view src/cs/drivers/drv_core/armio/armio.c @ 281:a75eefbf8be4

Phone boot with PWON: weed out short button presses Every standard end user phone has a design provision, most naturally implemented in firmware, whereby the PWON button effects a boot only if it is held down long enough - short presses of this PWON button are detected, assumed to be spurious and cause the fw to power back off instead of proceeding with boot. The present change introduces this standard function in FreeCalypso.
author Mychaela Falconia <falcon@freecalypso.org>
date Fri, 24 Sep 2021 02:03:08 +0000
parents 6fb17a32c5bd
children
line wrap: on
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/*
 * ARMIO.C 
 *
 *
 * Control diagnostic bits
 *
 * Reference : GCS207
 *
 */


#include "l1sw.cfg"
#include "swconfig.cfg"
#ifdef BLUETOOTH_INCLUDED
#include "btemobile.cfg"
#endif
#if (OP_L1_STANDALONE == 1)
  #include "l1_macro.h"
  #include "l1_confg.h"
#endif
#include "board.cfg"
#include "chipset.cfg"
#include "fc-target.h"

#if (OP_L1_STANDALONE == 0)
  #include "main/sys_types.h"
#else
  #include "sys_types.h"
#endif


#include "memif/mem.h"

#include "inth/iq.h"
#include "armio/armio.h"
#include "abb/abb.h"	 // for AI_Power function : to be removed, use ABB_Power_Off in abb.c file instead !!!

#ifdef CONFIG_TANGO_MODEM
#include "ffs/ffs_api.h"

SYS_UWORD8 AI_Tango_pinmux[4];
#endif

#if (CHIPSET != 12)
/*
 * AI_EnableBit
 *
 * Enable ARMIO input/output bit (see CLKM module specification)
 */
void AI_EnableBit(int bit)
{
  *((volatile SYS_UWORD16 *) CLKM_IO_CNTL) |= (1<<bit); 
}

/*
 * AI_DisableBit
 *
 * Disable ARMIO input/output bit (see CLKM module specification)
 */
void AI_DisableBit(int bit)
{
  *((volatile SYS_UWORD16 *) CLKM_IO_CNTL) &= ~(1<<bit); 
}

#endif /* CHIPSET != 12 */

/*
 * AI_SetBit
 *
 * Switch-on one bit
 */
void AI_SetBit(int bit)
{
   *((volatile SYS_UWORD16 *) ARMIO_OUT) |= (1<<bit); 
}

/*
 * AI_ResetBit
 *
 * Switch-off one bit
 */
void AI_ResetBit(int bit)
{
   *((volatile SYS_UWORD16 *) ARMIO_OUT) &= ~(1<<bit); 
}

/*
 * AI_ConfigBitAsOutput
 *
 * Set this bit as an output
 */
void AI_ConfigBitAsOutput(int bit)
{
   *((volatile SYS_UWORD16 *) ARMIO_IO_CNTL) &= ~(1<<bit); 
}

/*
 * AI_ConfigBitAsInput
 *
 * Set this bit as an input
 */
void AI_ConfigBitAsInput(int bit)
{
   *((volatile SYS_UWORD16 *) ARMIO_IO_CNTL) |= (1<<bit); 
}


/*
 * AI_ReadBit
 *
 * Read value in register
 */
SYS_BOOL AI_ReadBit(int bit)
{
   if ((*((volatile SYS_UWORD16 *) ARMIO_IN)) & (1<<bit))
      return (1);
   else
      return (0);
}

/*
 * AI_Power
 *
 * Switch-on or off the board
 *
 * Parameters : SYS_UWORD8 power: 1 to power-on (maintain power)
 *                                0 to power-off
 *
 */
#if (OP_L1_STANDALONE == 0)
void AI_Power(SYS_UWORD8 power)
{
  if (power == 0) 
  {
	ABB_Power_Off();
  }
}
#endif

/*
 * AI_ResetIoConfig
 *
 * Reset all default IO configurations
 *
 */
void AI_ResetIoConfig(void)
{
  *((volatile SYS_UWORD16 *) ARMIO_IO_CNTL) = 0xFFFF; // all bits are inputs
  #if (CHIPSET != 12)
    *((volatile SYS_UWORD16 *) CLKM_IO_CNTL) = 0;       // default config
  #endif /* CHIPSET != 12 */
}


