#include #include #include #include #include #include #define LDELAY 12000000 void omap4_configure_mpu_dpll(const struct dpll_param *dpll_param) { /* Unlock the MPU dpll */ sr32(CM_CLKMODE_DPLL_MPU, 0, 3, PLL_MN_POWER_BYPASS); wait_on_value((1 << 0), 0, CM_IDLEST_DPLL_MPU, LDELAY); sr32(CM_AUTOIDLE_DPLL_MPU, 0, 3, 0x0); /* Disable DPLL autoidle */ /* Errata ID: i700, clear CM_CLKSEL_DPLL_MPU[22] : DCC_EN */ if (omap4_revision() >= OMAP4460_ES1_0) sr32(CM_CLKSEL_DPLL_MPU, 0, 22, 0); /* Set M,N,M2 values */ sr32(CM_CLKSEL_DPLL_MPU, 8, 11, dpll_param->m); sr32(CM_CLKSEL_DPLL_MPU, 0, 6, dpll_param->n); sr32(CM_DIV_M2_DPLL_MPU, 0, 5, dpll_param->m2); sr32(CM_DIV_M2_DPLL_MPU, 8, 1, 0x1); /* Lock the mpu dpll */ sr32(CM_CLKMODE_DPLL_MPU, 0, 3, PLL_LOCK | 0x10); wait_on_value((1 << 0), 1, CM_IDLEST_DPLL_MPU, LDELAY); } void omap4_configure_iva_dpll(const struct dpll_param *dpll_param) { /* Unlock the IVA dpll */ sr32(CM_CLKMODE_DPLL_IVA, 0, 3, PLL_MN_POWER_BYPASS); wait_on_value((1 << 0), 0, CM_IDLEST_DPLL_IVA, LDELAY); /* CM_BYPCLK_DPLL_IVA = CORE_X2_CLK/2 */ sr32(CM_BYPCLK_DPLL_IVA, 0, 2, 0x1); sr32(CM_AUTOIDLE_DPLL_IVA, 0, 3, 0x0); /* Disable DPLL autoidle */ /* Set M,N,M4,M5 */ sr32(CM_CLKSEL_DPLL_IVA, 8, 11, dpll_param->m); sr32(CM_CLKSEL_DPLL_IVA, 0, 7, dpll_param->n); sr32(CM_DIV_M4_DPLL_IVA, 0, 5, dpll_param->m4); sr32(CM_DIV_M4_DPLL_IVA, 8, 1, 0x1); sr32(CM_DIV_M5_DPLL_IVA, 0, 5, dpll_param->m5); sr32(CM_DIV_M5_DPLL_IVA, 8, 1, 0x1); /* Lock the iva dpll */ sr32(CM_CLKMODE_DPLL_IVA, 0, 3, PLL_LOCK); wait_on_value((1 << 0), 1, CM_IDLEST_DPLL_IVA, LDELAY); } void omap4_configure_per_dpll(const struct dpll_param *dpll_param) { /* Unlock the PER dpll */ sr32(CM_CLKMODE_DPLL_PER, 0, 3, PLL_MN_POWER_BYPASS); wait_on_value((1 << 0), 0, CM_IDLEST_DPLL_PER, LDELAY); /* Disable autoidle */ sr32(CM_AUTOIDLE_DPLL_PER, 0, 3, 0x0); sr32(CM_CLKSEL_DPLL_PER, 8, 11, dpll_param->m); sr32(CM_CLKSEL_DPLL_PER, 0, 6, dpll_param->n); sr32(CM_DIV_M2_DPLL_PER, 0, 5, dpll_param->m2); sr32(CM_DIV_M3_DPLL_PER, 0, 5, dpll_param->m3); sr32(CM_DIV_M4_DPLL_PER, 0, 5, dpll_param->m4); sr32(CM_DIV_M5_DPLL_PER, 0, 5, dpll_param->m5); sr32(CM_DIV_M6_DPLL_PER, 0, 5, dpll_param->m6); sr32(CM_DIV_M7_DPLL_PER, 0, 5, dpll_param->m7); sr32(CM_DIV_M2_DPLL_PER, 8, 1, 0x1); sr32(CM_DIV_M3_DPLL_PER, 8, 1, 0x1); sr32(CM_DIV_M4_DPLL_PER, 8, 1, 0x1); sr32(CM_DIV_M5_DPLL_PER, 8, 1, 0x1); sr32(CM_DIV_M6_DPLL_PER, 8, 1, 0x1); sr32(CM_DIV_M7_DPLL_PER, 8, 1, 0x1); /* Lock the per dpll */ sr32(CM_CLKMODE_DPLL_PER, 0, 3, PLL_LOCK); wait_on_value((1 << 0), 1, CM_IDLEST_DPLL_PER, LDELAY); return; } void omap4_configure_abe_dpll(const struct dpll_param *dpll_param) { /* Select sys_clk as ref clk for ABE dpll */ writel(0x0, CM_ABE_PLL_REF_CLKSEL); /* Unlock the ABE dpll */ sr32(CM_CLKMODE_DPLL_ABE, 0, 3, PLL_MN_POWER_BYPASS); wait_on_value((1 << 0), 0, CM_IDLEST_DPLL_ABE, LDELAY); /* Disable autoidle */ sr32(CM_AUTOIDLE_DPLL_ABE, 0, 3, 0x0); sr32(CM_CLKSEL_DPLL_ABE, 8, 11, dpll_param->m); sr32(CM_CLKSEL_DPLL_ABE, 0, 6, dpll_param->n); /* Force DPLL CLKOUTHIF to stay enabled */ writel(0x500, CM_DIV_M2_DPLL_ABE); sr32(CM_DIV_M2_DPLL_ABE, 0, 5, dpll_param->m2); sr32(CM_DIV_M2_DPLL_ABE, 8, 1, 0x1); /* Force DPLL CLKOUTHIF to stay enabled */ writel(0x100, CM_DIV_M3_DPLL_ABE); sr32(CM_DIV_M3_DPLL_ABE, 0, 5, dpll_param->m3); sr32(CM_DIV_M3_DPLL_ABE, 8, 1, 0x1); /* Lock the abe dpll */ sr32(CM_CLKMODE_DPLL_ABE, 0, 3, PLL_LOCK); wait_on_value((1 << 0), 1, CM_IDLEST_DPLL_ABE, LDELAY); return; } void omap4_configure_usb_dpll(const struct dpll_param *dpll_param) { /* Select the 60Mhz clock 480/8 = 60*/ writel(0x1, CM_CLKSEL_USB_60MHz); /* Unlock the USB dpll */ sr32(CM_CLKMODE_DPLL_USB, 0, 3, PLL_MN_POWER_BYPASS); wait_on_value((1 << 0), 0, CM_IDLEST_DPLL_USB, LDELAY); /* Disable autoidle */ sr32(CM_AUTOIDLE_DPLL_USB, 0, 3, 0x0); sr32(CM_CLKSEL_DPLL_USB, 8, 11, dpll_param->m); sr32(CM_CLKSEL_DPLL_USB, 0, 6, dpll_param->n); /* Force DPLL CLKOUT to stay active */ writel(0x100, CM_DIV_M2_DPLL_USB); sr32(CM_DIV_M2_DPLL_USB, 0, 5, dpll_param->m2); sr32(CM_DIV_M2_DPLL_USB, 8, 1, 0x1); sr32(CM_CLKDCOLDO_DPLL_USB, 8, 1, 0x1); /* Lock the usb dpll */ sr32(CM_CLKMODE_DPLL_USB, 0, 3, PLL_LOCK); wait_on_value((1 << 0), 1, CM_IDLEST_DPLL_USB, LDELAY); /* force enable the CLKDCOLDO clock */ writel(0x100, CM_CLKDCOLDO_DPLL_USB); return; } void omap4_configure_core_dpll_no_lock(const struct dpll_param *param) { /* CORE_CLK=CORE_X2_CLK/2, L3_CLK=CORE_CLK/2, L4_CLK=L3_CLK/2 */ writel(0x110, CM_CLKSEL_CORE); /* Unlock the CORE dpll */ sr32(CM_CLKMODE_DPLL_CORE, 0, 3, PLL_MN_POWER_BYPASS); wait_on_value((1 << 0), 0, CM_IDLEST_DPLL_CORE, LDELAY); /* Disable autoidle */ sr32(CM_AUTOIDLE_DPLL_CORE, 0, 3, 0x0); sr32(CM_CLKSEL_DPLL_CORE, 8, 11, param->m); sr32(CM_CLKSEL_DPLL_CORE, 0, 6, param->n); sr32(CM_DIV_M2_DPLL_CORE, 0, 5, param->m2); sr32(CM_DIV_M3_DPLL_CORE, 0, 5, param->m3); sr32(CM_DIV_M4_DPLL_CORE, 0, 5, param->m4); sr32(CM_DIV_M5_DPLL_CORE, 0, 5, param->m5); sr32(CM_DIV_M6_DPLL_CORE, 0, 5, param->m6); sr32(CM_DIV_M7_DPLL_CORE, 0, 5, param->m7); sr32(CM_DIV_M2_DPLL_CORE, 8, 1, 0x1); sr32(CM_DIV_M3_DPLL_CORE, 8, 1, 0x1); sr32(CM_DIV_M4_DPLL_CORE, 8, 1, 0x1); sr32(CM_DIV_M5_DPLL_CORE, 8, 1, 0x1); sr32(CM_DIV_M6_DPLL_CORE, 8, 1, 0x0); sr32(CM_DIV_M7_DPLL_CORE, 8, 1, 0x1); } void omap4_lock_core_dpll(void) { /* Lock the core dpll */ sr32(CM_CLKMODE_DPLL_CORE, 0, 3, PLL_LOCK); wait_on_value((1 << 0), 