u32 d2_pll_ext_param = 0x2c;
324*4882a593Smuzhiyun const u32 d2_pll_sip = 0x11;
325*4882a593Smuzhiyun const u32 d2_pll_sic = 0x18;
326*4882a593Smuzhiyun u32 clk_delay_settings =
327*4882a593Smuzhiyun (RMII_RXCLK_IDLY << SCU_MICDS_MAC1RMII_RDLY_SHIFT)
328*4882a593Smuzhiyun | (RMII_RXCLK_IDLY << SCU_MICDS_MAC2RMII_RDLY_SHIFT)
329*4882a593Smuzhiyun | (RGMII_TXCLK_ODLY << SCU_MICDS_MAC1RGMII_TXDLY_SHIFT)
330*4882a593Smuzhiyun | (RGMII_TXCLK_ODLY << SCU_MICDS_MAC2RGMII_TXDLY_SHIFT);
331*4882a593Smuzhiyun struct ast2500_div_config div_cfg = {
332*4882a593Smuzhiyun .num = SCU_D2PLL_NUM_MASK >> SCU_D2PLL_NUM_SHIFT,
333*4882a593Smuzhiyun .denum = SCU_D2PLL_DENUM_MASK >> SCU_D2PLL_DENUM_SHIFT,
334*4882a593Smuzhiyun .post_div = SCU_D2PLL_POST_MASK >> SCU_D2PLL_POST_SHIFT,
335*4882a593Smuzhiyun };
336*4882a593Smuzhiyun ulong clkin = ast2500_get_clkin(scu);
337*4882a593Smuzhiyun ulong new_rate;
338*4882a593Smuzhiyun
339*4882a593Smuzhiyun ast_scu_unlock(scu);
340*4882a593Smuzhiyun writel((d2_pll_ext_param << SCU_D2PLL_EXT1_PARAM_SHIFT)
341*4882a593Smuzhiyun | SCU_D2PLL_EXT1_OFF
342*4882a593Smuzhiyun | SCU_D2PLL_EXT1_RESET, &scu->d2_pll_ext_param[0]);
343*4882a593Smuzhiyun
344*4882a593Smuzhiyun /*
345*4882a593Smuzhiyun * Select USB2.0 port1 PHY clock as a clock source for GCRT.
346*4882a593Smuzhiyun * This would disconnect it from D2-PLL.
347*4882a593Smuzhiyun */
348*4882a593Smuzhiyun clrsetbits_le32(&scu->misc_ctrl1, SCU_MISC_D2PLL_OFF,
349*4882a593Smuzhiyun SCU_MISC_GCRT_USB20CLK);
350*4882a593Smuzhiyun
351*4882a593Smuzhiyun new_rate = ast2500_calc_clock_config(clkin, rate, &div_cfg);
352*4882a593Smuzhiyun writel((d2_pll_sip << SCU_D2PLL_SIP_SHIFT)
353*4882a593Smuzhiyun | (d2_pll_sic << SCU_D2PLL_SIC_SHIFT)
354*4882a593Smuzhiyun | (div_cfg.num << SCU_D2PLL_NUM_SHIFT)
355*4882a593Smuzhiyun | (div_cfg.denum << SCU_D2PLL_DENUM_SHIFT)
356*4882a593Smuzhiyun | (div_cfg.post_div << SCU_D2PLL_POST_SHIFT),
357*4882a593Smuzhiyun &scu->d2_pll_param);
358*4882a593Smuzhiyun
359*4882a593Smuzhiyun clrbits_le32(&scu->d2_pll_ext_param[0],
360*4882a593Smuzhiyun SCU_D2PLL_EXT1_OFF | SCU_D2PLL_EXT1_RESET);
361*4882a593Smuzhiyun
362*4882a593Smuzhiyun clrsetbits_le32(&scu->misc_ctrl2,
363*4882a593Smuzhiyun SCU_MISC2_RGMII_HPLL | SCU_MISC2_RMII_MPLL
364*4882a593Smuzhiyun | SCU_MISC2_RGMII_CLKDIV_MASK |
365*4882a593Smuzhiyun SCU_MISC2_RMII_CLKDIV_MASK,
366*4882a593Smuzhiyun (4 << SCU_MISC2_RMII_CLKDIV_SHIFT));
367*4882a593Smuzhiyun
368*4882a593Smuzhiyun writel(clk_delay_settings | SCU_MICDS_RGMIIPLL, &scu->mac_clk_delay);
369*4882a593Smuzhiyun writel(clk_delay_settings, &scu->mac_clk_delay_100M);
370*4882a593Smuzhiyun writel(clk_delay_settings, &scu->mac_clk_delay_10M);
371*4882a593Smuzhiyun
372*4882a593Smuzhiyun ast_scu_lock(scu);
373*4882a593Smuzhiyun
374*4882a593Smuzhiyun return new_rate;
375*4882a593Smuzhiyun }
376*4882a593Smuzhiyun
ast2500_clk_set_rate(struct clk * clk,ulong rate)377*4882a593Smuzhiyun static ulong ast2500_clk_set_rate(struct clk *clk, ulong rate)
378*4882a593Smuzhiyun {
379*4882a593Smuzhiyun struct ast2500_clk_priv *priv = dev_get_priv(clk->dev);
380*4882a593Smuzhiyun
381*4882a593Smuzhiyun ulong new_rate;
382*4882a593Smuzhiyun switch (clk->id) {
383*4882a593Smuzhiyun case PLL_MPLL:
384*4882a593Smuzhiyun case MCLK_DDR:
385*4882a593Smuzhiyun new_rate = ast2500_configure_ddr(priv->scu, rate);
386*4882a593Smuzhiyun break;
387*4882a593Smuzhiyun case PLL_D2PLL:
388*4882a593Smuzhiyun new_rate = ast2500_configure_d2pll(priv->scu, rate);
389*4882a593Smuzhiyun break;
390*4882a593Smuzhiyun default:
391*4882a593Smuzhiyun return -ENOENT;
392*4882a593Smuzhiyun }
393*4882a593Smuzhiyun
394*4882a593Smuzhiyun return new_rate;
395*4882a593Smuzhiyun }
396*4882a593Smuzhiyun
ast2500_clk_enable(struct clk * clk)397*4882a593Smuzhiyun static int ast2500_clk_enable(struct clk *clk)
398*4882a593Smuzhiyun {
399*4882a593Smuzhiyun struct ast2500_clk_priv *priv = dev_get_priv(clk->dev);
400*4882a593Smuzhiyun
401*4882a593Smuzhiyun switch (clk->id) {
402*4882a593Smuzhiyun /*
403*4882a593Smuzhiyun * For MAC clocks the clock rate is
404*4882a593Smuzhiyun * configured based on whether RGMII or RMII mode has been selected
405*4882a593Smuzhiyun * through hardware strapping.
