1*09f455dcSMasahiro Yamada /*
2*09f455dcSMasahiro Yamada * (C) Copyright 2010 - 2011
3*09f455dcSMasahiro Yamada * NVIDIA Corporation <www.nvidia.com>
4*09f455dcSMasahiro Yamada *
5*09f455dcSMasahiro Yamada * SPDX-License-Identifier: GPL-2.0+
6*09f455dcSMasahiro Yamada */
7*09f455dcSMasahiro Yamada
8*09f455dcSMasahiro Yamada #include <common.h>
9*09f455dcSMasahiro Yamada #include <asm/io.h>
10*09f455dcSMasahiro Yamada #include <asm/arch/clock.h>
11*09f455dcSMasahiro Yamada #include <asm/arch/flow.h>
12*09f455dcSMasahiro Yamada #include <asm/arch/pinmux.h>
13*09f455dcSMasahiro Yamada #include <asm/arch/tegra.h>
14*09f455dcSMasahiro Yamada #include <asm/arch-tegra/ap.h>
15*09f455dcSMasahiro Yamada #include <asm/arch-tegra/apb_misc.h>
16*09f455dcSMasahiro Yamada #include <asm/arch-tegra/clk_rst.h>
17*09f455dcSMasahiro Yamada #include <asm/arch-tegra/pmc.h>
18*09f455dcSMasahiro Yamada #include <asm/arch-tegra/warmboot.h>
19*09f455dcSMasahiro Yamada #include "warmboot_avp.h"
20*09f455dcSMasahiro Yamada
21*09f455dcSMasahiro Yamada #define DEBUG_RESET_CORESIGHT
22*09f455dcSMasahiro Yamada
wb_start(void)23*09f455dcSMasahiro Yamada void wb_start(void)
24*09f455dcSMasahiro Yamada {
25*09f455dcSMasahiro Yamada struct apb_misc_pp_ctlr *apb_misc =
26*09f455dcSMasahiro Yamada (struct apb_misc_pp_ctlr *)NV_PA_APB_MISC_BASE;
27*09f455dcSMasahiro Yamada struct pmc_ctlr *pmc = (struct pmc_ctlr *)NV_PA_PMC_BASE;
28*09f455dcSMasahiro Yamada struct flow_ctlr *flow = (struct flow_ctlr *)NV_PA_FLOW_BASE;
29*09f455dcSMasahiro Yamada struct clk_rst_ctlr *clkrst =
30*09f455dcSMasahiro Yamada (struct clk_rst_ctlr *)NV_PA_CLK_RST_BASE;
31*09f455dcSMasahiro Yamada union osc_ctrl_reg osc_ctrl;
32*09f455dcSMasahiro Yamada union pllx_base_reg pllx_base;
33*09f455dcSMasahiro Yamada union pllx_misc_reg pllx_misc;
34*09f455dcSMasahiro Yamada union scratch3_reg scratch3;
35*09f455dcSMasahiro Yamada u32 reg;
36*09f455dcSMasahiro Yamada
37*09f455dcSMasahiro Yamada /* enable JTAG & TBE */
38*09f455dcSMasahiro Yamada writel(CONFIG_CTL_TBE | CONFIG_CTL_JTAG, &apb_misc->cfg_ctl);
39*09f455dcSMasahiro Yamada
40*09f455dcSMasahiro Yamada /* Are we running where we're supposed to be? */
41*09f455dcSMasahiro Yamada asm volatile (
42*09f455dcSMasahiro Yamada "adr %0, wb_start;" /* reg: wb_start address */
43*09f455dcSMasahiro Yamada : "=r"(reg) /* output */
44*09f455dcSMasahiro Yamada /* no input, no clobber list */
45*09f455dcSMasahiro Yamada );
46*09f455dcSMasahiro Yamada
47*09f455dcSMasahiro Yamada if (reg != NV_WB_RUN_ADDRESS)
48*09f455dcSMasahiro Yamada goto do_reset;
49*09f455dcSMasahiro Yamada
50*09f455dcSMasahiro Yamada /* Are we running with AVP? */
51*09f455dcSMasahiro Yamada if (readl(NV_PA_PG_UP_BASE + PG_UP_TAG_0) != PG_UP_TAG_AVP)
52*09f455dcSMasahiro Yamada goto do_reset;
