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Diffstat (limited to 'src/soc/nvidia/tegra124/clock.c')
-rw-r--r--src/soc/nvidia/tegra124/clock.c228
1 files changed, 157 insertions, 71 deletions
diff --git a/src/soc/nvidia/tegra124/clock.c b/src/soc/nvidia/tegra124/clock.c
index 5298ce820f..d98da29469 100644
--- a/src/soc/nvidia/tegra124/clock.c
+++ b/src/soc/nvidia/tegra124/clock.c
@@ -20,8 +20,8 @@
#include <soc/clock.h>
#include <stdlib.h>
#include "clk_rst.h"
-#include "cpug.h"
#include "flow.h"
+#include "maincpu.h"
#include "pmc.h"
#include "sysctr.h"
@@ -79,7 +79,8 @@ union __attribute__((transparent_union)) pll_fields {
/* This table defines the frequency dividers for every PLL to turn the external
* OSC clock into the frequencies defined by TEGRA_PLL*_KHZ in soc/clock.h.
* All PLLs have three dividers (N, M and P), with the governing formula for
- * the output frequency being OUT = (IN / m) * N / (2^P). */
+ * the output frequency being OUT = (IN / m) * N / (2^P).
+ * Yes, it really is one equation with three unknowns ... */
struct {
int khz;
struct pllcx_dividers pllx; /* target: 1900 MHz */
@@ -87,62 +88,78 @@ struct {
struct pllcx_dividers pllc; /* target: 600 MHz */
struct pllpad_dividers plld; /* target: 925 MHz */
struct pllu_dividers pllu; /* target; 960 MHz */
+ struct pllcx_dividers plldp; /* target; 270 MHz */
+ struct pllcx_dividers plld2; /* target; 570 MHz */
} static const osc_table[16] = {
[OSC_FREQ_OSC12]{
.khz = 12000,
.pllx = {.n = 158, .m = 1, .p = 0}, /* 1896 MHz */
.pllp = {.n = 34, .m = 1, .p = 0, .cpcon = 2},
.pllc = {.n = 50, .m = 1, .p = 0},
- .plld = {.n = 925, .m = 12, .p = 0, .cpcon = 12},
+ .plld = {.n = 283, .m = 12, .p = 0, .cpcon = 8}, /* 283 MHz */
.pllu = {.n = 80, .m = 1, .p = 0, .cpcon = 3},
+ .plldp = {.n = 90, .m = 1, .p = 3}, /* 270 MHz */
+ .plld2 = {.n = 95, .m = 1, .p = 1}, /* 570 MHz */
},
[OSC_FREQ_OSC13]{
.khz = 13000,
.pllx = {.n = 146, .m = 1, .p = 0}, /* 1898 MHz */
.pllp = {.n = 408, .m = 13, .p = 0, .cpcon = 8},
.pllc = {.n = 231, .m = 5, .p = 0}, /* 600.6 MHz */
- .plld = {.n = 925, .m = 13, .p = 0, .cpcon = 12},
+ .plld = {.n = 283, .m = 13, .p = 0, .cpcon = 8}, /* 283 MHz*/
.pllu = {.n = 960, .m = 13, .p = 0, .cpcon = 12},
+ .plldp = {.n = 83, .m = 1, .p = 3}, /* 269.75 MHz */
+ .plld2 = {.n = 88, .m = 1, .p = 1}, /* 572 MHz */
},
[OSC_FREQ_OSC16P8]{
.khz = 16800,
.pllx = {.n = 113, .m = 1, .p = 0}, /* 1898.4 MHz */
.pllp = {.n = 170, .m = 7, .p = 0, .cpcon = 4},
.pllc = {.n = 250, .m = 7, .p = 0},