406*4882a593Smuzhiyun */
407*4882a593Smuzhiyun case PCLK_MAC1:
408*4882a593Smuzhiyun ast2500_configure_mac(priv->scu, 1);
409*4882a593Smuzhiyun break;
410*4882a593Smuzhiyun case PCLK_MAC2:
411*4882a593Smuzhiyun ast2500_configure_mac(priv->scu, 2);
412*4882a593Smuzhiyun break;
413*4882a593Smuzhiyun case PLL_D2PLL:
414*4882a593Smuzhiyun ast2500_configure_d2pll(priv->scu, D2PLL_DEFAULT_RATE);
415*4882a593Smuzhiyun default:
416*4882a593Smuzhiyun return -ENOENT;
417*4882a593Smuzhiyun }
418*4882a593Smuzhiyun
419*4882a593Smuzhiyun return 0;
420*4882a593Smuzhiyun }
421*4882a593Smuzhiyun
422*4882a593Smuzhiyun struct clk_ops ast2500_clk_ops = {
423*4882a593Smuzhiyun .get_rate = ast2500_clk_get_rate,
424*4882a593Smuzhiyun .set_rate = ast2500_clk_set_rate,
425*4882a593Smuzhiyun .enable = ast2500_clk_enable,
426*4882a593Smuzhiyun };
427*4882a593Smuzhiyun
ast2500_clk_probe(struct udevice * dev)428*4882a593Smuzhiyun static int ast2500_clk_probe(struct udevice *dev)
429*4882a593Smuzhiyun {
430*4882a593Smuzhiyun struct ast2500_clk_priv *priv = dev_get_priv(dev);
431*4882a593Smuzhiyun
432*4882a593Smuzhiyun priv->scu = devfdt_get_addr_ptr(dev);
433*4882a593Smuzhiyun if (IS_ERR(priv->scu))
434*4882a593Smuzhiyun return PTR_ERR(priv->scu);
435*4882a593Smuzhiyun
436*4882a593Smuzhiyun return 0;
437*4882a593Smuzhiyun }
438*4882a593Smuzhiyun
ast2500_clk_bind(struct udevice * dev)439*4882a593Smuzhiyun static int ast2500_clk_bind(struct udevice *dev)
440*4882a593Smuzhiyun {
441*4882a593Smuzhiyun int ret;
442*4882a593Smuzhiyun
443*4882a593Smuzhiyun /* The reset driver does not have a device node, so bind it here */
444*4882a593Smuzhiyun ret = device_bind_driver(gd->dm_root, "ast_sysreset", "reset", &dev);
445*4882a593Smuzhiyun if (ret)
446*4882a593Smuzhiyun debug("Warning: No reset driver: ret=%d\n", ret);
447*4882a593Smuzhiyun
448*4882a593Smuzhiyun return 0;
449*4882a593Smuzhiyun }
450*4882a593Smuzhiyun
451*4882a593Smuzhiyun static const struct udevice_id ast2500_clk_ids[] = {
452*4882a593Smuzhiyun { .compatible = "aspeed,ast2500-scu" },
453*4882a593Smuzhiyun { }
454*4882a593Smuzhiyun };
455*4882a593Smuzhiyun
456*4882a593Smuzhiyun U_BOOT_DRIVER(aspeed_ast2500_scu) = {
457*4882a593Smuzhiyun .name = "aspeed_ast2500_scu",
458*4882a593Smuzhiyun .id = UCLASS_CLK,
459*4882a593Smuzhiyun .of_match = ast2500_clk_ids,
460*4882a593Smuzhiyun .priv_auto_alloc_size = sizeof(struct ast2500_clk_priv),
461*4882a593Smuzhiyun .ops = &ast2500_clk_ops,
462*4882a593Smuzhiyun .bind = ast2500_clk_bind,
463*4882a593Smuzhiyun .probe = ast2500_clk_probe,
464*4882a593Smuzhiyun };
465