53*09f455dcSMasahiro Yamada
54*09f455dcSMasahiro Yamada #ifdef DEBUG_RESET_CORESIGHT
55*09f455dcSMasahiro Yamada /* Assert CoreSight reset */
56*09f455dcSMasahiro Yamada reg = readl(&clkrst->crc_rst_dev[TEGRA_DEV_U]);
57*09f455dcSMasahiro Yamada reg |= SWR_CSITE_RST;
58*09f455dcSMasahiro Yamada writel(reg, &clkrst->crc_rst_dev[TEGRA_DEV_U]);
59*09f455dcSMasahiro Yamada #endif
60*09f455dcSMasahiro Yamada
61*09f455dcSMasahiro Yamada /* TODO: Set the drive strength - maybe make this a board parameter? */
62*09f455dcSMasahiro Yamada osc_ctrl.word = readl(&clkrst->crc_osc_ctrl);
63*09f455dcSMasahiro Yamada osc_ctrl.xofs = 4;
64*09f455dcSMasahiro Yamada osc_ctrl.xoe = 1;
65*09f455dcSMasahiro Yamada writel(osc_ctrl.word, &clkrst->crc_osc_ctrl);
66*09f455dcSMasahiro Yamada
67*09f455dcSMasahiro Yamada /* Power up the CPU complex if necessary */
68*09f455dcSMasahiro Yamada if (!(readl(&pmc->pmc_pwrgate_status) & PWRGATE_STATUS_CPU)) {
69*09f455dcSMasahiro Yamada reg = PWRGATE_TOGGLE_PARTID_CPU | PWRGATE_TOGGLE_START;
70*09f455dcSMasahiro Yamada writel(reg, &pmc->pmc_pwrgate_toggle);
71*09f455dcSMasahiro Yamada while (!(readl(&pmc->pmc_pwrgate_status) & PWRGATE_STATUS_CPU))
72*09f455dcSMasahiro Yamada ;
73*09f455dcSMasahiro Yamada }
74*09f455dcSMasahiro Yamada
75*09f455dcSMasahiro Yamada /* Remove the I/O clamps from the CPU power partition. */
76*09f455dcSMasahiro Yamada reg = readl(&pmc->pmc_remove_clamping);
77*09f455dcSMasahiro Yamada reg |= CPU_CLMP;
78*09f455dcSMasahiro Yamada writel(reg, &pmc->pmc_remove_clamping);
79*09f455dcSMasahiro Yamada
80*09f455dcSMasahiro Yamada reg = EVENT_ZERO_VAL_20 | EVENT_MSEC | EVENT_MODE_STOP;
81*09f455dcSMasahiro Yamada writel(reg, &flow->halt_cop_events);
82*09f455dcSMasahiro Yamada
83*09f455dcSMasahiro Yamada /* Assert CPU complex reset */
84*09f455dcSMasahiro Yamada reg = readl(&clkrst->crc_rst_dev[TEGRA_DEV_L]);
85*09f455dcSMasahiro Yamada reg |= CPU_RST;
86*09f455dcSMasahiro Yamada writel(reg, &clkrst->crc_rst_dev[TEGRA_DEV_L]);
87*09f455dcSMasahiro Yamada
88*09f455dcSMasahiro Yamada /* Hold both CPUs in reset */
89*09f455dcSMasahiro Yamada reg = CPU_CMPLX_CPURESET0 | CPU_CMPLX_CPURESET1 | CPU_CMPLX_DERESET0 |
90*09f455dcSMasahiro Yamada CPU_CMPLX_DERESET1 | CPU_CMPLX_DBGRESET0 | CPU_CMPLX_DBGRESET1;
91*09f455dcSMasahiro Yamada writel(reg, &clkrst->crc_cpu_cmplx_set);
92*09f455dcSMasahiro Yamada
93*09f455dcSMasahiro Yamada /* Halt CPU1 at the flow controller for uni-processor configurations */
94*09f455dcSMasahiro Yamada writel(EVENT_MODE_STOP, &flow->halt_cpu1_events);
95*09f455dcSMasahiro Yamada
96*09f455dcSMasahiro Yamada /*
97*09f455dcSMasahiro Yamada * Set the CPU reset vector. SCRATCH41 contains the physical
98*09f455dcSMasahiro Yamada * address of the CPU-side restoration code.