/*
 * AI_ClockEnable
 *
 * Enable ARMIO clock module
 *
 */
void AI_ClockEnable(void)
{
   *((volatile SYS_UWORD16 *) ARMIO_CNTL_REG) |= ARMIO_CLOCKEN;    // set to 1 bit 5
}


/*
 * AI_InitIOConfig
 *
 * Configure all GPIOs at initialization in order to optimize the power consumption 
 * of the C-Sample :
 *  - select IOs 8,9,10,11,12 and 13 on the pins instead of MCSI and MCUEN signals.
 *  - configure these IOs in output high.
 *  - configure the IOs 0 (Vibrator LED) and 1 (LCD_A0) in output low.
 */
void AI_InitIOConfig(void)
{
  // reset the IOs config
  AI_ResetIoConfig();

  // CLKM_IO_CNTL register configuration :
  // select IOs 6,8,9,10,11,12 and 13 on the pins instead of MCSI and MCUEN signals.
  AI_EnableBit(0);	/* FreeCalypso addition */
  AI_EnableBit(2);
  AI_EnableBit(4);

  #ifdef CONFIG_TARGET_PIRELLI
    AI_EnableBit(1);
    AI_EnableBit(3);
  #endif

  /* Bits 5,6,7,8 are used to output I/O 9,10,11,12 or MCSI pins */
  /* If Bluetooth, IO should be disabled, outputting MCSI used for Bluetooth voice */
  /*
   * FreeCalypso change: we don't have BT, our new criterion is
   * whether or not a given board is wired for MCSI.
   */
  #if defined(CONFIG_MCSI_MODEM) || defined(CONFIG_TARGET_PIRELLI)
    AI_DisableBit(5);
    AI_DisableBit(6);
    AI_DisableBit(7);
    AI_DisableBit(8);
  #else
    AI_EnableBit(5);
    AI_EnableBit(6);
    AI_EnableBit(7);
    AI_EnableBit(8);
  #endif

  AI_EnableBit(9);

  // ARMIO_OUT register configuration :
  // set IOs 8,9,10,11,12 and 13 as high
  // set IOs 0 to 7 as low

  #ifdef CONFIG_TARGET_C11X
    /* C11x GPIO configuration mimics what the original fw sets */

    /* GPIO out all zeros */
    *((volatile SYS_UWORD16 *) ARMIO_OUT) = 0x0000;

    /* setting of GPIOs as outputs: register setting from the original fw */
    *((volatile SYS_UWORD16 *) ARMIO_IO_CNTL) = 0x2209;

  #elif defined(CONFIG_TARGET_C139)
    /* C139 GPIO configuration mimics what the original fw sets */

    /* GPIO out all zeros - the LCD backlight is OFF */
    *((volatile SYS_UWORD16 *) ARMIO_OUT) = 0x0000;

    /* setting of GPIOs as outputs: register setting from the original fw */
    *((volatile SYS_UWORD16 *) ARMIO_IO_CNTL) = 0x2A09;

  #elif defined(CONFIG_TARGET_C155)
    /* C155 GPIO config based on the available schematics */

    /* GPIO out all zeros - the LCD backlight is OFF */
    *((volatile SYS_UWORD16 *) ARMIO_OUT) = 0x0000;

    AI_ConfigBitAsOutput(1);	/* LCD backlight control */
    AI_ConfigBitAsOutput(2);	/* headset jack switch */
    AI_ConfigBitAsOutput(3);	/* LCDA0 (?) */
    AI_ConfigBitAsOutput(8);	/* MUSIC_A0 */
    AI_ConfigBitAsOutput(12);	/* MUSIC_ON */

  #elif defined(CONFIG_TARGET_J100)
    /*
     * GPIO config on this target is based on the disassembly of
     * Init_Target() and AI_InitIOConfig() functions in the official fw.
     */

    /* GPIO out all zeros - the LCD backlight is OFF */
    *((volatile SYS_UWORD16 *) ARMIO_OUT) = 0x0000;

    /* setting of GPIOs as outputs: register setting from the original fw */
    *((volatile SYS_UWORD16 *) ARMIO_IO_CNTL) = 0x2A59;

  #elif defined(CONFIG_TARGET_PIRELLI)

    *((volatile SYS_UWORD16 *) ARMIO_OUT) = 0x0000;

