b23b7088cb
It handles GPIO and PWM based LEDs, possibly with several channels (red-green LED for example). The debug allows one to play with the setting. Currently the code supports the ZEN, ZEN X-Fi, and ZEN Mozaic. Change-Id: I8c3b66e6ba21778acdb123daabb724280a7d1a4f
390 lines
12 KiB
C
390 lines
12 KiB
C
/***************************************************************************
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* __________ __ ___.
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* Open \______ \ ____ ____ | | _\_ |__ _______ ___
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* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
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* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
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* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
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* \/ \/ \/ \/ \/
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* $Id$
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*
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* Copyright (C) 2011 by Amaury Pouly
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
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* KIND, either express or implied.
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*
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****************************************************************************/
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#include "kernel.h"
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#include "system.h"
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#include "gcc_extensions.h"
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#include "system-target.h"
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#include "cpu.h"
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#include "clkctrl-imx233.h"
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#include "pinctrl-imx233.h"
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#include "timrot-imx233.h"
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#include "dma-imx233.h"
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#include "ssp-imx233.h"
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#include "i2c-imx233.h"
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#if IMX233_SUBTARGET >= 3700
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#include "dcp-imx233.h"
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#endif
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#include "pwm-imx233.h"
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#include "icoll-imx233.h"
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#include "lradc-imx233.h"
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#include "rtc-imx233.h"
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#include "power-imx233.h"
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#include "emi-imx233.h"
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#include "lcd.h"
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#include "backlight-target.h"
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#include "button.h"
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#include "fmradio_i2c.h"
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#include "powermgmt-imx233.h"
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#include "led-imx233.h"
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#include "regs/digctl.h"
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#include "regs/usbphy.h"
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#include "regs/timrot.h"
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#define WATCHDOG_HW_DELAY (10 * HZ)
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#define WATCHDOG_SW_DELAY (5 * HZ)
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void UIE(unsigned int pc, unsigned int num);
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static void woof_woof(void)
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{
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/* stop hardware watchdog, we catched the error */
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imx233_rtc_enable_watchdog(false);
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/* recover current PC and trigger abort, so in the hope to get a useful
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* backtrace */
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uint32_t pc = HW_DIGCTL_SCRATCH0;
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UIE(pc, 4);
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}
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static void good_dog(void)
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{
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imx233_rtc_reset_watchdog(WATCHDOG_HW_DELAY * 1000 / HZ); /* ms */
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imx233_rtc_enable_watchdog(true);
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imx233_timrot_setup_simple(TIMER_WATCHDOG, false, WATCHDOG_SW_DELAY * 1000 / HZ,
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TIMER_SRC_1KHZ, &woof_woof);
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imx233_timrot_set_priority(TIMER_WATCHDOG, ICOLL_PRIO_WATCHDOG);
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}
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void imx233_keep_alive(void)
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{
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/* setting up a timer is not exactly a cheap operation so only do so
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* every second */
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static uint32_t last_alive = 0;
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if(imx233_us_elapsed(last_alive, 1000000))
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{
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good_dog();
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last_alive = HW_DIGCTL_MICROSECONDS;
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}
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}
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static void watchdog_init(void)
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{
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/* setup two mechanisms:
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* - hardware watchdog to reset the player after 10 seconds
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* - software watchdog using a timer to panic after 5 seconds
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* The hardware mechanism ensures reset when the player is completely