99*09f455dcSMasahiro Yamada */
100*09f455dcSMasahiro Yamada reg = readl(&pmc->pmc_scratch41);
101*09f455dcSMasahiro Yamada writel(reg, EXCEP_VECTOR_CPU_RESET_VECTOR);
102*09f455dcSMasahiro Yamada
103*09f455dcSMasahiro Yamada /* Select CPU complex clock source */
104*09f455dcSMasahiro Yamada writel(CCLK_PLLP_BURST_POLICY, &clkrst->crc_cclk_brst_pol);
105*09f455dcSMasahiro Yamada
106*09f455dcSMasahiro Yamada /* Start the CPU0 clock and stop the CPU1 clock */
107*09f455dcSMasahiro Yamada reg = CPU_CMPLX_CPU_BRIDGE_CLKDIV_4 | CPU_CMPLX_CPU0_CLK_STP_RUN |
108*09f455dcSMasahiro Yamada CPU_CMPLX_CPU1_CLK_STP_STOP;
109*09f455dcSMasahiro Yamada writel(reg, &clkrst->crc_clk_cpu_cmplx);
110*09f455dcSMasahiro Yamada
111*09f455dcSMasahiro Yamada /* Enable the CPU complex clock */
112*09f455dcSMasahiro Yamada reg = readl(&clkrst->crc_clk_out_enb[TEGRA_DEV_L]);
113*09f455dcSMasahiro Yamada reg |= CLK_ENB_CPU;
114*09f455dcSMasahiro Yamada writel(reg, &clkrst->crc_clk_out_enb[TEGRA_DEV_L]);
115*09f455dcSMasahiro Yamada
116*09f455dcSMasahiro Yamada /* Make sure the resets were held for at least 2 microseconds */
117*09f455dcSMasahiro Yamada reg = readl(TIMER_USEC_CNTR);
118*09f455dcSMasahiro Yamada while (readl(TIMER_USEC_CNTR) <= (reg + 2))
119*09f455dcSMasahiro Yamada ;
120*09f455dcSMasahiro Yamada
121*09f455dcSMasahiro Yamada #ifdef DEBUG_RESET_CORESIGHT
122*09f455dcSMasahiro Yamada /*
123*09f455dcSMasahiro Yamada * De-assert CoreSight reset.
124*09f455dcSMasahiro Yamada * NOTE: We're leaving the CoreSight clock on the oscillator for
125*09f455dcSMasahiro Yamada * now. It will be restored to its original clock source
126*09f455dcSMasahiro Yamada * when the CPU-side restoration code runs.
127*09f455dcSMasahiro Yamada */
128*09f455dcSMasahiro Yamada reg = readl(&clkrst->crc_rst_dev[TEGRA_DEV_U]);
129*09f455dcSMasahiro Yamada reg &= ~SWR_CSITE_RST;
130*09f455dcSMasahiro Yamada writel(reg, &clkrst->crc_rst_dev[TEGRA_DEV_U]);
131*09f455dcSMasahiro Yamada #endif
132*09f455dcSMasahiro Yamada
133*09f455dcSMasahiro Yamada /* Unlock the CPU CoreSight interfaces */
134*09f455dcSMasahiro Yamada reg = 0xC5ACCE55;
135*09f455dcSMasahiro Yamada writel(reg, CSITE_CPU_DBG0_LAR);
136*09f455dcSMasahiro Yamada writel(reg, CSITE_CPU_DBG1_LAR);
137*09f455dcSMasahiro Yamada
138*09f455dcSMasahiro Yamada /*
139*09f455dcSMasahiro Yamada * Sample the microsecond timestamp again. This is the time we must
140*09f455dcSMasahiro Yamada * use when returning from LP0 for PLL stabilization delays.