1, CM_IDLEST_DPLL_CORE, LDELAY); return; } void omap4_lock_core_dpll_shadow(const struct dpll_param *param) { /* Lock the core dpll using freq update method */ *(volatile int*)0x4A004120 = 10; //(CM_CLKMODE_DPLL_CORE) /* CM_SHADOW_FREQ_CONFIG1: DLL_OVERRIDE = 1(hack), DLL_RESET = 1, * DPLL_CORE_M2_DIV =1, DPLL_CORE_DPLL_EN = 0x7, FREQ_UPDATE = 1 */ *(volatile int*)0x4A004260 = 0x70D | (param->m2 << 11); /* Wait for Freq_Update to get cleared: CM_SHADOW_FREQ_CONFIG1 */ while( ( (*(volatile int*)0x4A004260) & 0x1) == 0x1 ); /* Wait for DPLL to Lock : CM_IDLEST_DPLL_CORE */ wait_on_value((1 << 0), 1, CM_IDLEST_DPLL_CORE, LDELAY); } void omap4_enable_gpio_clocks(void) { writel(0x1, CM_L4PER_GPIO2_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_GPIO2_CLKCTRL, LDELAY); writel(0x1, CM_L4PER_GPIO3_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_GPIO3_CLKCTRL, LDELAY); writel(0x1, CM_L4PER_GPIO4_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_GPIO4_CLKCTRL, LDELAY); writel(0x1, CM_L4PER_GPIO5_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_GPIO5_CLKCTRL, LDELAY); writel(0x1, CM_L4PER_GPIO6_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_GPIO6_CLKCTRL, LDELAY); } void omap4_enable_gpio1_wup_clocks(void) { /* WKUP clocks */ writel(0x1, CM_WKUP_GPIO1_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_WKUP_GPIO1_CLKCTRL, LDELAY); } void omap4_enable_all_clocks(void) { /* Enable Ducati clocks */ writel(0x1, CM_DUCATI_DUCATI_CLKCTRL); writel(0x2, CM_DUCATI_CLKSTCTRL); wait_on_value((1 << 8), (1 << 8), CM_DUCATI_CLKSTCTRL, LDELAY); /* Enable ivahd and sl2 clocks */ writel(0x1, IVAHD_IVAHD_CLKCTRL); writel(0x1, IVAHD_SL2_CLKCTRL); writel(0x2, IVAHD_CLKSTCTRL); wait_on_value((1 << 8), (1 << 8), IVAHD_CLKSTCTRL, LDELAY); /* Enable Tesla clocks */ writel(0x1, DSP_DSP_CLKCTRL); writel(0x2, DSP_CLKSTCTRL); wait_on_value((1 << 8), (1 << 8), DSP_CLKSTCTRL, LDELAY); /* wait for tesla to become accessible */ /* ABE clocks */ writel(0x3, CM1_ABE_CLKSTCTRL); writel(0x2, CM1_ABE_AESS_CLKCTRL); writel(0x2, CM1_ABE_PDM_CLKCTRL); writel(0x2, CM1_ABE_DMIC_CLKCTRL); writel(0x2, CM1_ABE_MCASP_CLKCTRL); writel(0x2, CM1_ABE_MCBSP1_CLKCTRL); writel(0x2, CM1_ABE_MCBSP2_CLKCTRL); writel(0x2, CM1_ABE_MCBSP3_CLKCTRL); writel(0xf02, CM1_ABE_SLIMBUS_CLKCTRL); writel(0x2, CM1_ABE_TIMER5_CLKCTRL); writel(0x2, CM1_ABE_TIMER6_CLKCTRL); writel(0x2, CM1_ABE_TIMER7_CLKCTRL); writel(0x2, CM1_ABE_TIMER8_CLKCTRL); writel(0x2, CM1_ABE_WDT3_CLKCTRL); /* Disable sleep transitions */ writel(0x0, CM1_ABE_CLKSTCTRL); /* L4PER clocks */ writel(0x2, CM_L4PER_CLKSTCTRL); writel(0x2, CM_L4PER_DMTIMER10_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_DMTIMER10_CLKCTRL, LDELAY); writel(0x2, CM_L4PER_DMTIMER11_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_DMTIMER11_CLKCTRL, LDELAY); writel(0x2, CM_L4PER_DMTIMER2_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_DMTIMER2_CLKCTRL, LDELAY); writel(0x2, CM_L4PER_DMTIMER3_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_DMTIMER3_CLKCTRL, LDELAY); writel(0x2, CM_L4PER_DMTIMER4_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_DMTIMER4_CLKCTRL, LDELAY); writel(0x2, CM_L4PER_DMTIMER9_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_DMTIMER9_CLKCTRL, LDELAY); /* GPIO clocks */ omap4_enable_gpio_clocks(); writel(0x2, CM_L4PER_HDQ1W_CLKCTRL); /* I2C clocks */ writel(0x2, CM_L4PER_I2C1_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_I2C1_CLKCTRL, LDELAY); writel(0x2, CM_L4PER_I2C2_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_I2C2_CLKCTRL, LDELAY); writel(0x2, CM_L4PER_I2C3_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_I2C3_CLKCTRL, LDELAY); writel(0x2, CM_L4PER_I2C4_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_I2C4_CLKCTRL, LDELAY); writel(0x2, CM_L4PER_MCBSP4_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_MCBSP4_CLKCTRL, LDELAY); /* MCSPI clocks */ writel(0x2, CM_L4PER_MCSPI1_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_MCSPI1_CLKCTRL, LDELAY); writel(0x2, CM_L4PER_MCSPI2_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_MCSPI2_CLKCTRL, LDELAY); writel(0x2, CM_L4PER_MCSPI3_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_MCSPI3_CLKCTRL, LDELAY); writel(0x2, CM_L4PER_MCSPI4_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_MCSPI4_CLKCTRL, LDELAY); /* MMC clocks */ sr32(CM_L3INIT_HSMMC1_CLKCTRL, 0, 2, 0x2); sr32(CM_L3INIT_HSMMC1_CLKCTRL, 24, 1, 0x1); sr32(CM_L3INIT_HSMMC2_CLKCTRL, 0, 2, 0x2); sr32(CM_L3INIT_HSMMC2_CLKCTRL, 24, 1, 0x1); writel(0x2, CM_L4PER_MMCSD3_CLKCTRL); wait_on_value((1 << 18)|(1 << 17)|(1 << 16), 0, CM_L4PER_MMCSD3_CLKCTRL, LDELAY); writel(0x2, CM_L4PER_MMCSD4_CLKCTRL); wait_on_value((1 << 18)|(1 << 17)|(1 << 16), 0, CM_L4PER_MMCSD4_CLKCTRL, LDELAY); writel(0x2, CM_L4PER_MMCSD5_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_MMCSD5_CLKCTRL, LDELAY); /* UART clocks */ writel(0x2, CM_L4PER_UART1_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_UART1_CLKCTRL, LDELAY); writel(0x2, CM_L4PER_UART2_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_UART2_CLKCTRL, LDELAY); writel(0x2, CM_L4PER_UART3_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_UART3_CLKCTRL, LDELAY); writel(0x2, CM_L4PER_UART4_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L4PER_UART4_CLKCTRL, LDELAY); /* WKUP clocks */ omap4_enable_gpio1_wup_clocks(); writel(0x01000002, CM_WKUP_TIMER1_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_WKUP_TIMER1_CLKCTRL, LDELAY); writel(0x2, CM_WKUP_KEYBOARD_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_WKUP_KEYBOARD_CLKCTRL, LDELAY); writel(0x0, CM_SDMA_CLKSTCTRL); writel(0x3, CM_MEMIF_CLKSTCTRL); writel(0x1, CM_MEMIF_EMIF_1_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_MEMIF_EMIF_1_CLKCTRL, LDELAY); writel(0x1, CM_MEMIF_EMIF_2_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_MEMIF_EMIF_2_CLKCTRL, LDELAY); writel(0x3, CM_D2D_CLKSTCTRL); writel(0x1, CM_L3_2_GPMC_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L3_2_GPMC_CLKCTRL, LDELAY); writel(0x1, CM_L3INSTR_L3_3_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L3INSTR_L3_3_CLKCTRL, LDELAY); writel(0x1, CM_L3INSTR_L3_INSTR_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L3INSTR_L3_INSTR_CLKCTRL, LDELAY); writel(0x1, CM_L3INSTR_OCP_WP1_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_L3INSTR_OCP_WP1_CLKCTRL, LDELAY); /* WDT clocks */ writel(0x2, CM_WKUP_WDT2_CLKCTRL); wait_on_value((1 << 17)|(1 << 16), 0, CM_WKUP_WDT2_CLKCTRL, LDELAY); /* Enable Camera clocks */ writel(0x3, CM_CAM_CLKSTCTRL); writel(0x102, CM_CAM_ISS_CLKCTRL); writel(0x2, CM_CAM_FDIF_CLKCTRL); writel(0x0, CM_CAM_CLKSTCTRL); /* Enable DSS clocks */ /* PM_DSS_PWRSTCTRL ON State and LogicState = 1 (Retention) */ __raw_writel(7, 0x4A307100); /* DSS_PRM */ writel(0x2, CM_DSS_CLKSTCTRL); writel(0xf02, CM_DSS_DSS_CLKCTRL); writel(0x2, CM_DSS_DEISS_CLKCTRL); /* Check for DSS Clocks */ while ((__raw_readl(0x4A009100) & 0xF00) != 0xE00) ; /* Set HW_AUTO transition mode */ writel(0x3, CM_DSS_CLKSTCTRL); /* Enable SGX clocks */ writel(0x2, CM_SGX_CLKSTCTRL); writel(0x2, CM_SGX_SGX_CLKCTRL); /* Check for SGX FCLK and ICLK */ while (__raw_readl(0x4A009200) != 0x302) ; /* Enable hsi/unipro/usb clocks */ writel(0x1, CM_L3INIT_HSI_CLKCTRL); writel(0x2, CM_L3INIT_UNIPRO1_CLKCTRL); writel(0x2, CM_L3INIT_HSUSBHOST_CLKCTRL); writel(0x1, CM_L3INIT_HSUSBOTG_CLKCTRL); writel(0x1, CM_L3INIT_HSUSBTLL_CLKCTRL); writel(0x2, CM_L3INIT_FSUSB_CLKCTRL); /* enable the 32K, 48M optional clocks and enable the module */ writel(0x301, CM_L3INIT_USBPHY_CLKCTRL); } void omap4_do_scale_tps62361(u32 reg, u32 volt_mv) { u32 temp, step; step = volt_mv - TPS62361_BASE_VOLT_MV; step /= 10; temp = TPS62361_I2C_SLAVE_ADDR | (reg << OMAP44XX_PRM_VC_VAL_BYPASS_REGADDR_SHIFT) | (step << OMAP44XX_PRM_VC_VAL_BYPASS_DATA_SHIFT) | OMAP44XX_PRM_VC_VAL_BYPASS_VALID_BIT; debug("do_scale_tps62361: volt - %d step - 0x%x\n", volt_mv, step); writel(temp, OMAP44XX_PRM_VC_VAL_BYPASS); if (!wait_on_value(OMAP44XX_PRM_VC_VAL_BYPASS_VALID_BIT, 0, OMAP44XX_PRM_VC_VAL_BYPASS, LDELAY)) debug("Scaling voltage failed for vdd_mpu from TPS\n"); }