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* dead and it actually resets the whole chip. On the contrary, the software
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* mechanism allows partial recovery by panicing and printing (maybe) useful
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* information, it uses a dedicated timer with the highest level of interrupt
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* priority so it works even if the player is stuck in IRQ context */
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good_dog();
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}
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void imx233_system_prepare_shutdown(void)
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{
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/* wait a bit, useful for the user to stop touching anything */
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sleep(HZ / 2);
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/* disable watchdog just in case since we will disable interrupts */
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imx233_rtc_enable_watchdog(false);
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/* disable interrupts, it's probably better to avoid any action so close
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* to shutdown */
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disable_interrupt(IRQ_FIQ_STATUS);
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#ifdef SANSA_FUZEPLUS
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/* This pin seems to be important to shutdown the hardware properly */
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imx233_pinctrl_acquire(0, 9, "power off");
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imx233_pinctrl_set_function(0, 9, PINCTRL_FUNCTION_GPIO);
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imx233_pinctrl_enable_gpio(0, 9, true);
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imx233_pinctrl_set_gpio(0, 9, true);
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#endif
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}
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void imx233_chip_reset(void)
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{
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#if IMX233_SUBTARGET >= 3700
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HW_CLKCTRL_RESET = BM_CLKCTRL_RESET_CHIP;
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#else
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BF_WR_ALL(POWER_RESET, UNLOCK_V(KEY), RST_DIG(1));
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#endif
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}
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void system_reboot(void)
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{
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imx233_system_prepare_shutdown();
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/* reset */
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imx233_chip_reset();
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while(1);
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}
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void system_exception_wait(void)
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{
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/* stop hadrware watchdog, IRQs are stopped */
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imx233_rtc_enable_watchdog(false);
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/* make sure lcd and backlight are on */
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lcd_update();
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backlight_hw_on();
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backlight_hw_brightness(DEFAULT_BRIGHTNESS_SETTING);
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/* wait until button release (if a button is pressed)
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* NOTE at this point, interrupts are off so that rules out touchpad and
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* ADC, so we are pretty much left with PSWITCH only. If other buttons are
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* wanted, it is possible to implement a busy polling version of button
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* reading for GPIO and ADC in button-imx233 but this is not done at the
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* moment. */
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while(imx233_power_read_pswitch() != 0) {}
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while(imx233_power_read_pswitch() == 0) {}
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while(imx233_power_read_pswitch() != 0) {}
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}
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int system_memory_guard(int newmode)
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{
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(void)newmode;
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return 0;
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}
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static void set_page_tables(void)
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{
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/* map every memory region to itself */
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map_section(0, 0, 0x1000, CACHE_NONE);
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/* map RAM and enable caching for it */
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map_section(DRAM_ORIG, CACHED_DRAM_ADDR, MEMORYSIZE, CACHE_ALL);
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map_section(DRAM_ORIG, BUFFERED_DRAM_ADDR, MEMORYSIZE, BUFFERED);
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}
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void memory_init(void)
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{
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ttb_init();
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set_page_tables();
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enable_mmu();
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}
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void system_init(void)
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{
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/* NOTE: don't use anything here that might require tick task !
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* It is initialized by kernel_init *after* system_init().
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* The main() will naturally set cpu speed to normal after kernel_init()
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* so don't bother if the cpu is running at 24MHz here.