- .plld = {.n = 936, .m = 17, .p = 0, .cpcon = 12},/* 924.9 MHz */
+ .plld = {.n = 286, .m = 17, .p = 0, .cpcon = 8}, /* 282.6 MHz*/
.pllu = {.n = 400, .m = 7, .p = 0, .cpcon = 8},
+ .plldp = {.n = 64, .m = 1, .p = 3}, /* 268.8 MHz */
+ .plld2 = {.n = 68, .m = 1, .p = 1}, /* 571.2 MHz */
},
[OSC_FREQ_OSC19P2]{
.khz = 19200,
.pllx = {.n = 98, .m = 1, .p = 0}, /* 1881.6 MHz */
.pllp = {.n = 85, .m = 4, .p = 0, .cpcon = 3},
.pllc = {.n = 125, .m = 4, .p = 0},
- .plld = {.n = 819, .m = 17, .p = 0, .cpcon = 12},/* 924.9 MHz */
+ .plld = {.n = 251, .m = 17, .p = 0, .cpcon = 8}, /* 283.5 MHz */
.pllu = {.n = 50, .m = 1, .p = 0, .cpcon = 2},
+ .plldp = {.n = 56, .m = 1, .p = 3}, /* 270.75 MHz */
+ .plld2 = {.n = 59, .m = 1, .p = 1}, /* 570 MHz */
},
[OSC_FREQ_OSC26]{
.khz = 26000,
.pllx = {.n = 73, .m = 1, .p = 0}, /* 1898 MHz */
.pllp = {.n = 204, .m = 13, .p = 0, .cpcon = 5},
.pllc = {.n = 23, .m = 1, .p = 0}, /* 598 MHz */
- .plld = {.n = 925, .m = 26, .p = 0, .cpcon = 12},
+ .plld = {.n = 283, .m = 26, .p = 0, .cpcon = 8}, /* 283 MHz */
.pllu = {.n = 480, .m = 13, .p = 0, .cpcon = 8},
+ .plldp = {.n = 83, .m = 2, .p = 3}, /* 266.50 MHz */
+ .plld2 = {.n = 88, .m = 2, .p = 1}, /* 570 MHz */
},
[OSC_FREQ_OSC38P4]{
.khz = 38400,
.pllx = {.n = 98, .m = 1, .p = 0}, /* 1881.6 MHz */
.pllp = {.n = 85, .m = 4, .p = 0, .cpcon = 3},
.pllc = {.n = 125, .m = 4, .p = 0},
- .plld = {.n = 819, .m = 17, .p = 0, .cpcon = 12},/* 924.9 MHz */
+ .plld = {.n = 125, .m = 17, .p = 0, .cpcon = 8}, /* 282.4 MHz */
.pllu = {.n = 50, .m = 1, .p = 0, .cpcon = 2},
+ .plldp = {.n = 56, .m = 2, .p = 3}, /* 268 MHz */
+ .plld2 = {.n = 59, .m = 2, .p = 1}, /* 566 MHz */
},
[OSC_FREQ_OSC48]{
.khz = 48000,
.pllx = {.n = 158, .m = 1, .p = 0}, /* 1896 MHz */
.pllp = {.n = 24, .m = 1, .p = 0, .cpcon = 2},
.pllc = {.n = 50, .m = 1, .p = 0},
- .plld = {.n = 925, .m = 12, .p = 0, .cpcon = 12},
+ .plld = {.n = 71, .m = 12, .p = 0, .cpcon = 8}, /* 284 MHz */
.pllu = {.n = 80, .m = 1, .p = 0, .cpcon = 3},
+ .plldp = {.n = 90, .m = 4, .p = 3}, /* 264 MHz */
+ .plld2 = {.n = 95, .m = 4, .p = 1}, /* 570 MHz */
},
};
@@ -174,19 +191,23 @@ void clock_init_arm_generic_timer(void)
write32(cntcr, &sysctr->cntcr);
}
-static void adjust_pllp_out_freqs(void)
+#define SOR0_CLK_SEL0 (1 << 14)
+#define SOR0_CLK_SEL1 (1 << 15)
+
+void sor_clock_stop(void)
+{
+ /* The Serial Output Resource clock has to be off
+ * before we start the plldp. Learned the hard way.
+ * FIXME: this has to be cleaned up a bit more.
+ * Waiting on some new info from Nvidia.
