arm(64): Manually clean up the mess left by write32() transition

This patch is a manual cleanup of all the rubble left by coccinelle
waltzing through our code base. It's generally not very good with line
breaks and sometimes even eats comments, so this patch is my best
attempt at putting it all back together.

Also finally remove those hated writel()-style macros from the headers.

BRANCH=none
BUG=chromium:444723
TEST=None (depends on next patch)

Change-Id: Id572f69c420c35577701feb154faa5aaf79cd13e
Signed-off-by: Patrick Georgi <pgeorgi@chromium.org>
Original-Commit-Id: 817402a80ab77083728b55aed74b3b4202ba7f1d
Original-Change-Id: I3b0dcd6fe09fc4e3b83ee491625d6dced98e3047
Original-Signed-off-by: Julius Werner <jwerner@chromium.org>
Original-Reviewed-on: https://chromium-review.googlesource.com/254865
Reviewed-on: http://review.coreboot.org/9837
Tested-by: build bot (Jenkins)
Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
This commit is contained in:
Julius Werner 2015-02-19 20:19:23 -08:00 committed by Patrick Georgi
parent 2f37bd6551
commit 9418476524
26 changed files with 397 additions and 155 deletions

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@ -52,10 +52,6 @@
TPM_DEBUG("Write reg 0x%x with 0x%x\n", (reg_), (val_))
#define printf(x...) printk(BIOS_ERR, x)
#define readb(_a) (*(volatile unsigned char *) (_a))
#define writeb(_v, _a) (*(volatile unsigned char *) (_a) = (_v))
#define readl(_a) (*(volatile unsigned long *) (_a))
#define writel(_v, _a) (*(volatile unsigned long *) (_a) = (_v))
/* coreboot wrapper for TPM driver (end) */
#ifndef CONFIG_TPM_TIS_BASE_ADDRESS

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@ -158,26 +158,60 @@ void usb_setup_utmip(void *usb_base)
/* Take stuff out of pwrdn and add some magic numbers from U-Boot */
write32(&usb->utmip.xcvr0,
0x8 << 25 | 0x3 << 22 | 0 << 21 | 0 << 18 | 0 << 16 | 0 << 14 | 1 << 13 | 0x1 << 10 | 0x1 << 8 | 0x4 << 0 | 0);
write32(&usb->utmip.xcvr1, 0x7 << 18 | 0 << 4 | 0 << 2 | 0 << 0 | 0);
write32(&usb->utmip.tx, 1 << 19 | 1 << 16 | 1 << 9 | 0);
0x8 << 25 | /* HS slew rate [10:4] */
0x3 << 22 | /* HS driver output 'SETUP' [6:4] */
0 << 21 | /* LS bias selection */
0 << 18 | /* PDZI pwrdn */
0 << 16 | /* PD2 pwrdn */
0 << 14 | /* PD pwrdn */
1 << 13 | /* (rst) HS receiver terminations */
0x1 << 10 | /* (rst) LS falling slew rate */
0x1 << 8 | /* (rst) LS rising slew rate */
0x4 << 0); /* HS driver output 'SETUP' [3:0] */
write32(&usb->utmip.xcvr1,
0x7 << 18 | /* Termination range adjustment */
0 << 4 | /* PDDR pwrdn */
0 << 2 | /* PDCHRP pwrdn */
0 << 0); /* PDDISC pwrdn */
write32(&usb->utmip.tx,
1 << 19 | /* FS send initial J before sync(?) */
1 << 16 | /* (rst) Allow stuff error on SoP */
1 << 9); /* (rst) Check disc only on EoP */
write32(&usb->utmip.hsrx0,
0x2 << 30 | 1 << 28 | 0x1 << 24 | 0x3 << 21 | 0x11 << 15 | 0x10 << 10 | 0);
0x2 << 30 | /* (rst) Keep pattern on active */
1 << 28 | /* (rst) Realign inertia on pkt */
0x1 << 24 | /* (rst) edges-1 to move sampling */
0x3 << 21 | /* (rst) squelch delay on EoP */
0x11 << 15 | /* cycles until IDLE */
0x10 << 10); /* elastic input depth */
/* U-Boot claims the USBD values for these are used across all UTMI+
* PHYs. That sounds so horribly wrong that I'm not going to implement
* it, but keep it in mind if we're ever not using the USBD port. */
write32(&usb->utmip.bias0,
0x1 << 24 | 1 << 23 | 1 << 22 | 1 << 11 | 0 << 10 | 0x1 << 2 | 0x2 << 0 | 0);
0x1 << 24 | /* HS disconnect detect level [2] */
1 << 23 | /* (rst) IDPD value */
1 << 22 | /* (rst) IDPD select */
1 << 11 | /* (rst) OTG pwrdn */
0 << 10 | /* bias pwrdn */
0x1 << 2 | /* HS disconnect detect level [1:0] */
0x2 << 0); /* HS squelch detect level */
write32(&usb->utmip.bias1, khz / 2200 << 3 | 1 << 2 | 0 << 0 | 0);
write32(&usb->utmip.bias1,
khz / 2200 << 3 | /* bias pwrdn cycles (20us?) */
1 << 2 | /* (rst) VBUS wakeup pwrdn */
0 << 0); /* PDTRK pwrdn */
write32(&usb->utmip.debounce, 0xffff << 16 | 25 * khz / 10 << 0 | 0);
write32(&usb->utmip.debounce,
0xffff << 16 | /* (rst) */
25 * khz / 10 << 0); /* TODO: what's this, really? */
udelay(1);
setbits_le32(&usb->utmip.misc1, 1 << 30); /* PHY_XTAL_CLKEN */
write32(&usb->suspend_ctrl, 1 << 12 | 0 << 11 | 0);
write32(&usb->suspend_ctrl,
1 << 12 | /* UTMI+ enable */
0 << 11); /* UTMI+ reset */
usb_ehci_reset_and_prepare(usb, USB_PHY_UTMIP);
printk(BIOS_DEBUG, "USB controller @ %p set up with UTMI+ PHY\n",usb_base);