141*09f455dcSMasahiro Yamada */
142*09f455dcSMasahiro Yamada reg = readl(TIMER_USEC_CNTR);
143*09f455dcSMasahiro Yamada writel(reg, &pmc->pmc_scratch1);
144*09f455dcSMasahiro Yamada
145*09f455dcSMasahiro Yamada pllx_base.word = 0;
146*09f455dcSMasahiro Yamada pllx_misc.word = 0;
147*09f455dcSMasahiro Yamada scratch3.word = readl(&pmc->pmc_scratch3);
148*09f455dcSMasahiro Yamada
149*09f455dcSMasahiro Yamada /* Get the OSC. For 19.2 MHz, use 19 to make the calculations easier */
150*09f455dcSMasahiro Yamada reg = (readl(TIMER_USEC_CFG) & USEC_CFG_DIVISOR_MASK) + 1;
151*09f455dcSMasahiro Yamada
152*09f455dcSMasahiro Yamada /*
153*09f455dcSMasahiro Yamada * According to the TRM, for 19.2MHz OSC, the USEC_DIVISOR is 0x5f, and
154*09f455dcSMasahiro Yamada * USEC_DIVIDEND is 0x04. So, if USEC_DIVISOR > 26, OSC is 19.2 MHz.
155*09f455dcSMasahiro Yamada *
156*09f455dcSMasahiro Yamada * reg is used to calculate the pllx freq, which is used to determine if
157*09f455dcSMasahiro Yamada * to set dccon or not.
158*09f455dcSMasahiro Yamada */
159*09f455dcSMasahiro Yamada if (reg > 26)
160*09f455dcSMasahiro Yamada reg = 19;
161*09f455dcSMasahiro Yamada
162*09f455dcSMasahiro Yamada /* PLLX_BASE.PLLX_DIVM */
163*09f455dcSMasahiro Yamada if (scratch3.pllx_base_divm == reg)
164*09f455dcSMasahiro Yamada reg = 0;
165*09f455dcSMasahiro Yamada else
166*09f455dcSMasahiro Yamada reg = 1;
167*09f455dcSMasahiro Yamada
168*09f455dcSMasahiro Yamada /* PLLX_BASE.PLLX_DIVN */
169*09f455dcSMasahiro Yamada pllx_base.divn = scratch3.pllx_base_divn;
170*09f455dcSMasahiro Yamada reg = scratch3.pllx_base_divn << reg;
171*09f455dcSMasahiro Yamada
172*09f455dcSMasahiro Yamada /* PLLX_BASE.PLLX_DIVP */
173*09f455dcSMasahiro Yamada pllx_base.divp = scratch3.pllx_base_divp;
174*09f455dcSMasahiro Yamada reg = reg >> scratch3.pllx_base_divp;
175*09f455dcSMasahiro Yamada
176*09f455dcSMasahiro Yamada pllx_base.bypass = 1;
177*09f455dcSMasahiro Yamada
178*09f455dcSMasahiro Yamada /* PLLX_MISC_DCCON must be set for pllx frequency > 600 MHz. */
179*09f455dcSMasahiro Yamada if (reg > 600)
180*09f455dcSMasahiro Yamada pllx_misc.dccon = 1;
181*09f455dcSMasahiro Yamada
182*09f455dcSMasahiro Yamada /* PLLX_MISC_LFCON */
183*09f455dcSMasahiro Yamada pllx_misc.lfcon = scratch3.pllx_misc_lfcon;
184*09f455dcSMasahiro Yamada
185*09f455dcSMasahiro Yamada /* PLLX_MISC_CPCON */
186*09f455dcSMasahiro Yamada pllx_misc.cpcon = scratch3.pllx_misc_cpcon;
187*09f455dcSMasahiro Yamada
188*09f455dcSMasahiro Yamada writel(pllx_misc.word, &clkrst->crc_pll_simple[SIMPLE_PLLX].pll_misc);
189*09f455dcSMasahiro Yamada writel(pllx_base.word, &clkrst->crc_pll_simple[SIMPLE_PLLX].pll_base);