+ */
+ clrbits_le32(&clk_rst->clk_src_sor, SOR0_CLK_SEL0 | SOR0_CLK_SEL1);
+}
+
+void sor_clock_start(void)
{
- u32 reg;
- /* Set T30 PLLP_OUT1, 2, 3 & 4 freqs to 9.6, 48, 102 & 204MHz */
- reg = readl(&clk_rst->pllp_outa); // OUTA contains OUT2 / OUT1
- reg |= (IN_408_OUT_48_DIVISOR << PLLP_OUT2_RATIO) | PLLP_OUT2_OVR
- | (IN_408_OUT_9_6_DIVISOR << PLLP_OUT1_RATIO) | PLLP_OUT1_OVR;
- writel(reg, &clk_rst->pllp_outa);
-
- reg = readl(&clk_rst->pllp_outb); // OUTB, contains OUT4 / OUT3
- reg |= (IN_408_OUT_204_DIVISOR << PLLP_OUT4_RATIO) | PLLP_OUT4_OVR
- | (IN_408_OUT_102_DIVISOR << PLLP_OUT3_RATIO) | PLLP_OUT3_OVR;
- writel(reg, &clk_rst->pllp_outb);
+ /* uses PLLP, has a non-standard bit layout. */
+ setbits_le32(&clk_rst->clk_src_sor, SOR0_CLK_SEL0);
}
static void init_pll(u32 *base, u32 *misc, const union pll_fields pll)
@@ -197,7 +218,6 @@ static void init_pll(u32 *base, u32 *misc, const union pll_fields pll)
/* Write dividers but BYPASS the PLL while we're messing with it. */
writel(dividers | PLL_BASE_BYPASS, base);
-
/* Set CPCON field (defaults to 0 if it doesn't exist for this PLL) */
writel(pll.div.cpcon << PLL_MISC_CPCON_SHIFT, misc);
@@ -237,6 +257,41 @@ static void init_utmip_pll(void)
setbits_le32(&clk_rst->utmip_pll_cfg2, 1 << 30); /* PHY_XTAL_CLKEN */
}
+/* Graphics just has to be different. There's a few more bits we
+ * need to set in here, but it makes sense just to restrict all the
+ * special bits to this one function.
+ */
+static void graphics_pll(void)
+{
+ int osc = clock_get_osc_bits();
+ u32 *cfg = &clk_rst->plldp_ss_cfg;
+ /* the vendor code sets the dither bit (28)
+ * an undocumented bit (24)
+ * and clamp while we mess with it (22)
+ * Dither is pretty important to display port
+ * so we really do need to handle these bits.
+ * I'm not willing to not clamp it, even if
+ * it might "mostly work" with it not set,
+ * I don't want to find out in a few months
+ * that it is needed.
+ */
+ u32 scfg = (1<<28) | (1<<24) | (1<<22);
+ writel(scfg, cfg);
+ init_pll(&clk_rst->plldp_base, &clk_rst->plldp_misc, osc_table[osc].plldp);
+ /* leave dither and undoc bits set, release clamp */
+ scfg = (1<<28) | (1<<24);
+ writel(scfg, cfg);
+ /* set lock bit */
+ setbits_le32(&clk_rst->plldp_misc, PLLDPD2_MISC_LOCK_ENABLE);
+
+ /* init clock source for disp1 */
+ /* init plld (the actual output is plld_out0 that is 1/2 of plld. */
+ init_pll(&clk_rst->plld_base, &clk_rst->plld_misc, osc_table[osc].plld);
+ setbits_le32(&clk_rst->plld_misc, PLLUD_MISC_LOCK_ENABLE);
+ setbits_le32(&clk_rst->plld_misc, PLLD_MISC_CLK_ENABLE);
+ udelay(10); /* wait for plld ready */
+}
+
/* Initialize the UART and put it on CLK_M so we can use it during clock_init().
* Will later move it to PLLP in clock_config(). The divisor must be very small
* to accomodate 12KHz OSCs, so we override the 16.0 UART divider with the 15.1
@@ -252,13 +307,36 @@ void clock_early_uart(void)
clrbits_le32(&clk_rst->rst_dev_l, CLK_L_UARTA);
}
+/* Enable output clock (CLK1~3) for external peripherals. */
+void clock_external_output(int clk_id)
+{
+ switch (clk_id) {
+ case 1:
+ setbits_le32(&pmc->clk_out_cntrl, 1 << 2);
+ break;
+ case 2:
+ setbits_le32(&pmc->clk_out_cntrl, 1 << 10);
+ break;
+ case 3:
+ setbits_le32(&pmc->clk_out_cntrl, 1 << 18);
+ break;
+ default:
+ printk(BIOS_CRIT, "ERROR: Unknown output clock id %d\n",
+ clk_id);
+ break;
+ }
+}
+
void clock_cpu0_config_and_reset(void *entry)
{
void * const evp_cpu_reset = (uint8_t *)TEGRA_EVP_BASE + 0x100;
- write32(CONFIG_STACK_TOP, &cpug_stack_pointer);
- write32((uintptr_t)entry, &cpug_entry_point);
- write32((uintptr_t)&cpug_setup, evp_cpu_reset);
+ write32(CONFIG_STACK_TOP, &maincpu_stack_pointer);
+ write32((uintptr_t)entry, &maincpu_entry_point);
+ write32((uintptr_t)&maincpu_setup, evp_cpu_reset);
+
+ /* Set active CPU cluster to G */
+ clrbits_le32(&flow->cluster_control, 1);
// Set up cclk_brst and divider.