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@ -243,14 +243,25 @@ static void init_utmip_pll(void)
clrbits_le32(&clk_rst->utmip_pll_cfg2, 1 << 30); /* PHY_XTAL_CLKEN */
udelay(1);
write32(&clk_rst->utmip_pll_cfg0, 80 << 16 | 1 << 8 | 0); /* 960MHz * 1 / 80 == 12 MHz */
write32(&clk_rst->utmip_pll_cfg0, /* 960MHz * 1 / 80 == 12 MHz */
80 << 16 | /* (rst) phy_divn */
1 << 8); /* (rst) phy_divm */
write32(&clk_rst->utmip_pll_cfg1,
CEIL_DIV(khz, 8000) << 27 | 0 << 16 | 0 << 14 | 0 << 12 | CEIL_DIV(khz, 102) << 0 | 0);
CEIL_DIV(khz, 8000) << 27 | /* pllu_enbl_cnt / 8 (1us) */
0 << 16 | /* PLLU pwrdn */
0 << 14 | /* pll_enable pwrdn */
0 << 12 | /* pll_active pwrdn */
CEIL_DIV(khz, 102) << 0); /* phy_stbl_cnt / 256 (2.5ms) */
/* TODO: TRM can't decide if actv is 5us or 10us, keep an eye on it */
write32(&clk_rst->utmip_pll_cfg2,
0 << 24 | CEIL_DIV(khz, 3200) << 18 | CEIL_DIV(khz, 256) << 6 | 0 << 4 | 0 << 2 | 0 << 0 | 0);
0 << 24 | /* SAMP_D/XDEV pwrdn */
CEIL_DIV(khz, 3200) << 18 | /* phy_actv_cnt / 16 (5us) */
CEIL_DIV(khz, 256) << 6 | /* pllu_stbl_cnt / 256 (1ms) */
0 << 4 | /* SAMP_C/USB3 pwrdn */
0 << 2 | /* SAMP_B/XHOST pwrdn */
0 << 0); /* SAMP_A/USBD pwrdn */
setbits_le32(&clk_rst->utmip_pll_cfg2, 1 << 30); /* PHY_XTAL_CLKEN */
}
@ -387,8 +398,8 @@ clock_display(u32 frequency)
* been determined through trial and error (must lead to div 13 at 24MHz). */
void clock_early_uart(void)
{
write32(&clk_rst->clk_src_uarta,
CLK_M << CLK_SOURCE_SHIFT | CLK_UART_DIV_OVERRIDE | CLK_DIVIDER(TEGRA_CLK_M_KHZ, 1900));
write32(&clk_rst->clk_src_uarta, CLK_M << CLK_SOURCE_SHIFT |
CLK_UART_DIV_OVERRIDE | CLK_DIVIDER(TEGRA_CLK_M_KHZ, 1900));
setbits_le32(&clk_rst->clk_out_enb_l, CLK_L_UARTA);
udelay(2);
clrbits_le32(&clk_rst->rst_dev_l, CLK_L_UARTA);
@ -484,7 +495,11 @@ void clock_cpu0_config(void *entry)
// Set up cclk_brst and divider.
write32(&clk_rst->cclk_brst_pol,
(CRC_CCLK_BRST_POL_PLLX_OUT0 << 0) | (CRC_CCLK_BRST_POL_PLLX_OUT0 << 4) | (CRC_CCLK_BRST_POL_PLLX_OUT0 << 8) | (CRC_CCLK_BRST_POL_PLLX_OUT0 << 12) | (CRC_CCLK_BRST_POL_CPU_STATE_RUN << 28));
(CRC_CCLK_BRST_POL_PLLX_OUT0 << 0) |
(CRC_CCLK_BRST_POL_PLLX_OUT0 << 4) |
(CRC_CCLK_BRST_POL_PLLX_OUT0 << 8) |
(CRC_CCLK_BRST_POL_PLLX_OUT0 << 12) |
(CRC_CCLK_BRST_POL_CPU_STATE_RUN << 28));
write32(&clk_rst->super_cclk_div,
CRC_SUPER_CCLK_DIVIDER_SUPER_CDIV_ENB);
@ -506,20 +521,31 @@ void clock_cpu0_remove_reset(void)
write32(&clk_rst->rst_cpug_cmplx_clr, CRC_RST_CPUG_CLR_NONCPU);
// Disable the various resets on the CPUs.
write32(&clk_rst->rst_cpug_cmplx_clr,
CRC_RST_CPUG_CLR_CPU0 | CRC_RST_CPUG_CLR_CPU1 | CRC_RST_CPUG_CLR_CPU2 | CRC_RST_CPUG_CLR_CPU3 | CRC_RST_CPUG_CLR_DBG0 | CRC_RST_CPUG_CLR_DBG1 | CRC_RST_CPUG_CLR_DBG2 | CRC_RST_CPUG_CLR_DBG3 | CRC_RST_CPUG_CLR_CORE0 | CRC_RST_CPUG_CLR_CORE1 | CRC_RST_CPUG_CLR_CORE2 | CRC_RST_CPUG_CLR_CORE3 | CRC_RST_CPUG_CLR_CX0 | CRC_RST_CPUG_CLR_CX1 | CRC_RST_CPUG_CLR_CX2 | CRC_RST_CPUG_CLR_CX3 | CRC_RST_CPUG_CLR_L2 | CRC_RST_CPUG_CLR_PDBG);
CRC_RST_CPUG_CLR_CPU0 | CRC_RST_CPUG_CLR_CPU1 |
CRC_RST_CPUG_CLR_CPU2 | CRC_RST_CPUG_CLR_CPU3 |
CRC_RST_CPUG_CLR_DBG0 | CRC_RST_CPUG_CLR_DBG1 |
CRC_RST_CPUG_CLR_DBG2 | CRC_RST_CPUG_CLR_DBG3 |
CRC_RST_CPUG_CLR_CORE0 | CRC_RST_CPUG_CLR_CORE1 |
CRC_RST_CPUG_CLR_CORE2 | CRC_RST_CPUG_CLR_CORE3 |
CRC_RST_CPUG_CLR_CX0 | CRC_RST_CPUG_CLR_CX1 |
CRC_RST_CPUG_CLR_CX2 | CRC_RST_CPUG_CLR_CX3 |
CRC_RST_CPUG_CLR_L2 | CRC_RST_CPUG_CLR_PDBG);
// Disable the reset on the non-CPU parts of the slow cluster.
write32(&clk_rst->rst_cpulp_cmplx_clr, CRC_RST_CPULP_CLR_NONCPU);
// Disable the various resets on the LP CPU.
write32(&clk_rst->rst_cpulp_cmplx_clr,
CRC_RST_CPULP_CLR_CPU0 | CRC_RST_CPULP_CLR_DBG0 | CRC_RST_CPULP_CLR_CORE0 | CRC_RST_CPULP_CLR_CX0 | CRC_RST_CPULP_CLR_L2 | CRC_RST_CPULP_CLR_PDBG);
CRC_RST_CPULP_CLR_CPU0 | CRC_RST_CPULP_CLR_DBG0 |
CRC_RST_CPULP_CLR_CORE0 | CRC_RST_CPULP_CLR_CX0 |
CRC_RST_CPULP_CLR_L2 | CRC_RST_CPULP_CLR_PDBG);
}
void clock_halt_avp(void)
{
for (;;) {
write32(&flow->halt_cop_events,
FLOW_EVENT_JTAG | FLOW_EVENT_LIC_IRQ | FLOW_EVENT_GIC_IRQ | FLOW_MODE_WAITEVENT);
FLOW_EVENT_JTAG | FLOW_EVENT_LIC_IRQ |
FLOW_EVENT_GIC_IRQ | FLOW_MODE_WAITEVENT);
}
}
@ -537,11 +563,13 @@ void clock_init(void)
/* Typical ratios are 1:2:2 or 1:2:3 sclk:hclk:pclk (See: APB DMA
* features section in the TRM). */
write32(&clk_rst->clk_sys_rate,
TEGRA_HCLK_RATIO << HCLK_DIVISOR_SHIFT | TEGRA_PCLK_RATIO << PCLK_DIVISOR_SHIFT);
write32(&clk_rst->pllc_out,
CLK_DIVIDER(TEGRA_PLLC_KHZ, TEGRA_SCLK_KHZ) << PLL_OUT_RATIO_SHIFT | PLL_OUT_CLKEN | PLL_OUT_RSTN);
write32(&clk_rst->sclk_brst_pol,
SCLK_SYS_STATE_RUN << SCLK_SYS_STATE_SHIFT | SCLK_SOURCE_PLLC_OUT1 << SCLK_RUN_SHIFT); /* sclk = 300 MHz */
TEGRA_HCLK_RATIO << HCLK_DIVISOR_SHIFT |
TEGRA_PCLK_RATIO << PCLK_DIVISOR_SHIFT);
write32(&clk_rst->pllc_out, CLK_DIVIDER(TEGRA_PLLC_KHZ, TEGRA_SCLK_KHZ)
<< PLL_OUT_RATIO_SHIFT | PLL_OUT_CLKEN | PLL_OUT_RSTN);
write32(&clk_rst->sclk_brst_pol, /* sclk = 300 MHz */
SCLK_SYS_STATE_RUN << SCLK_SYS_STATE_SHIFT |
SCLK_SOURCE_PLLC_OUT1 << SCLK_RUN_SHIFT);
/* Change the oscillator drive strength (from U-Boot -- why?) */
clrsetbits_le32(&clk_rst->osc_ctrl, OSC_XOFS_MASK,
@ -560,9 +588,15 @@ void clock_init(void)
/* Set up PLLP_OUT(1|2|3|4) divisor to generate (9.6|48|102|204)MHz */
write32(&clk_rst->pllp_outa,
(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_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);
write32(&clk_rst->pllp_outb,
(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_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);
/* init pllx */
init_pll(&clk_rst->pllx_base, &clk_rst->pllx_misc,

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@ -275,7 +275,7 @@ inline static uint32_t read32(const void *addr)
return *(volatile uint32_t *)addr;
}
inline static void write32(uint32_t val, void *addr)
inline static void write32(void *addr, uint32_t val)
{
*(volatile uint32_t *)addr = val;
}
@ -483,7 +483,10 @@ static void clear_cpu_resets(void)
// Clear software controlled reset of the fast cluster.
write32(clk_rst_rst_cpug_cmplx_clr_ptr,
CLR_CPURESET0 | CLR_DBGRESET0 | CLR_CORERESET0 | CLR_CXRESET0 | CLR_CPURESET1 | CLR_DBGRESET1 | CLR_CORERESET1 | CLR_CXRESET1 | CLR_CPURESET2 | CLR_DBGRESET2 | CLR_CORERESET2 | CLR_CXRESET2 | CLR_CPURESET3 | CLR_DBGRESET3 | CLR_CORERESET3 | CLR_CXRESET3);
CLR_CPURESET0 | CLR_DBGRESET0 | CLR_CORERESET0 | CLR_CXRESET0 |
CLR_CPURESET1 | CLR_DBGRESET1 | CLR_CORERESET1 | CLR_CXRESET1 |
CLR_CPURESET2 | CLR_DBGRESET2 | CLR_CORERESET2 | CLR_CXRESET2 |
CLR_CPURESET3 | CLR_DBGRESET3 | CLR_CORERESET3 | CLR_CXRESET3);
}
@ -513,8 +516,7 @@ static void power_on_partition(unsigned id)
uint32_t bit = 0x1 << id;
if (!(read32(pmc_ctlr_pwrgate_status_ptr) & bit)) {
// Partition is not on. Turn it on.
write32(pmc_ctlr_pwrgate_toggle_ptr,
id | PWRGATE_TOGGLE_START);
write32(pmc_ctlr_pwrgate_toggle_ptr, id | PWRGATE_TOGGLE_START);
// Wait until the partition is powerd on.
while (!(read32(pmc_ctlr_pwrgate_status_ptr) & bit))