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* Make sure IO clock is running at expected speed */
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imx233_clkctrl_init();
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imx233_clkctrl_enable(CLK_PLL, true);
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#if IMX233_SUBTARGET >= 3700
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imx233_clkctrl_set_frac_div(CLK_IO, 18); // clk_io@clk_pll
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#endif
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imx233_rtc_init();
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imx233_icoll_init();
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imx233_pinctrl_init();
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imx233_timrot_init();
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imx233_dma_init();
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imx233_ssp_init();
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#if IMX233_SUBTARGET >= 3700
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imx233_dcp_init();
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#endif
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imx233_pwm_init();
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imx233_lradc_init();
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imx233_power_init();
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imx233_i2c_init();
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imx233_powermgmt_init();
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imx233_led_init();
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/* setup watchdog */
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watchdog_init();
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/* make sure auto-slow is disable now, we don't know at which frequency we
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* are running and auto-slow could violate constraints on {xbus,hbus} */
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imx233_clkctrl_enable_auto_slow(false);
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imx233_clkctrl_set_auto_slow_div(BV_CLKCTRL_HBUS_SLOW_DIV__BY8);
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cpu_frequency = imx233_clkctrl_get_freq(CLK_CPU) * 1000; /* variable in Hz */
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#if !defined(BOOTLOADER) && CONFIG_TUNER != 0
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fmradio_i2c_init();
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#endif
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}
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void system_prepare_fw_start(void)
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{
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/* keep alive to get enough time, stop watchdog */
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imx233_keep_alive();
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imx233_rtc_enable_watchdog(false);
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}
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bool imx233_us_elapsed(uint32_t ref, unsigned us_delay)
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{
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uint32_t cur = HW_DIGCTL_MICROSECONDS;
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if(ref + us_delay <= ref)
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return !(cur > ref) && !(cur < (ref + us_delay));
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else
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return (cur < ref) || cur >= (ref + us_delay);
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}
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void imx233_reset_block(volatile uint32_t *block_reg)
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{
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/* deassert reset and clock gate */
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__REG_CLR(*block_reg) = __BLOCK_SFTRST;
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while(*block_reg & __BLOCK_SFTRST);
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__REG_CLR(*block_reg) = __BLOCK_CLKGATE;
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while(*block_reg & __BLOCK_CLKGATE);
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/* soft-reset */
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__REG_SET(*block_reg) = __BLOCK_SFTRST;
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/* make sure block is gated off */
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while(!(*block_reg & __BLOCK_CLKGATE));
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/* bring block out of reset */
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__REG_CLR(*block_reg) = __BLOCK_SFTRST;
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while(*block_reg & __BLOCK_SFTRST);
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/* make sure clock is running */
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__REG_CLR(*block_reg) = __BLOCK_CLKGATE;
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while(*block_reg & __BLOCK_CLKGATE);
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}
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void udelay(unsigned us)
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{
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uint32_t ref = HW_DIGCTL_MICROSECONDS;
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while(!imx233_us_elapsed(ref, us));
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}
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void imx233_digctl_set_arm_cache_timings(unsigned timings)
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{
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#if IMX233_SUBTARGET >= 3780
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BF_WR_ALL(DIGCTL_ARMCACHE, ITAG_SS(timings),
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DTAG_SS(timings), CACHE_SS(timings), DRTY_SS(timings), VALID_SS(timings));
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#else
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BF_WR_ALL(DIGCTL_ARMCACHE, ITAG_SS(timings),
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DTAG_SS(timings), CACHE_SS(timings));
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#endif
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}
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struct cpufreq_profile_t
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{
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/* key */
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long cpu_freq;
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/* parameters */
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int vddd, vddd_bo;
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int hbus_div;
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int cpu_idiv, cpu_fdiv;
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long emi_freq;
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int arm_cache_timings;
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};
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/* Some devices don't handle very well memory frequency changes, so avoid them
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* by running at highest speed at all time */
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#if defined(CREATIVE_ZEN) || defined(CREATIVE_ZENXFI)
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#define EMIFREQ_NORMAL IMX233_EMIFREQ_130_MHz
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#define EMIFREQ_MAX IMX233_EMIFREQ_130_MHz