write32((CRC_CCLK_BRST_POL_PLLX_OUT0 << 0) |
@@ -296,75 +374,82 @@ void clock_cpu0_config_and_reset(void *entry)
&clk_rst->rst_cpug_cmplx_clr);
}
-/**
- * The T124 requires some special clock initialization, including setting up
- * the DVC I2C, turning on MSELECT and selecting the G CPU cluster
- */
+void clock_halt_avp(void)
+{
+ for (;;) {
+ write32(FLOW_EVENT_JTAG | FLOW_EVENT_LIC_IRQ |
+ FLOW_EVENT_GIC_IRQ | FLOW_MODE_WAITEVENT,
+ &flow->halt_cop_events);
+ }
+}
+
void clock_init(void)
{
- u32 val;
u32 osc = clock_get_osc_bits();
- /*
- * On poweron, AVP clock source (also called system clock) is set to
- * PLLP_out0 with frequency set at 1MHz. Before initializing PLLP, we
- * need to move the system clock's source to CLK_M temporarily. And
- * then switch it to PLLP_out4 (204MHz) at a later time.
- */
- val = (SCLK_SOURCE_CLKM << SCLK_SWAKEUP_FIQ_SOURCE_SHIFT) |
- (SCLK_SOURCE_CLKM << SCLK_SWAKEUP_IRQ_SOURCE_SHIFT) |
- (SCLK_SOURCE_CLKM << SCLK_SWAKEUP_RUN_SOURCE_SHIFT) |
- (SCLK_SOURCE_CLKM << SCLK_SWAKEUP_IDLE_SOURCE_SHIFT) |
- (SCLK_SYS_STATE_RUN << SCLK_SYS_STATE_SHIFT);
- writel(val, &clk_rst->sclk_brst_pol);
- udelay(2);
+ /* Set PLLC dynramp_step A to 0x2b and B to 0xb (from U-Boot -- why? */
+ writel(0x2b << 17 | 0xb << 9, &clk_rst->pllc_misc2);
- /* Set active CPU cluster to G */
- clrbits_le32(&flow->cluster_control, 1);
+ /* Max out the AVP clock before everything else (need PLLC for that). */
+ init_pll(&clk_rst->pllc_base, &clk_rst->pllc_misc, osc_table[osc].pllc);
- /* Change the oscillator drive strength */
- val = readl(&clk_rst->osc_ctrl);
- val &= ~OSC_XOFS_MASK;
- val |= (OSC_DRIVE_STRENGTH << OSC_XOFS_SHIFT);
- writel(val, &clk_rst->osc_ctrl);
+ /* Be more careful with processor clock, wait for the lock. (~10us) */
+ setbits_le32(&clk_rst->pllc_misc, PLLC_MISC_LOCK_ENABLE);
+ while (!(read32(&clk_rst->pllc_base) & PLL_BASE_LOCK)) /* wait */;
+
+ /* Typical ratios are 1:2:2 or 1:2:3 sclk:hclk:pclk (See: APB DMA
+ * features section in the TRM). */
+ write32(1 << HCLK_DIVISOR_SHIFT | 0 << PCLK_DIVISOR_SHIFT,
+ &clk_rst->clk_sys_rate); /* pclk = hclk = sclk/2 */
+ write32(0 << SCLK_DIVIDEND_SHIFT |
+ (CEIL_DIV(TEGRA_PLLC_KHZ, 300000) - 1) << SCLK_DIVISOR_SHIFT
+ | SCLK_DIV_ENB, &clk_rst->super_sclk_div);
+ write32(SCLK_SYS_STATE_RUN << SCLK_SYS_STATE_SHIFT |
+ SCLK_SOURCE_PLLC_OUT0 << SCLK_RUN_SHIFT,
+ &clk_rst->sclk_brst_pol); /* sclk = 300 MHz */
+
+ /* Change the oscillator drive strength (from U-Boot -- why?) */
+ clrsetbits_le32(&clk_rst->osc_ctrl, OSC_XOFS_MASK,
+ OSC_DRIVE_STRENGTH << OSC_XOFS_SHIFT);
- /* Ambiguous quote from u-boot. TODO: what's this mean?
+ /*
+ * Ambiguous quote from u-boot. TODO: what's this mean?