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@ -67,8 +67,8 @@ static void tegra124_uart_init(struct tegra124_uart *uart_ptr)
// Hide the divisor latches.
write8(&uart_ptr->lcr, line_config);
// Enable FIFOs, and clear receive and transmit.
write8(&uart_ptr->fcr,
UART8250_FCR_FIFO_EN | UART8250_FCR_CLEAR_RCVR | UART8250_FCR_CLEAR_XMIT);
write8(&uart_ptr->fcr, UART8250_FCR_FIFO_EN |
UART8250_FCR_CLEAR_RCVR | UART8250_FCR_CLEAR_XMIT);
}
static unsigned char tegra124_uart_rx_byte(struct tegra124_uart *uart_ptr)

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@ -243,14 +243,25 @@ static void init_utmip_pll(void)
clrbits_le32(CLK_RST_REG(utmip_pll_cfg2), 1 << 30); /* PHY_XTAL_CLKEN */
udelay(1);
write32(CLK_RST_REG(utmip_pll_cfg0), 80 << 16 | 1 << 8 | 0);/* 960MHz * 1 / 80 == 12 MHz */
write32(CLK_RST_REG(utmip_pll_cfg0), /* 960MHz * 1 / 80 == 12 MHz */
80 << 16 | /* (rst) phy_divn */
1 << 8); /* (rst) phy_divm */
write32(CLK_RST_REG(utmip_pll_cfg1),
div_round_up(khz, 8000) << 27 | 0 << 16 | 0 << 14 | 0 << 12 | div_round_up(khz, 102) << 0 | 0);
div_round_up(khz, 8000) << 27 | /* pllu_enbl_cnt / 8 (1us) */
0 << 16 | /* PLLU pwrdn */
0 << 14 | /* pll_enable pwrdn */
0 << 12 | /* pll_active pwrdn */
div_round_up(khz, 102) << 0); /* phy_stbl_cnt / 256 (2.5ms) */
/* TODO: TRM can't decide if actv is 5us or 10us, keep an eye on it */
write32(CLK_RST_REG(utmip_pll_cfg2),
0 << 24 | div_round_up(khz, 3200) << 18 | div_round_up(khz, 256) << 6 | 0 << 4 | 0 << 2 | 0 << 0 | 0);
0 << 24 | /* SAMP_D/XDEV pwrdn */
div_round_up(khz, 3200) << 18 | /* phy_actv_cnt / 16 (5us) */
div_round_up(khz, 256) << 6 | /* pllu_stbl_cnt / 256 (1ms) */
0 << 4 | /* SAMP_C/USB3 pwrdn */
0 << 2 | /* SAMP_B/XHOST pwrdn */
0 << 0); /* SAMP_A/USBD pwrdn */
setbits_le32(CLK_RST_REG(utmip_pll_cfg2), 1 << 30); /* PHY_XTAL_CLKEN */
}
@ -388,7 +399,8 @@ u32 clock_configure_plld(u32 frequency)
void clock_early_uart(void)
{
write32(CLK_RST_REG(clk_src_uarta),
CLK_SRC_DEV_ID(UARTA, CLK_M) << CLK_SOURCE_SHIFT | CLK_UART_DIV_OVERRIDE | CLK_DIVIDER(TEGRA_CLK_M_KHZ, 1900));
CLK_SRC_DEV_ID(UARTA, CLK_M) << CLK_SOURCE_SHIFT |
CLK_UART_DIV_OVERRIDE | CLK_DIVIDER(TEGRA_CLK_M_KHZ, 1900));
clock_enable_clear_reset_l(CLK_L_UARTA);
}
@ -513,7 +525,8 @@ void clock_halt_avp(void)
{
for (;;)
write32(&flow->halt_cop_events,
FLOW_EVENT_JTAG | FLOW_EVENT_LIC_IRQ | FLOW_EVENT_GIC_IRQ | FLOW_MODE_WAITEVENT);
FLOW_EVENT_JTAG | FLOW_EVENT_LIC_IRQ |
FLOW_EVENT_GIC_IRQ | FLOW_MODE_WAITEVENT);
}
void clock_init(void)
@ -529,12 +542,14 @@ void clock_init(void)
/* Typical ratios are 1:2:2 or 1:2:3 sclk:hclk:pclk (See: APB DMA
* features section in the TRM). */
write32(CLK_RST_REG(clk_sys_rate),
1 << HCLK_DIVISOR_SHIFT | 0 << PCLK_DIVISOR_SHIFT); /* pclk = hclk = sclk/2 */
write32(CLK_RST_REG(clk_sys_rate), /* pclk = hclk = sclk/2 */
1 << HCLK_DIVISOR_SHIFT | 0 << PCLK_DIVISOR_SHIFT);
write32(CLK_RST_REG(pllc_out),
CLK_DIVIDER(TEGRA_PLLC_KHZ, 300000) << PLL_OUT_RATIO_SHIFT | PLL_OUT_CLKEN | PLL_OUT_RSTN);
write32(CLK_RST_REG(sclk_brst_pol),
SCLK_SYS_STATE_RUN << SCLK_SYS_STATE_SHIFT | SCLK_SOURCE_PLLC_OUT1 << SCLK_RUN_SHIFT); /* sclk = 300 MHz */
CLK_DIVIDER(TEGRA_PLLC_KHZ, 300000) << PLL_OUT_RATIO_SHIFT |
PLL_OUT_CLKEN | PLL_OUT_RSTN);
write32(CLK_RST_REG(sclk_brst_pol), /* sclk = 300 MHz */
SCLK_SYS_STATE_RUN << SCLK_SYS_STATE_SHIFT |
SCLK_SOURCE_PLLC_OUT1 << SCLK_RUN_SHIFT);
/* Change the oscillator drive strength (from U-Boot -- why?) */
clrsetbits_le32(CLK_RST_REG(osc_ctrl), OSC_XOFS_MASK,
@ -550,9 +565,15 @@ void clock_init(void)
/* Set up PLLP_OUT(1|2|3|4) divisor to generate (9.6|48|102|204)MHz */
write32(CLK_RST_REG(pllp_outa),
(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_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);
write32(CLK_RST_REG(pllp_outb),
(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_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);
/* init pllu */
init_pll(CLK_RST_REG(pllu_base), CLK_RST_REG(pllu_misc),

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@ -207,13 +207,13 @@ struct tegra_dsi {
static inline unsigned long tegra_dsi_readl(struct tegra_dsi *dsi,
unsigned long reg)
{
return readl(dsi->regs + (reg << 2));
return read32(dsi->regs + (reg << 2));
}
static inline void tegra_dsi_writel(struct tegra_dsi *dsi, unsigned long value,
unsigned long reg)
{
writel(value, dsi->regs + (reg << 2));
write32(dsi->regs + (reg << 2), value);
}
#endif /* __TEGRA_DSI_H__ */

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@ -254,7 +254,7 @@ inline static uint32_t read32(const void *addr)
return *(volatile uint32_t *)addr;
}
inline static void write32(uint32_t val, void *addr)
inline static void write32(void *addr, uint32_t val)
{
*(volatile uint32_t *)addr = val;
}
@ -542,8 +542,7 @@ static void power_on_partition(unsigned id)
uint32_t bit = 0x1 << id;
if (!(read32(pmc_ctlr_pwrgate_status_ptr) & bit)) {
// Partition is not on. Turn it on.
write32(pmc_ctlr_pwrgate_toggle_ptr,
id | PWRGATE_TOGGLE_START);
write32(pmc_ctlr_pwrgate_toggle_ptr, id | PWRGATE_TOGGLE_START);
// Wait until the partition is powerd on.
while (!(read32(pmc_ctlr_pwrgate_status_ptr) & bit))

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@ -494,7 +494,7 @@ static int tegra_spi_dma_prepare(struct tegra_spi_channel *spi,
dcache_clean_by_mva(spi->out_buf, bytes);
write32(&spi->dma_out->regs->apb_ptr,
(uintptr_t) & spi->regs->tx_fifo);
(uintptr_t)&spi->regs->tx_fifo);
write32(&spi->dma_out->regs->ahb_ptr, (uintptr_t)spi->out_buf);
setbits_le32(&spi->dma_out->regs->csr, APB_CSR_DIR);
setup_dma_params(spi, spi->dma_out);

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@ -74,8 +74,8 @@ static void tegra132_uart_init(struct tegra132_uart *uart_ptr)
// Hide the divisor latches.
write8(&uart_ptr->lcr, line_config);
// Enable FIFOs, and clear receive and transmit.
write8(&uart_ptr->fcr,
UART8250_FCR_FIFO_EN | UART8250_FCR_CLEAR_RCVR | UART8250_FCR_CLEAR_XMIT);
write8(&uart_ptr->fcr, UART8250_FCR_FIFO_EN |
UART8250_FCR_CLEAR_RCVR | UART8250_FCR_CLEAR_XMIT);
}
static unsigned char tegra132_uart_rx_byte(struct tegra132_uart *uart_ptr)