    AI_ConfigBitAsOutput(1);
    AI_ConfigBitAsOutput(4);
    AI_ConfigBitAsOutput(7);

  #else	/* classic TI/Openmoko/FreeCalypso targets */
    // set IOs 1 and 8 to 13 as high
    // set IOs 0 and 2 to 7 as low
    // On D-Sample GPIO 1 must be set to high to enable the audio amplifier,
    // but on Openmoko's modem it is the interrupt to the AP.
    // On the FCDEV3B it also controls the audio amplifier.
    // On the GTM900 GPIOs 0 and 1 are RI and DSR outputs, respectively.
    // For targets other than GTM900, we enable the audio amplifier
    // if we are in an MMI!=0 build - for ACI builds use the AT@SPKR command.
#ifdef CONFIG_TARGET_GTM900
      *((volatile SYS_UWORD16 *) ARMIO_OUT) = 0x3F05;
#elif defined(CONFIG_TARGET_LUNA)
      *((volatile SYS_UWORD16 *) ARMIO_OUT) = 0x2106;
#elif (MMI != 0) || defined(CONFIG_GPIO1_HIGH)
      *((volatile SYS_UWORD16 *) ARMIO_OUT) = 0x3F06;
#else
      *((volatile SYS_UWORD16 *) ARMIO_OUT) = 0x3F04;
#endif

    // ARMIO_CNTL_REG register configuration :
    // set IOs 1,2,5,7,9,14 and 15 as ouputs.
    // all others are FreeCalypso additions
    #if defined(CONFIG_GPIO046_OUTPUTS) || defined(CONFIG_TARGET_GTM900)
      AI_ConfigBitAsOutput(0);
    #endif
    #ifndef CONFIG_TANGO_MODEM	/* we do dynamic config on Tango instead */
      AI_ConfigBitAsOutput(1);
      #ifndef CONFIG_TARGET_LEONARDO	/* GPIO 2 is an input on Leonardo! */
        AI_ConfigBitAsOutput(2);
      #endif
      #ifdef CONFIG_GPIO3_OUTPUT
        AI_ConfigBitAsOutput(3);
      #endif
    #endif
    #ifdef CONFIG_GPIO046_OUTPUTS
      AI_ConfigBitAsOutput(4);
    #endif
    AI_ConfigBitAsOutput(5);
    #ifdef CONFIG_GPIO046_OUTPUTS
      AI_ConfigBitAsOutput(6);
    #endif
    AI_ConfigBitAsOutput(7);
    #if 1	/* FreeCalypso addition for all targets */
      AI_ConfigBitAsOutput(8);
    #endif
    AI_ConfigBitAsOutput(9);
    #ifdef CONFIG_MCSI_UNUSED
      AI_ConfigBitAsOutput(10);
      AI_ConfigBitAsOutput(11);
      AI_ConfigBitAsOutput(12);
    #endif
    #if 1	/* FreeCalypso addition for all targets */
      AI_ConfigBitAsOutput(13);
    #endif
    AI_ConfigBitAsOutput(14);
    AI_ConfigBitAsOutput(15);
  #endif
}