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#else /* weird targets */
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#define EMIFREQ_NORMAL IMX233_EMIFREQ_64_MHz
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#define EMIFREQ_MAX IMX233_EMIFREQ_130_MHz
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#endif
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#if IMX233_SUBTARGET >= 3700
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static struct cpufreq_profile_t cpu_profiles[] =
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{
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/* clk_p@454.74 MHz, clk_h@151.58 MHz, clk_emi@130.91 MHz, VDDD@1.550 V */
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{IMX233_CPUFREQ_454_MHz, 1550, 1450, 3, 1, 19, EMIFREQ_MAX, 0},
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/* clk_p@320.00 MHz, clk_h@106.66 MHz, clk_emi@130.91 MHz, VDDD@1.450 V */
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{IMX233_CPUFREQ_320_MHz, 1450, 1350, 3, 1, 27, EMIFREQ_MAX, 0},
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/* clk_p@261.82 MHz, clk_h@130.91 MHz, clk_emi@130.91 MHz, VDDD@1.275 V */
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{IMX233_CPUFREQ_261_MHz, 1275, 1175, 2, 1, 33, EMIFREQ_MAX, 0},
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/* clk_p@64 MHz, clk_h@64 MHz, clk_emi@64 MHz, VDDD@1.050 V */
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{IMX233_CPUFREQ_64_MHz, 1050, 975, 1, 5, 27, EMIFREQ_NORMAL, 3},
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/* dummy */
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{0, 0, 0, 0, 0, 0, 0, 0}
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};
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#endif
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#define NR_CPU_PROFILES ((int)(sizeof(cpu_profiles)/sizeof(cpu_profiles[0])))
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void imx233_set_cpu_frequency(long frequency)
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{
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#if IMX233_SUBTARGET >= 3700
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/* don't change the frequency if it is useless (changes are expensive) */
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if(cpu_frequency == frequency)
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return;
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struct cpufreq_profile_t *prof = cpu_profiles;
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while(prof->cpu_freq != 0 && prof->cpu_freq != frequency)
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prof++;
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if(prof->cpu_freq == 0)
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return;
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/* disable auto-slow (enable back afterwards) */
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imx233_clkctrl_enable_auto_slow(false);
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/* WARNING watch out the order ! */
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if(frequency > cpu_frequency)
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{
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/* Change VDDD regulator */
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imx233_power_set_regulator(REGULATOR_VDDD, prof->vddd, prof->vddd_bo);
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/* Change ARM cache timings */
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imx233_digctl_set_arm_cache_timings(prof->arm_cache_timings);
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/* Change CPU and HBUS frequencies */
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imx233_clkctrl_set_cpu_hbus_div(prof->cpu_idiv, prof->cpu_fdiv, prof->hbus_div);
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/* Set the new EMI frequency */
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imx233_emi_set_frequency(prof->emi_freq);
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}
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else
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{
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/* Change CPU and HBUS frequencies */
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imx233_clkctrl_set_cpu_hbus_div(prof->cpu_idiv, prof->cpu_fdiv, prof->hbus_div);
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/* Set the new EMI frequency */
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imx233_emi_set_frequency(prof->emi_freq);
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/* Change ARM cache timings */
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imx233_digctl_set_arm_cache_timings(prof->arm_cache_timings);
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/* Change VDDD regulator */
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imx233_power_set_regulator(REGULATOR_VDDD, prof->vddd, prof->vddd_bo);
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}
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/* enable auto slow again */
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imx233_clkctrl_enable_auto_slow(true);
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/* update frequency */
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cpu_frequency = frequency;
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#else
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(void) frequency;
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#endif
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}
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#ifdef HAVE_ADJUSTABLE_CPU_FREQ
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void set_cpu_frequency(long frequency)
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{
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return imx233_set_cpu_frequency(frequency);
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}
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#endif
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void imx233_enable_usb_controller(bool enable)
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{
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if(enable)
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BF_CLR(DIGCTL_CTRL, USB_CLKGATE);
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else
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BF_SET(DIGCTL_CTRL, USB_CLKGATE);
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}
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void imx233_enable_usb_phy(bool enable)
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{
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if(enable)
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{
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BF_CLR(USBPHY_CTRL, SFTRST);
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BF_CLR(USBPHY_CTRL, CLKGATE);
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HW_USBPHY_PWD_CLR = 0xffffffff;
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}
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else
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{
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HW_USBPHY_PWD_SET = 0xffffffff;
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BF_SET(USBPHY_CTRL, SFTRST);
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BF_SET(USBPHY_CTRL, CLKGATE);
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}
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}
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