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@ -136,7 +136,12 @@ void usb_clock_config(void)
write32(USB30_1_MOC_UTMI_CLK_CTL, 0x10);
write32(USB30_RESET,
1 << 5 | 1 << 4 | 1 << 3 | 1 << 2 | 1 << 1 | 1 << 0 | 0);
1 << 5 | /* assert port2 HS PHY async reset */
1 << 4 | /* assert master async reset */
1 << 3 | /* assert sleep async reset */
1 << 2 | /* assert MOC UTMI async reset */
1 << 1 | /* assert power-on async reset */
1 << 0); /* assert PHY async reset */
udelay(5);
write32(USB30_RESET, 0); /* deassert all USB resets again */
}

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@ -44,8 +44,8 @@
macros for read/write. Hence, special macros for readl_i and writel_i are
included to do this in one place for all occurrences in vendor code
*/
#define readl_i(a) readl((const void *)(a))
#define writel_i(v,a) writel(v,(void *)a)
#define readl_i(a) read32((const void *)(a))
#define writel_i(v,a) write32((void *)a, v)
#define clrsetbits_le32_i(addr, clear, set) \
clrsetbits_le32(((void *)(addr)), (clear), (set))

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@ -167,10 +167,10 @@ static qup_return_t qup_i2c_write_fifo(gsbi_id_t gsbi_id, qup_data_t *p_tx_obj,
while (data_len) {
if (data_len == 1 && stop_seq) {
write32(QUP_ADDR(gsbi_id, QUP_OUTPUT_FIFO),
(QUP_I2C_STOP_SEQ | QUP_I2C_DATA(data_ptr[idx])));
QUP_I2C_STOP_SEQ | QUP_I2C_DATA(data_ptr[idx]));
} else {
write32(QUP_ADDR(gsbi_id, QUP_OUTPUT_FIFO),
(QUP_I2C_DATA_SEQ | QUP_I2C_DATA(data_ptr[idx])));
QUP_I2C_DATA_SEQ | QUP_I2C_DATA(data_ptr[idx]));
}
data_len--;
idx++;
@ -235,10 +235,10 @@ static qup_return_t qup_i2c_read_fifo(gsbi_id_t gsbi_id, qup_data_t *p_tx_obj)
qup_set_state(gsbi_id, QUP_STATE_RUN);
write32(QUP_ADDR(gsbi_id, QUP_OUTPUT_FIFO),
(QUP_I2C_START_SEQ | (QUP_I2C_ADDR(addr) | QUP_I2C_SLAVE_READ)));
QUP_I2C_START_SEQ | (QUP_I2C_ADDR(addr) | QUP_I2C_SLAVE_READ));
write32(QUP_ADDR(gsbi_id, QUP_OUTPUT_FIFO),
(QUP_I2C_RECV_SEQ | data_len));
QUP_I2C_RECV_SEQ | data_len);
ret = qup_fifo_wait_while(gsbi_id, OUTPUT_FIFO_NOT_EMPTY);
if (ret)

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@ -102,15 +102,32 @@ static struct usb_dwc3 * const usb_host2_dwc3 = (void *)USB_HOST2_DWC3_BASE;
static void setup_dwc3(struct usb_dwc3 *dwc3)
{
write32(&dwc3->usb3pipectl,
0x1 << 31 | 0x1 << 25 | 0x1 << 24 | 0x1 << 19 | 0x1 << 18 | 0x1 << 1 | 0x1 << 0 | 0);
0x1 << 31 | /* assert PHY soft reset */
0x1 << 25 | /* (default) U1/U2 exit fail -> recovery? */
0x1 << 24 | /* (default) activate PHY low power states */
0x1 << 19 | /* (default) PHY low power delay value */
0x1 << 18 | /* (default) activate PHY low power delay */
0x1 << 1 | /* (default) Tx deemphasis value */
0x1 << 0); /* (default) elastic buffer mode */
write32(&dwc3->usb2phycfg,
0x1 << 31 | 0x9 << 10 | 0x1 << 8 | 0x1 << 6 | 0);
0x1 << 31 | /* assert PHY soft reset */
0x9 << 10 | /* (default) PHY clock turnaround 8-bit UTMI+ */
0x1 << 8 | /* (default) enable PHY sleep in L1 */
0x1 << 6); /* (default) enable PHY suspend */
write32(&dwc3->ctl,
0x2 << 19 | 0x1 << 16 | 0x1 << 12 | 0x1 << 11 | 0x1 << 10 | 0x1 << 2 | 0);
0x2 << 19 | /* (default) suspend clock scaling */
0x1 << 16 | /* retry SS three times before HS downgrade */
0x1 << 12 | /* port capability HOST */
0x1 << 11 | /* assert core soft reset */
0x1 << 10 | /* (default) sync ITP to refclk */
0x1 << 2); /* U2 exit after 8us LFPS (instead of 248ns) */
write32(&dwc3->uctl, 0x32 << 22 | 0x1 << 15 | 0x10 << 0 | 0);
write32(&dwc3->uctl,
0x32 << 22 | /* (default) reference clock period in ns */
0x1 << 15 | /* (default) XHCI compliant device addressing */
0x10 << 0); /* (default) devices time out after 32us */
udelay(5);
@ -122,13 +139,31 @@ static void setup_dwc3(struct usb_dwc3 *dwc3)
static void setup_phy(struct usb_qc_phy *phy)
{
write32(&phy->ss_phy_ctrl,
0x1 << 24 | 0x1 << 8 | 0x1 << 7 | 0x19 << 0 | 0);
0x1 << 24 | /* Indicate VBUS power present */
0x1 << 8 | /* Enable USB3 ref clock to prescaler */
0x1 << 7 | /* assert SS PHY reset */
0x19 << 0); /* (default) reference clock multiplier */
write32(&phy->hs_phy_ctrl,
0x1 << 26 | 0x1 << 25 | 0x1 << 24 | 0x1 << 21 | 0x1 << 20 | 0x1 << 18 | 0x1 << 17 | 0x1 << 11 | 0x1 << 9 | 0x1 << 8 | 0x1 << 7 | 0x7 << 4 | 0x1 << 1 | 0);
0x1 << 26 | /* (default) unclamp DPSE/DMSE VLS */
0x1 << 25 | /* (default) select freeclk for utmi_clk */
0x1 << 24 | /* (default) unclamp DMSE VLS */
0x1 << 21 | /* (default) enable UTMI clock */
0x1 << 20 | /* set OTG VBUS as valid */
0x1 << 18 | /* use ref clock from core */
0x1 << 17 | /* (default) unclamp DPSE VLS */
0x1 << 11 | /* force xo/bias/pll to stay on in suspend */
0x1 << 9 | /* (default) unclamp IDHV */
0x1 << 8 | /* (default) unclamp VLS (again???) */
0x1 << 7 | /* (default) unclamp HV VLS */
0x7 << 4 | /* select frequency (no idea which one) */
0x1 << 1); /* (default) "retention enable" */
write32(&phy->ss_phy_param1,
0x6e << 20 | 0x20 << 14 | 0x17 << 8 | 0x9 << 3 | 0);
0x6e << 20 | /* full TX swing amplitude */
0x20 << 14 | /* (default) 6dB TX deemphasis */
0x17 << 8 | /* 3.5dB TX deemphasis */
0x9 << 3); /* (default) LoS detector level */
write32(&phy->general_cfg, 0x1 << 2); /* set XHCI 1.00 compliance */