190*09f455dcSMasahiro Yamada
191*09f455dcSMasahiro Yamada pllx_base.enable = 1;
192*09f455dcSMasahiro Yamada writel(pllx_base.word, &clkrst->crc_pll_simple[SIMPLE_PLLX].pll_base);
193*09f455dcSMasahiro Yamada pllx_base.bypass = 0;
194*09f455dcSMasahiro Yamada writel(pllx_base.word, &clkrst->crc_pll_simple[SIMPLE_PLLX].pll_base);
195*09f455dcSMasahiro Yamada
196*09f455dcSMasahiro Yamada writel(0, flow->halt_cpu_events);
197*09f455dcSMasahiro Yamada
198*09f455dcSMasahiro Yamada reg = CPU_CMPLX_CPURESET0 | CPU_CMPLX_DBGRESET0 | CPU_CMPLX_DERESET0;
199*09f455dcSMasahiro Yamada writel(reg, &clkrst->crc_cpu_cmplx_clr);
200*09f455dcSMasahiro Yamada
201*09f455dcSMasahiro Yamada reg = PLLM_OUT1_RSTN_RESET_DISABLE | PLLM_OUT1_CLKEN_ENABLE |
202*09f455dcSMasahiro Yamada PLLM_OUT1_RATIO_VAL_8;
203*09f455dcSMasahiro Yamada writel(reg, &clkrst->crc_pll[CLOCK_ID_MEMORY].pll_out[0]);
204*09f455dcSMasahiro Yamada
205*09f455dcSMasahiro Yamada reg = SCLK_SWAKE_FIQ_SRC_PLLM_OUT1 | SCLK_SWAKE_IRQ_SRC_PLLM_OUT1 |
206*09f455dcSMasahiro Yamada SCLK_SWAKE_RUN_SRC_PLLM_OUT1 | SCLK_SWAKE_IDLE_SRC_PLLM_OUT1 |
207*09f455dcSMasahiro Yamada SCLK_SYS_STATE_IDLE;
208*09f455dcSMasahiro Yamada writel(reg, &clkrst->crc_sclk_brst_pol);
209*09f455dcSMasahiro Yamada
210*09f455dcSMasahiro Yamada /* avp_resume: no return after the write */
211*09f455dcSMasahiro Yamada reg = readl(&clkrst->crc_rst_dev[TEGRA_DEV_L]);
212*09f455dcSMasahiro Yamada reg &= ~CPU_RST;
213*09f455dcSMasahiro Yamada writel(reg, &clkrst->crc_rst_dev[TEGRA_DEV_L]);
214*09f455dcSMasahiro Yamada
215*09f455dcSMasahiro Yamada /* avp_halt: */
216*09f455dcSMasahiro Yamada avp_halt:
217*09f455dcSMasahiro Yamada reg = EVENT_MODE_STOP | EVENT_JTAG;
218*09f455dcSMasahiro Yamada writel(reg, flow->halt_cop_events);
219*09f455dcSMasahiro Yamada goto avp_halt;
220*09f455dcSMasahiro Yamada
221*09f455dcSMasahiro Yamada do_reset:
222*09f455dcSMasahiro Yamada /*
223*09f455dcSMasahiro Yamada * Execution comes here if something goes wrong. The chip is reset and
224*09f455dcSMasahiro Yamada * a cold boot is performed.
225*09f455dcSMasahiro Yamada */
226*09f455dcSMasahiro Yamada writel(SWR_TRIG_SYS_RST, &clkrst->crc_rst_dev[TEGRA_DEV_L]);
227*09f455dcSMasahiro Yamada goto do_reset;
228*09f455dcSMasahiro Yamada }
229*09f455dcSMasahiro Yamada
230*09f455dcSMasahiro Yamada /*
231*09f455dcSMasahiro Yamada * wb_end() is a dummy function, and must be directly following wb_start(),
232*09f455dcSMasahiro Yamada * and is used to calculate the size of wb_start().
233*09f455dcSMasahiro Yamada */
wb_end(void)234*09f455dcSMasahiro Yamada void wb_end(void)
235*09f455dcSMasahiro Yamada {
236*09f455dcSMasahiro Yamada }
237