#ifdef CONFIG_TANGO_MODEM
void AI_Init_Tango_pinmux(void)
{
	ffs_file_read("/etc/tango-pinmux", AI_Tango_pinmux, 4);
	/* apply this config */
	if (AI_Tango_pinmux[0] & 0x80) {
		if (AI_Tango_pinmux[0] & 1)
			AI_SetBit(1);
		else
			AI_ResetBit(1);
		AI_ConfigBitAsOutput(1);
	}
	/* GPIO2 config */
	if (AI_Tango_pinmux[1] & 0x02) {
		if (AI_Tango_pinmux[1] & 0x01)
			AI_SetBit(2);
		else
			AI_ResetBit(2);
		AI_ConfigBitAsOutput(2);
	}
	/* GPIO3 config */
	if (AI_Tango_pinmux[1] & 0x20) {
		if (AI_Tango_pinmux[1] & 0x10)
			AI_SetBit(3);
		else
			AI_ResetBit(3);
		AI_ConfigBitAsOutput(3);
	}
	/* RESET_OUT/IO7 config */
	if (AI_Tango_pinmux[2] & 0x08) {
		AI_EnableBit(3);
		if (AI_Tango_pinmux[2] & 0x02) {
			if (AI_Tango_pinmux[2] & 0x01)
				AI_SetBit(7);
			else
				AI_ResetBit(7);
		} else
			AI_ConfigBitAsInput(7);
	}
	/* MCSI/GPIO config */
	if (AI_Tango_pinmux[2] & 0x80) {
		if (AI_Tango_pinmux[3] & 0x10) {
			if (AI_Tango_pinmux[3] & 0x01)
				AI_SetBit(9);
			else
				AI_ResetBit(9);
		} else
			AI_ConfigBitAsInput(9);
		AI_EnableBit(5);
		AI_EnableBit(6);
		AI_EnableBit(7);
		AI_EnableBit(8);
		if (AI_Tango_pinmux[3] & 0x20) {
			if (AI_Tango_pinmux[3] & 0x02)
				AI_SetBit(10);
			else
				AI_ResetBit(10);
			AI_ConfigBitAsOutput(10);
		}
		if (AI_Tango_pinmux[3] & 0x40) {
			if (AI_Tango_pinmux[3] & 0x04)
				AI_SetBit(11);
			else
				AI_ResetBit(11);
			AI_ConfigBitAsOutput(11);
		}
		if (AI_Tango_pinmux[3] & 0x80) {
			if (AI_Tango_pinmux[3] & 0x08)
				AI_SetBit(12);
			else
				AI_ResetBit(12);
			AI_ConfigBitAsOutput(12);
		}
	}
}
#endif

/*
 * AI_SelectIOForIT
 *
 * Select which IO will be used to generate an interrupt.
 * 'Edge' specifies if interrup must be detected on falling or rising edge.
 *
 * Warning: parameters are not checked.
 */
 
void AI_SelectIOForIT (SYS_UWORD16 Pin, SYS_UWORD16 Edge)
{
  #if (CHIPSET == 12)
    /*
     *  Update INTERRUPT_LEVEL_REG with Edge configuration on Pin selection
     */
    GPIO_INTERRUPT_LEVEL_REG = (Edge & 0x0001) << Pin;

    /*
     *  Update INTERRUPT_MASK_REG to enable interrupt generation on Pin selection
     */
    GPIO_INTERRUPT_MASK_REG = 1 << Pin;
  #else
    /*
     * Bit SET_GPIO_EVENT_MODE (bit 0) is set to enable the GPIO event mode.
     */
     
    *((volatile SYS_UWORD16 *) ARMIO_GPIO_EVENT_MODE) = (Pin << 1) + (Edge << 5) + 1;
  #endif
}

#if (CHIPSET != 12)
/*
 * AI_CheckITSource
 *
 * Check if the interrupt specified by 'Source' is active or not.
 *
 * Output: 0: IT is not active
 *         1: IT is active
 *
 * Warning: parameters are not checked.
 *
 * Warning: If the keypad and GPIO interrupts may occur the GPIO interrupt
 *          must be checked first because the GPIO status bit is reset when
 *          the register is read.
 */
 
int  AI_CheckITSource (SYS_UWORD16 Source)
{
    return (*((volatile SYS_UWORD16 *) ARMIO_KBD_GPIO_INT) & Source ? 1 : 0);
}

/*
 * AI_UnmaskIT
 *
 * Unmask the IT specified by 'Source' (keyboard or GPIO).
 *
 * Warning: parameters are not checked.
 */
 
void AI_UnmaskIT (SYS_UWORD16 Source)
{
    *((volatile SYS_UWORD16 *) ARMIO_KBD_GPIO_MASKIT) &= ~Source;
}

/*
 * AI_MaskIT
 *
 * Mask the IT specified by 'Source' (keyboard or GPIO).
 *
 * Warning: parameters are not checked.
 */
 
void AI_MaskIT (SYS_UWORD16 Source)
{
    *((volatile SYS_UWORD16 *) ARMIO_KBD_GPIO_MASKIT) |= Source;
}
#endif /* CHIPSET != 12 */

#if (CHIPSET == 12)

  void AI_MaskIT(SYS_UWORD16 d_io_number) {
    GPIO_INTERRUPT_MASK_REG |= (1 << d_io_number);
  } /* f_gpio_mask_it() */
  
  void AI_UnmaskIT(SYS_UWORD16 d_io_number) {
    GPIO_INTERRUPT_MASK_REG &= ~(1 << d_io_number);
  } /* f_gpio_unmask_it() */

#endif