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@ -220,7 +220,8 @@ static int rkclk_set_pll(u32 *pll_con, const struct pll_div *div)
write32(&pll_con[3], RK_SETBITS(PLL_RESET_MSK));
write32(&pll_con[0],
RK_CLRSETBITS(PLL_NR_MSK, (div->nr - 1) << PLL_NR_SHIFT) | RK_CLRSETBITS(PLL_OD_MSK, (div->no - 1)));
RK_CLRSETBITS(PLL_NR_MSK, (div->nr - 1) << PLL_NR_SHIFT) |
RK_CLRSETBITS(PLL_OD_MSK, (div->no - 1)));
write32(&pll_con[1], RK_CLRSETBITS(PLL_NF_MSK, (div->nf - 1)));
@ -259,7 +260,8 @@ void rkclk_init(void)
/* pll enter slow-mode */
write32(&cru_ptr->cru_mode_con,
RK_CLRSETBITS(GPLL_MODE_MSK, GPLL_MODE_SLOW) | RK_CLRSETBITS(CPLL_MODE_MSK, CPLL_MODE_SLOW));
RK_CLRSETBITS(GPLL_MODE_MSK, GPLL_MODE_SLOW) |
RK_CLRSETBITS(CPLL_MODE_MSK, CPLL_MODE_SLOW));
/* init pll */
rkclk_set_pll(&cru_ptr->cru_gpll_con[0], &gpll_init_cfg);
@ -288,8 +290,14 @@ void rkclk_init(void)
assert((pclk_div + 1) * PD_BUS_PCLK_HZ ==
PD_BUS_ACLK_HZ && pclk_div < 0x7);
write32(&cru_ptr->cru_clksel_con[1],
RK_SETBITS(PD_BUS_SEL_GPLL) | RK_CLRSETBITS(PD_BUS_PCLK_DIV_MSK, pclk_div << PD_BUS_PCLK_DIV_SHIFT) | RK_CLRSETBITS(PD_BUS_HCLK_DIV_MSK, hclk_div << PD_BUS_HCLK_DIV_SHIFT) | RK_CLRSETBITS(PD_BUS_ACLK_DIV0_MASK, aclk_div << PD_BUS_ACLK_DIV0_SHIFT) | RK_CLRSETBITS(PD_BUS_ACLK_DIV1_MASK, 0 << 0));
write32(&cru_ptr->cru_clksel_con[1], RK_SETBITS(PD_BUS_SEL_GPLL) |
RK_CLRSETBITS(PD_BUS_PCLK_DIV_MSK,
pclk_div << PD_BUS_PCLK_DIV_SHIFT) |
RK_CLRSETBITS(PD_BUS_HCLK_DIV_MSK,
hclk_div << PD_BUS_HCLK_DIV_SHIFT) |
RK_CLRSETBITS(PD_BUS_ACLK_DIV0_MASK,
aclk_div << PD_BUS_ACLK_DIV0_SHIFT) |
RK_CLRSETBITS(PD_BUS_ACLK_DIV1_MASK, 0 << 0));
/*
* peri clock pll source selection and
@ -306,12 +314,18 @@ void rkclk_init(void)
assert((1 << pclk_div) * PERI_PCLK_HZ ==
PERI_ACLK_HZ && (pclk_div < 0x4));
write32(&cru_ptr->cru_clksel_con[10],
RK_SETBITS(PERI_SEL_GPLL) | RK_CLRSETBITS(PERI_PCLK_DIV_MSK, pclk_div << PERI_PCLK_DIV_SHIFT) | RK_CLRSETBITS(PERI_HCLK_DIV_MSK, hclk_div << PERI_HCLK_DIV_SHIFT) | RK_CLRSETBITS(PERI_ACLK_DIV_MSK, aclk_div << PERI_ACLK_DIV_SHIFT));
write32(&cru_ptr->cru_clksel_con[10], RK_SETBITS(PERI_SEL_GPLL) |
RK_CLRSETBITS(PERI_PCLK_DIV_MSK,
pclk_div << PERI_PCLK_DIV_SHIFT) |
RK_CLRSETBITS(PERI_HCLK_DIV_MSK,
hclk_div << PERI_HCLK_DIV_SHIFT) |
RK_CLRSETBITS(PERI_ACLK_DIV_MSK,
aclk_div << PERI_ACLK_DIV_SHIFT));
/* PLL enter normal-mode */
write32(&cru_ptr->cru_mode_con,
RK_CLRSETBITS(GPLL_MODE_MSK, GPLL_MODE_NORM) | RK_CLRSETBITS(CPLL_MODE_MSK, CPLL_MODE_NORM));
RK_CLRSETBITS(GPLL_MODE_MSK, GPLL_MODE_NORM) |
RK_CLRSETBITS(CPLL_MODE_MSK, CPLL_MODE_NORM));
}
@ -336,15 +350,19 @@ void rkclk_configure_cpu(void)
* core clock select apll, apll clk = 1800MHz
* arm clk = 1800MHz, mpclk = 450MHz, m0clk = 900MHz
*/
write32(&cru_ptr->cru_clksel_con[0],
RK_CLRBITS(CORE_SEL_PLL_MSK) | RK_CLRSETBITS(A12_DIV_MSK, 0 << A12_DIV_SHIFT) | RK_CLRSETBITS(MP_DIV_MSK, 3 << MP_DIV_SHIFT) | RK_CLRSETBITS(M0_DIV_MSK, 1 << 0));
write32(&cru_ptr->cru_clksel_con[0], RK_CLRBITS(CORE_SEL_PLL_MSK) |
RK_CLRSETBITS(A12_DIV_MSK, 0 << A12_DIV_SHIFT) |
RK_CLRSETBITS(MP_DIV_MSK, 3 << MP_DIV_SHIFT) |
RK_CLRSETBITS(M0_DIV_MSK, 1 << 0));
/*
* set up dependent divisors for L2RAM/ATCLK and PCLK clocks.
* l2ramclk = 900MHz, atclk = 450MHz, pclk_dbg = 450MHz
*/
write32(&cru_ptr->cru_clksel_con[37],
RK_CLRSETBITS(L2_DIV_MSK, 1 << 0) | RK_CLRSETBITS(ATCLK_DIV_MSK, (3 << ATCLK_DIV_SHIFT)) | RK_CLRSETBITS(PCLK_DBG_DIV_MSK, (3 << PCLK_DBG_DIV_SHIFT)));
RK_CLRSETBITS(L2_DIV_MSK, 1 << 0) |
RK_CLRSETBITS(ATCLK_DIV_MSK, (3 << ATCLK_DIV_SHIFT)) |
RK_CLRSETBITS(PCLK_DBG_DIV_MSK, (3 << PCLK_DBG_DIV_SHIFT)));
/* PLL enter normal-mode */
write32(&cru_ptr->cru_mode_con,
@ -399,7 +417,12 @@ void rkclk_ddr_reset(u32 ch, u32 ctl, u32 phy)
u32 phy_srstn_shift = 5 * ch;
write32(&cru_ptr->cru_softrst_con[10],
RK_CLRSETBITS(1 << phy_ctl_srstn_shift, phy << phy_ctl_srstn_shift) | RK_CLRSETBITS(1 << ctl_psrstn_shift, ctl << ctl_psrstn_shift) | RK_CLRSETBITS(1 << ctl_srstn_shift, ctl << ctl_srstn_shift) | RK_CLRSETBITS(1 << phy_psrstn_shift, phy << phy_psrstn_shift) | RK_CLRSETBITS(1 << phy_srstn_shift, phy << phy_srstn_shift));
RK_CLRSETBITS(1 << phy_ctl_srstn_shift,
phy << phy_ctl_srstn_shift) |
RK_CLRSETBITS(1 << ctl_psrstn_shift, ctl << ctl_psrstn_shift) |
RK_CLRSETBITS(1 << ctl_srstn_shift, ctl << ctl_srstn_shift) |
RK_CLRSETBITS(1 << phy_psrstn_shift, phy << phy_psrstn_shift) |
RK_CLRSETBITS(1 << phy_srstn_shift, phy << phy_srstn_shift));
}
void rkclk_ddr_phy_ctl_reset(u32 ch, u32 n)
@ -407,7 +430,8 @@ void rkclk_ddr_phy_ctl_reset(u32 ch, u32 n)
u32 phy_ctl_srstn_shift = 4 + 5 * ch;
write32(&cru_ptr->cru_softrst_con[10],
RK_CLRSETBITS(1 << phy_ctl_srstn_shift, n << phy_ctl_srstn_shift));
RK_CLRSETBITS(1 << phy_ctl_srstn_shift,
n << phy_ctl_srstn_shift));
}
void rkclk_configure_spi(unsigned int bus, unsigned int hz)
@ -419,15 +443,18 @@ void rkclk_configure_spi(unsigned int bus, unsigned int hz)
switch (bus) { /*select gpll as spi src clk, and set div*/
case 0:
write32(&cru_ptr->cru_clksel_con[25],
RK_CLRSETBITS(1 << 7 | 0x1f << 0, 1 << 7 | (src_clk_div - 1) << 0));
RK_CLRSETBITS(1 << 7 | 0x1f << 0,
1 << 7 | (src_clk_div - 1) << 0));
break;
case 1:
write32(&cru_ptr->cru_clksel_con[25],
RK_CLRSETBITS(1 << 15 | 0x1f << 8, 1 << 15 | (src_clk_div - 1) << 8));
RK_CLRSETBITS(1 << 15 | 0x1f << 8,
1 << 15 | (src_clk_div - 1) << 8));
break;
case 2:
write32(&cru_ptr->cru_clksel_con[39],
RK_CLRSETBITS(1 << 7 | 0x1f << 0, 1 << 7 | (src_clk_div - 1) << 0));
RK_CLRSETBITS(1 << 7 | 0x1f << 0,
1 << 7 | (src_clk_div - 1) << 0));
break;
default:
printk(BIOS_ERR, "do not support this spi bus\n");
@ -454,7 +481,8 @@ void rkclk_configure_i2s(unsigned int hz)
i2s0_clk_sel: divider ouput from fraction
i2s0_pll_div_con: 0*/
write32(&cru_ptr->cru_clksel_con[4],
RK_CLRSETBITS(1 << 15 | 1 << 12 | 3 << 8 | 0x7f << 0, 1 << 15 | 0 << 12 | 1 << 8 | 0 << 0));
RK_CLRSETBITS(1 << 15 | 1 << 12 | 3 << 8 | 0x7f << 0,
1 << 15 | 0 << 12 | 1 << 8 | 0 << 0));
/* set frac divider */
v = clk_gcd(GPLL_HZ, hz);
@ -569,12 +597,14 @@ void rkclk_configure_vop_aclk(u32 vop_id, u32 aclk_hz)
switch (vop_id) {
case 0:
write32(&cru_ptr->cru_clksel_con[31],
RK_CLRSETBITS(3 << 6 | 0x1f << 0, 0 << 6 | (div - 1) << 0));
RK_CLRSETBITS(3 << 6 | 0x1f << 0,
0 << 6 | (div - 1) << 0));
break;
case 1:
write32(&cru_ptr->cru_clksel_con[31],
RK_CLRSETBITS(3 << 14 | 0x1f << 8, 0 << 14 | (div - 1) << 8));
RK_CLRSETBITS(3 << 14 | 0x1f << 8,
0 << 14 | (div - 1) << 8));
break;
}
}