* "should update same value in PMC_OSC_EDPD_OVER XOFS
- field for warmboot "*/
- val = readl(&pmc->osc_edpd_over);
- val &= ~PMC_OSC_EDPD_OVER_XOFS_MASK;
- val |= (OSC_DRIVE_STRENGTH << PMC_OSC_EDPD_OVER_XOFS_SHIFT);
- writel(val, &pmc->osc_edpd_over);
+ * field for warmboot "
+ */
+ clrsetbits_le32(&pmc->osc_edpd_over, PMC_OSC_EDPD_OVER_XOFS_MASK,
+ OSC_DRIVE_STRENGTH << PMC_OSC_EDPD_OVER_XOFS_SHIFT);
/* Disable IDDQ for PLLX before we set it up (from U-Boot -- why?) */
- val = readl(&clk_rst->pllx_misc3);
- val &= ~PLLX_IDDQ_MASK;
- writel(val, &clk_rst->pllx_misc3);
- udelay(2);
-
- /* Set PLLC dynramp_step A to 0x2b and B to 0xb (from U-Boot -- why? */
- writel(0x2b << 17 | 0xb << 9, &clk_rst->pllc_misc2);
-
- adjust_pllp_out_freqs();
+ clrbits_le32(&clk_rst->pllx_misc3, PLLX_IDDQ_MASK);
+
+ /* Set up PLLP_OUT(1|2|3|4) divisor to generate (9.6|48|102|204)MHz */
+ write32((CLK_DIVIDER(TEGRA_PLLP_KHZ, 9600) << PLL_OUT_RATIO_SHIFT |
+ PLL_OUT_OVR | PLL_OUT_CLKEN | PLL_OUT_RSTN) << PLL_OUT1_SHIFT |
+ (CLK_DIVIDER(TEGRA_PLLP_KHZ, 48000) << PLL_OUT_RATIO_SHIFT |
+ PLL_OUT_OVR | PLL_OUT_CLKEN | PLL_OUT_RSTN) << PLL_OUT2_SHIFT,
+ &clk_rst->pllp_outa);
+ write32((CLK_DIVIDER(TEGRA_PLLP_KHZ, 102000) << PLL_OUT_RATIO_SHIFT |
+ PLL_OUT_OVR | PLL_OUT_CLKEN | PLL_OUT_RSTN) << PLL_OUT3_SHIFT |
+ (CLK_DIVIDER(TEGRA_PLLP_KHZ, 204000) << PLL_OUT_RATIO_SHIFT |
+ PLL_OUT_OVR | PLL_OUT_CLKEN | PLL_OUT_RSTN) << PLL_OUT4_SHIFT,
+ &clk_rst->pllp_outb);
init_pll(&clk_rst->pllx_base, &clk_rst->pllx_misc, osc_table[osc].pllx);
init_pll(&clk_rst->pllp_base, &clk_rst->pllp_misc, osc_table[osc].pllp);
- init_pll(&clk_rst->pllc_base, &clk_rst->pllc_misc, osc_table[osc].pllc);
- init_pll(&clk_rst->plld_base, &clk_rst->plld_misc, osc_table[osc].plld);
init_pll(&clk_rst->pllu_base, &clk_rst->pllu_misc, osc_table[osc].pllu);
init_utmip_pll();
-
- val = (1 << CLK_SYS_RATE_AHB_RATE_SHIFT);
- writel(val, &clk_rst->clk_sys_rate);
+ graphics_pll();
}
-void clock_enable_clear_reset(u32 l, u32 h, u32 u, u32 v, u32 w)
+void clock_enable_clear_reset(u32 l, u32 h, u32 u, u32 v, u32 w, u32 x)
{
if (l) writel(l, &clk_rst->clk_enb_l_set);
if (h) writel(h, &clk_rst->clk_enb_h_set);
if (u) writel(u, &clk_rst->clk_enb_u_set);
if (v) writel(v, &clk_rst->clk_enb_v_set);
if (w) writel(w, &clk_rst->clk_enb_w_set);
+ if (x) writel(x, &clk_rst->clk_enb_x_set);
/* Give clocks time to stabilize. */
udelay(IO_STABILIZATION_DELAY);
@@ -374,4 +459,5 @@ void clock_enable_clear_reset(u32 l, u32 h, u32 u, u32 v, u32 w)
if (u) writel(u, &clk_rst->rst_dev_u_clr);
if (v) writel(v, &clk_rst->rst_dev_v_clr);
if (w) writel(w, &clk_rst->rst_dev_w_clr);
+ if (x) writel(x, &clk_rst->rst_dev_x_clr);
}