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@ -57,25 +57,27 @@ static void rk_edp_init_refclk(struct rk_edp *edp)
write32(&edp->regs->pll_reg_1, REF_CLK_24M);
/*initial value*/
write32(&edp->regs->pll_reg_2,
LDO_OUTPUT_V_SEL_145 | KVCO_DEFALUT | CHG_PUMP_CUR_SEL_5US | V2L_CUR_SEL_1MA);
write32(&edp->regs->pll_reg_2, LDO_OUTPUT_V_SEL_145 | KVCO_DEFALUT |
CHG_PUMP_CUR_SEL_5US | V2L_CUR_SEL_1MA);
write32(&edp->regs->pll_reg_3,
LOCK_DET_CNT_SEL_256 | LOOP_FILTER_RESET | PALL_SSC_RESET | LOCK_DET_BYPASS | PLL_LOCK_DET_MODE | PLL_LOCK_DET_FORCE);
write32(&edp->regs->pll_reg_3, LOCK_DET_CNT_SEL_256 |
LOOP_FILTER_RESET | PALL_SSC_RESET | LOCK_DET_BYPASS |
PLL_LOCK_DET_MODE | PLL_LOCK_DET_FORCE);
write32(&edp->regs->pll_reg_5,
REGULATOR_V_SEL_950MV | STANDBY_CUR_SEL | CHG_PUMP_INOUT_CTRL_1200MV | CHG_PUMP_INPUT_CTRL_OP);
write32(&edp->regs->pll_reg_5, REGULATOR_V_SEL_950MV | STANDBY_CUR_SEL |
CHG_PUMP_INOUT_CTRL_1200MV | CHG_PUMP_INPUT_CTRL_OP);
write32(&edp->regs->ssc_reg, SSC_OFFSET | SSC_MODE | SSC_DEPTH);
write32(&edp->regs->tx_common,
TX_SWING_PRE_EMP_MODE | PRE_DRIVER_PW_CTRL1 | LP_MODE_CLK_REGULATOR | RESISTOR_MSB_CTRL | RESISTOR_CTRL);
write32(&edp->regs->tx_common, TX_SWING_PRE_EMP_MODE |
PRE_DRIVER_PW_CTRL1 | LP_MODE_CLK_REGULATOR |
RESISTOR_MSB_CTRL | RESISTOR_CTRL);
write32(&edp->regs->dp_aux,
DP_AUX_COMMON_MODE | DP_AUX_EN | AUX_TERM_50OHM);
write32(&edp->regs->dp_aux, DP_AUX_COMMON_MODE |
DP_AUX_EN | AUX_TERM_50OHM);
write32(&edp->regs->dp_bias,
DP_BG_OUT_SEL | DP_DB_CUR_CTRL | DP_BG_SEL | DP_RESISTOR_TUNE_BG);
write32(&edp->regs->dp_bias, DP_BG_OUT_SEL | DP_DB_CUR_CTRL |
DP_BG_SEL | DP_RESISTOR_TUNE_BG);
write32(&edp->regs->dp_reserv2,
CH1_CH3_SWING_EMP_CTRL | CH0_CH2_SWING_EMP_CTRL);

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@ -53,7 +53,8 @@ static void __gpio_input(gpio_t gpio, u32 pull)
3 << (gpio.idx * 2), pull << (gpio.idx * 2));
else
write32(&rk3288_grf->gpio1_p[(gpio.port - 1)][gpio.bank],
RK_CLRSETBITS(3 << (gpio.idx * 2), pull << (gpio.idx * 2)));
RK_CLRSETBITS(3 << (gpio.idx * 2),
pull << (gpio.idx * 2)));
}
void gpio_input(gpio_t gpio)

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@ -75,8 +75,9 @@ void pwm_init(u32 id, u32 period_ns, u32 duty_ns)
/*use rk pwm*/
write32(&rk3288_grf->soc_con2, RK_SETBITS(1 << 0));
write32(&rk3288_pwm->pwm[id].pwm_ctrl,
PWM_SEL_SRC_CLK | PWM_OUTPUT_LEFT | PWM_LP_DISABLE | PWM_CONTINUOUS | PWM_DUTY_POSTIVE | PWM_INACTIVE_POSTIVE | RK_PWM_DISABLE);
write32(&rk3288_pwm->pwm[id].pwm_ctrl, PWM_SEL_SRC_CLK |
PWM_OUTPUT_LEFT | PWM_LP_DISABLE | PWM_CONTINUOUS |
PWM_DUTY_POSTIVE | PWM_INACTIVE_POSTIVE | RK_PWM_DISABLE);
period = (PD_BUS_PCLK_HZ / 1000) * period_ns / USECS_PER_SEC;
duty = (PD_BUS_PCLK_HZ / 1000) * duty_ns / USECS_PER_SEC;

View File

@ -609,12 +609,15 @@ static void pctl_cfg(u32 channel,
sdram_params->pctl_timing.tcl - 1);
write32(&ddr_pctl_regs->dfitphywrlat,
sdram_params->pctl_timing.tcwl);
write32(&ddr_pctl_regs->mcfg,
LPDDR2_S4 | MDDR_LPDDR2_CLK_STOP_IDLE(0) | LPDDR2_EN | BURSTLENGTH_CFG(burstlen) | TFAW_CFG(6) | PD_EXIT_FAST | PD_TYPE(1) | PD_IDLE(0));
write32(&ddr_pctl_regs->mcfg, LPDDR2_S4 |
MDDR_LPDDR2_CLK_STOP_IDLE(0) | LPDDR2_EN |
BURSTLENGTH_CFG(burstlen) | TFAW_CFG(6) |
PD_EXIT_FAST | PD_TYPE(1) | PD_IDLE(0));
write32(&rk3288_grf->soc_con0, MSCH_MAINDDR3(channel, 0));
write32(&rk3288_grf->soc_con2,
PUBL_LPDDR3_EN(channel, 1) | PCTL_BST_DISABLE(channel, 1) | PCTL_LPDDR3_ODT_EN(channel, sdram_params->odt));
write32(&rk3288_grf->soc_con2, PUBL_LPDDR3_EN(channel, 1) |
PCTL_BST_DISABLE(channel, 1) |
PCTL_LPDDR3_ODT_EN(channel, sdram_params->odt));
break;
case DDR3:
@ -627,11 +630,14 @@ static void pctl_cfg(u32 channel,
write32(&ddr_pctl_regs->dfitphywrlat,
sdram_params->pctl_timing.tcwl - 1);
write32(&ddr_pctl_regs->mcfg,
MDDR_LPDDR2_CLK_STOP_IDLE(0) | DDR3_EN | DDR2_DDR3_BL_8 | TFAW_CFG(6) | PD_EXIT_SLOW | PD_TYPE(1) | PD_IDLE(0));
MDDR_LPDDR2_CLK_STOP_IDLE(0) | DDR3_EN |
DDR2_DDR3_BL_8 | TFAW_CFG(6) |
PD_EXIT_SLOW | PD_TYPE(1) | PD_IDLE(0));
write32(&rk3288_grf->soc_con0, MSCH_MAINDDR3(channel, 1));
write32(&rk3288_grf->soc_con2,
PUBL_LPDDR3_EN(channel, 0) | PCTL_BST_DISABLE(channel, 0) | PCTL_LPDDR3_ODT_EN(channel, 0));
write32(&rk3288_grf->soc_con2, PUBL_LPDDR3_EN(channel, 0) |
PCTL_BST_DISABLE(channel, 0) |
PCTL_LPDDR3_ODT_EN(channel, 0));
break;
}
@ -656,11 +662,14 @@ static void phy_cfg(u32 channel, const struct rk3288_sdram_params *sdram_params)
write32(&msch_regs->devtodev,
BUSWRTORD(2) | BUSRDTOWR(2) | BUSRDTORD(1));
write32(&ddr_publ_regs->ptr[0],
PRT_DLLLOCK(div_round_up(sdram_params->ddr_freq / MHz * 5120, 1000)) | PRT_DLLSRST(div_round_up(sdram_params->ddr_freq / MHz * 50, 1000)) | PRT_ITMSRST(8));
PRT_DLLLOCK(div_round_up(sdram_params->ddr_freq / MHz * 5120, 1000))
| PRT_DLLSRST(div_round_up(sdram_params->ddr_freq / MHz * 50, 1000))
| PRT_ITMSRST(8));
write32(&ddr_publ_regs->ptr[1],
PRT_DINIT0(div_round_up(sdram_params->ddr_freq / MHz * 500000, 1000)) | PRT_DINIT1(div_round_up(sdram_params->ddr_freq / MHz * 400, 1000)));
write32(&ddr_publ_regs->ptr[2],
PRT_DINIT2(MIN(dinit2, 0x1ffff)) | PRT_DINIT3(div_round_up(sdram_params->ddr_freq / MHz * 1000, 1000)));
PRT_DINIT0(div_round_up(sdram_params->ddr_freq / MHz * 500000, 1000))
| PRT_DINIT1(div_round_up(sdram_params->ddr_freq / MHz * 400, 1000)));
write32(&ddr_publ_regs->ptr[2], PRT_DINIT2(MIN(dinit2, 0x1ffff))
| PRT_DINIT3(div_round_up(sdram_params->ddr_freq / MHz * 1000, 1000)));
switch (sdram_params->dramtype) {
case LPDDR3:

View File

@ -103,8 +103,8 @@ static void rk3288_uart_init(void)
// Hide the divisor latches.
write32(&uart_ptr->lcr, line_config);
// Enable FIFOs, and clear receive and transmit.
write32(&uart_ptr->fcr,
UART8250_FCR_FIFO_EN | UART8250_FCR_CLEAR_RCVR | UART8250_FCR_CLEAR_XMIT);
write32(&uart_ptr->fcr, UART8250_FCR_FIFO_EN |
UART8250_FCR_CLEAR_RCVR | UART8250_FCR_CLEAR_XMIT);
}
static void rk3288_uart_tx_byte(unsigned char data)

View File

@ -51,11 +51,11 @@ void rkvop_enable(u32 vop_id, u32 fbbase, const struct edid *edid)
write32(&preg->win0_act_info,
V_ACT_WIDTH(hactive - 1) | V_ACT_HEIGHT(vactive - 1));
write32(&preg->win0_dsp_st,
V_DSP_XST(xpos + hsync_len + hback_porch) | V_DSP_YST(ypos + vsync_len + vback_porch));
write32(&preg->win0_dsp_st, V_DSP_XST(xpos + hsync_len + hback_porch) |
V_DSP_YST(ypos + vsync_len + vback_porch));
write32(&preg->win0_dsp_info,
V_DSP_WIDTH(hactive - 1) | V_DSP_HEIGHT(vactive - 1));
write32(&preg->win0_dsp_info, V_DSP_WIDTH(hactive - 1) |
V_DSP_HEIGHT(vactive - 1));
clrsetbits_le32(&preg->win0_color_key, M_WIN0_KEY_EN | M_WIN0_KEY_COLOR,
V_WIN0_KEY_EN(0) |
@ -111,23 +111,27 @@ void rkvop_mode_set(u32 vop_id, const struct edid *edid)
clrsetbits_le32(&preg->sys_ctrl, M_ALL_OUT_EN, V_EDP_OUT_EN(1));
clrsetbits_le32(&preg->dsp_ctrl0, M_DSP_OUT_MODE,
V_DSP_OUT_MODE(15));
write32(&preg->dsp_htotal_hs_end,
V_HSYNC(hsync_len) | V_HORPRD(hsync_len + hback_porch + hactive + hfront_porch));
write32(&preg->dsp_htotal_hs_end, V_HSYNC(hsync_len) |
V_HORPRD(hsync_len + hback_porch + hactive + hfront_porch));
write32(&preg->dsp_hact_st_end,
V_HEAP(hsync_len + hback_porch + hactive) | V_HASP(hsync_len + hback_porch));
V_HEAP(hsync_len + hback_porch + hactive) |
V_HASP(hsync_len + hback_porch));
write32(&preg->dsp_vtotal_vs_end,
V_VSYNC(vsync_len) | V_VERPRD(vsync_len + vback_porch + vactive + vfront_porch));
write32(&preg->dsp_vtotal_vs_end, V_VSYNC(vsync_len) |
V_VERPRD(vsync_len + vback_porch + vactive + vfront_porch));
write32(&preg->dsp_vact_st_end,
V_VAEP(vsync_len + vback_porch + vactive) | V_VASP(vsync_len + vback_porch));
V_VAEP(vsync_len + vback_porch + vactive) |
V_VASP(vsync_len + vback_porch));
write32(&preg->post_dsp_hact_info,
V_HEAP(hsync_len + hback_porch + hactive) | V_HASP(hsync_len + hback_porch));
V_HEAP(hsync_len + hback_porch + hactive) |
V_HASP(hsync_len + hback_porch));
write32(&preg->post_dsp_vact_info,
V_VAEP(vsync_len + vback_porch + vactive) | V_VASP(vsync_len + vback_porch));
V_VAEP(vsync_len + vback_porch + vactive) |
V_VASP(vsync_len + vback_porch));
write32(&preg->reg_cfg_done, 0x01); /* enable reg config */
}

View File

@ -224,8 +224,8 @@ void system_clock_init(struct mem_timings *mem,
;
if (mem->use_bpll) {
write32(&exynos_clock->src_cdrex,
MUX_BPLL_SEL_MASK | MUX_MCLK_CDREX_SEL | MUX_MCLK_DPHY_SEL);
write32(&exynos_clock->src_cdrex, MUX_BPLL_SEL_MASK |
MUX_MCLK_CDREX_SEL | MUX_MCLK_DPHY_SEL);
} else {
write32(&exynos_clock->src_cdrex, CLK_REG_DISABLE);
}

View File

@ -86,8 +86,9 @@ int ddr3_mem_ctrl_init(struct mem_timings *mem, unsigned long mem_iv_size,
write32(&exynos_phy0_control->phy_con14, mem->phy0_pulld_dqs);
write32(&exynos_phy1_control->phy_con14, mem->phy1_pulld_dqs);
write32(&exynos_dmc->concontrol,
mem->concontrol | (mem->rd_fetch << CONCONTROL_RD_FETCH_SHIFT) | (mem->dfi_init_start << CONCONTROL_DFI_INIT_START_SHIFT));
write32(&exynos_dmc->concontrol, mem->concontrol |
(mem->rd_fetch << CONCONTROL_RD_FETCH_SHIFT) |
(mem->dfi_init_start << CONCONTROL_DFI_INIT_START_SHIFT));
update_reset_dll(exynos_dmc, DDR_MODE_DDR3);
@ -137,7 +138,8 @@ int ddr3_mem_ctrl_init(struct mem_timings *mem, unsigned long mem_iv_size,
/* Power Down mode Configuration */
write32(&exynos_dmc->pwrdnconfig,
mem->dpwrdn_cyc << PWRDNCONFIG_DPWRDN_CYC_SHIFT | mem->dsref_cyc << PWRDNCONFIG_DSREF_CYC_SHIFT);
mem->dpwrdn_cyc << PWRDNCONFIG_DPWRDN_CYC_SHIFT |
mem->dsref_cyc << PWRDNCONFIG_DSREF_CYC_SHIFT);
/* TimingRow, TimingData, TimingPower and Timingaref
* values as per Memory AC parameters
@ -243,7 +245,8 @@ int ddr3_mem_ctrl_init(struct mem_timings *mem, unsigned long mem_iv_size,
write32(&exynos_dmc->memcontrol, mem->memcontrol);
/* Set DMC Concontrol and enable auto-refresh counter */
write32(&exynos_dmc->concontrol,
mem->concontrol | (mem->rd_fetch << CONCONTROL_RD_FETCH_SHIFT) | (mem->aref_en << CONCONTROL_AREF_EN_SHIFT));
write32(&exynos_dmc->concontrol, mem->concontrol |
(mem->rd_fetch << CONCONTROL_RD_FETCH_SHIFT) |
(mem->aref_en << CONCONTROL_AREF_EN_SHIFT));
return 0;
}

View File

@ -52,12 +52,22 @@ static void setup_dwc3(struct exynos5_usb_drd_dwc3 *dwc3)
/* Set relevant registers to default values (clearing all reset bits) */
write32(&dwc3->usb3pipectl,
0x1 << 24 | 0x4 << 19 | 0x1 << 18 | 0x1 << 17 | 0x1 << 1 | 0);
0x1 << 24 | /* activate PHY low power states */
0x4 << 19 | /* low power delay value */
0x1 << 18 | /* activate PHY low power delay */
0x1 << 17 | /* enable SuperSpeed PHY suspend */
0x1 << 1); /* default Tx deemphasis value */
/* Configure PHY clock turnaround for 8-bit UTMI+, disable suspend */
write32(&dwc3->usb2phycfg, 0x9 << 10 | 0x1 << 8 | 0x1 << 6 | 0);
write32(&dwc3->usb2phycfg,
0x9 << 10 | /* PHY clock turnaround for 8-bit UTMI+ */
0x1 << 8 | /* enable PHY sleep in L1 */
0x1 << 6); /* enable PHY suspend */
write32(&dwc3->ctl, 0x5dc << 19 | 0x1 << 16 | 0x1 << 12 | 0);
write32(&dwc3->ctl,
0x5dc << 19 | /* suspend clock scale for 24MHz */
0x1 << 16 | /* retry SS three times (bugfix from U-Boot) */
0x1 << 12); /* port capability HOST */
}
void setup_usb_drd_dwc3()
@ -77,13 +87,32 @@ static void setup_drd_phy(struct exynos5_usb_drd_phy *phy)
write32(&phy->utmi, 1 << 6);
write32(&phy->clkrst,
0x88 << 23 | 0x1 << 20 | 0x1 << 19 | 0x68 << 11 | 0x5 << 5 | 0x1 << 4 | 0x3 << 2 | 0x1 << 1 | 0x1 << 0 | 0);
0x88 << 23 | /* spread spectrum refclk selector */
0x1 << 20 | /* enable spread spectrum */
0x1 << 19 | /* enable prescaler refclk */
0x68 << 11 | /* multiplier for 24MHz refclk */
0x5 << 5 | /* select 24MHz refclk (weird, from U-Boot) */
0x1 << 4 | /* power supply in normal operating mode */
0x3 << 2 | /* use external refclk (undocumented on 5420?)*/
0x1 << 1 | /* force port reset */
0x1 << 0); /* normal operating mode */
write32(&phy->param0,
0x9 << 26 | 0x3 << 22 | 0x1 << 20 | 0x1 << 18 | 0x3 << 13 | 0x3 << 9 | 0x3 << 6 | 0x4 << 3 | 0x4 << 0 | 0);
0x9 << 26 | /* LOS level */
0x3 << 22 | /* TX VREF tune */
0x1 << 20 | /* TX rise tune */
0x1 << 18 | /* TX res tune */
0x3 << 13 | /* TX HS X Vtune */
0x3 << 9 | /* TX FS/LS tune */
0x3 << 6 | /* SQRX tune */
0x4 << 3 | /* OTG tune */
0x4 << 0); /* comp disc tune */
write32(&phy->param1,
0x7f << 19 | 0x7f << 12 | 0x20 << 6 | 0x1c << 0 | 0);
0x7f << 19 | /* reserved */
0x7f << 12 | /* Tx launch amplitude */
0x20 << 6 | /* Tx deemphasis 6dB */
0x1c << 0); /* Tx deemphasis 3.5dB (value from U-Boot) */
/* disable all test features */
write32(&phy->test, 0);

View File

@ -111,10 +111,12 @@ int ddr3_mem_ctrl_init(struct mem_timings *mem, int interleave_size, int reset)
write32(&exynos_drex0->phycontrol0, val);
write32(&exynos_drex1->phycontrol0, val);
write32(&exynos_drex0->concontrol,
mem->concontrol | (mem->dfi_init_start << CONCONTROL_DFI_INIT_START_SHIFT) | (mem->rd_fetch << CONCONTROL_RD_FETCH_SHIFT));
write32(&exynos_drex1->concontrol,
mem->concontrol | (mem->dfi_init_start << CONCONTROL_DFI_INIT_START_SHIFT) | (mem->rd_fetch << CONCONTROL_RD_FETCH_SHIFT));
write32(&exynos_drex0->concontrol, mem->concontrol |
(mem->dfi_init_start << CONCONTROL_DFI_INIT_START_SHIFT) |
(mem->rd_fetch << CONCONTROL_RD_FETCH_SHIFT));
write32(&exynos_drex1->concontrol, mem->concontrol |
(mem->dfi_init_start << CONCONTROL_DFI_INIT_START_SHIFT) |
(mem->rd_fetch << CONCONTROL_RD_FETCH_SHIFT));
do {
val = read32(&exynos_drex0->phystatus);
@ -198,9 +200,11 @@ int ddr3_mem_ctrl_init(struct mem_timings *mem, int interleave_size, int reset)
for (i = 0; i < 128; i++) {
for (chip = 0; chip < mem->chips_to_configure; chip++) {
write32(&exynos_drex0->directcmd,
DIRECT_CMD_REFA | (chip << DIRECT_CMD_CHIP_SHIFT));
DIRECT_CMD_REFA |
(chip << DIRECT_CMD_CHIP_SHIFT));
write32(&exynos_drex1->directcmd,
DIRECT_CMD_REFA | (chip << DIRECT_CMD_CHIP_SHIFT));
DIRECT_CMD_REFA |
(chip << DIRECT_CMD_CHIP_SHIFT));
}
}
}
@ -324,10 +328,14 @@ int ddr3_mem_ctrl_init(struct mem_timings *mem, int interleave_size, int reset)
* read data fetch cycles and enable DREX auto set powerdown
* for input buffer of I/O in none read memory state.
*/
write32(&exynos_drex0->concontrol,
mem->concontrol | (mem->aref_en << CONCONTROL_AREF_EN_SHIFT) | (mem->rd_fetch << CONCONTROL_RD_FETCH_SHIFT) | DMC_CONCONTROL_IO_PD_CON(0x2));
write32(&exynos_drex1->concontrol,
mem->concontrol | (mem->aref_en << CONCONTROL_AREF_EN_SHIFT) | (mem->rd_fetch << CONCONTROL_RD_FETCH_SHIFT) | DMC_CONCONTROL_IO_PD_CON(0x2));
write32(&exynos_drex0->concontrol, mem->concontrol |
(mem->aref_en << CONCONTROL_AREF_EN_SHIFT) |
(mem->rd_fetch << CONCONTROL_RD_FETCH_SHIFT) |
DMC_CONCONTROL_IO_PD_CON(0x2));
write32(&exynos_drex1->concontrol, mem->concontrol |
(mem->aref_en << CONCONTROL_AREF_EN_SHIFT) |
(mem->rd_fetch << CONCONTROL_RD_FETCH_SHIFT) |
DMC_CONCONTROL_IO_PD_CON(0x2));
/* Enable Clock Gating Control for DMC
* this saves around 25 mw dmc power as compared to the power

View File

@ -58,12 +58,22 @@ static void setup_dwc3(struct exynos5_usb_drd_dwc3 *dwc3)
/* Set relevant registers to default values (clearing all reset bits) */
write32(&dwc3->usb3pipectl,
0x1 << 24 | 0x4 << 19 | 0x1 << 18 | 0x1 << 17 | 0x1 << 1 | 0);
0x1 << 24 | /* activate PHY low power states */
0x4 << 19 | /* low power delay value */
0x1 << 18 | /* activate PHY low power delay */
0x1 << 17 | /* enable SuperSpeed PHY suspend */
0x1 << 1); /* default Tx deemphasis value */
/* Configure PHY clock turnaround for 8-bit UTMI+, disable suspend */
write32(&dwc3->usb2phycfg, 0x9 << 10 | 0x1 << 8 | 0x1 << 6 | 0);
write32(&dwc3->usb2phycfg,
0x9 << 10 | /* PHY clock turnaround for 8-bit UTMI+ */
0x1 << 8 | /* enable PHY sleep in L1 */
0x1 << 6); /* enable PHY suspend */
write32(&dwc3->ctl, 0x5dc << 19 | 0x1 << 16 | 0x1 << 12 | 0);
write32(&dwc3->ctl,
0x5dc << 19 | /* suspend clock scale for 24MHz */
0x1 << 16 | /* retry SS three times (bugfix from U-Boot) */
0x1 << 12); /* port capability HOST */
}
void setup_usb_drd0_dwc3()
@ -89,13 +99,32 @@ static void setup_drd_phy(struct exynos5_usb_drd_phy *phy)
write32(&phy->utmi, 1 << 6);
write32(&phy->clkrst,
0x88 << 23 | 0x1 << 20 | 0x1 << 19 | 0x68 << 11 | 0x5 << 5 | 0x1 << 4 | 0x3 << 2 | 0x1 << 1 | 0x1 << 0 | 0);
0x88 << 23 | /* spread spectrum refclk selector */
0x1 << 20 | /* enable spread spectrum */
0x1 << 19 | /* enable prescaler refclk */
0x68 << 11 | /* multiplier for 24MHz refclk */
0x5 << 5 | /* select 24MHz refclk (weird, from U-Boot) */
0x1 << 4 | /* power supply in normal operating mode */
0x3 << 2 | /* use external refclk (undocumented on 5420?)*/
0x1 << 1 | /* force port reset */
0x1 << 0); /* normal operating mode */
write32(&phy->param0,
0x9 << 26 | 0x3 << 22 | 0x1 << 20 | 0x1 << 18 | 0x3 << 13 | 0x3 << 9 | 0x3 << 6 | 0x4 << 3 | 0x4 << 0 | 0);
0x9 << 26 | /* LOS level */
0x3 << 22 | /* TX VREF tune */
0x1 << 20 | /* TX rise tune */
0x1 << 18 | /* TX res tune */
0x3 << 13 | /* TX HS X Vtune */
0x3 << 9 | /* TX FS/LS tune */
0x3 << 6 | /* SQRX tune */
0x4 << 3 | /* OTG tune */
0x4 << 0); /* comp disc tune */
write32(&phy->param1,
0x7f << 19 | 0x7f << 12 | 0x20 << 6 | 0x1c << 0 | 0);
0x7f << 19 | /* reserved */
0x7f << 12 | /* Tx launch amplitude */
0x20 << 6 | /* Tx deemphasis 6dB */
0x1c << 0); /* Tx deemphasis 3.5dB (value from U-Boot) */
/* disable all test features */
write32(&phy->test, 0);