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view src/cs/drivers/drv_app/ffs/board/amdsbdrv.c @ 660:293c7db5f10f

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bmi3: fixed the mysterious "mute on first call" bug When UI-enabled fw boots on a previously blank (no /mmi/* files) FFS for the first time, the output_volume member of the persistent UI settings structure was left uninitialized, corresponding to the earpiece volume being set to mute, which is an invalid setting. Because of other quirks in the far-from-finished UI code, this volume setting takes effect only when the first call is answered, producing the odd behaviour seen at the user level. The current fix is to set the blank-FFS default for output_volume to volume level 4, which is the same -6 dB Iota volume as the ACI default.
author Mychaela Falconia <falcon@freecalypso.org>
date Thu, 14 May 2020 02:50:41 +0000
parents 945cf7f506b2
children
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/******************************************************************************
 * Flash File System (ffs)
 * Idea, design and coding by Mads Meisner-Jensen, mmj@ti.com
 *
 * FFS AMD single bank low level flash driver RAM code
 *
 * $Id: amdsbdrv.c 1.5.1.3 Tue, 06 Jan 2004 10:57:45 +0100 tsj $
 *
 ******************************************************************************/

#include "ffs.cfg"

#include "ffs/ffs.h"
#include "ffs/board/drv.h"
#include "ffs/board/ffstrace.h"


// Due to long branches, we disable all tracing and led function calls.
#undef  tlw
#define tlw(contents)
#undef  ttw
#define ttw(contents)


asm("        .label _ffsdrv_ram_amd_begin");
asm("        .def   _ffsdrv_ram_amd_begin");


// IMPORTANT! Apparently, placing the int_disable/enable() function code
// here instead of at the bottom of the file, makes the code crash or
// freeze. Reason is as of yet unknown.

uint32 amd_int_disable(void);
void amd_int_enable(uint32 tmp);


/******************************************************************************
 * AMD Single Bank Driver Functions
 ******************************************************************************/

void ffsdrv_ram_amd_sb_write_halfword(volatile uint16 *addr, uint16 value)
{
    volatile char *flash = dev.base;
    uint32 cpsr;

    ttw(ttr(TTrDrv, "wh(%x,%x)" NL, addr, value));

    if (~*addr & value) {
        ttw(ttr(TTrFatal, "wh(%x,%x->%x) fatal" NL, addr, *addr, value));
        return;
    }

    cpsr = amd_int_disable();
    tlw(led_on(LED_WRITE));

    flash[0xAAAA] = 0xAA; // AMD unlock cycle 1
    flash[0x5555] = 0x55; // AMD unlock cycle 2
    flash[0xAAAA] = 0xA0;
    *addr         = value;

    while ((*addr ^ value) & 0x80)
	;

    tlw(led_off(LED_WRITE));
    amd_int_enable(cpsr);
}

// This VERY simple way of erase suspension only works because we run under
// a pre-emptive operating system, so whenever an interrupt occurs, another
// task takes the CPU, and at the end of the interrupt, FFS gets the CPU
// again.
void ffsdrv_ram_amd_sb_erase(uint8 block)
{
    volatile char *flash = dev.base;
    volatile char *addr;
    uint32 cpsr;
    uint16 flashpoll;

    addr = block2addr(block);

    ttw(ttr(TTrDrvEra, "e(%d)" NL, block));

    cpsr = amd_int_disable();
    tlw(led_on(LED_ERASE));

    flash[0xAAAA] = 0xAA; // AMD unlock cycle 1
    flash[0x5555] = 0x55; // AMD unlock cycle 2
    flash[0xAAAA] = 0x80; 
    flash[0xAAAA] = 0xAA; // AMD unlock cycle 1
    flash[0x5555] = 0x55; // AMD unlock cycle 2
    *addr         = 0x30; // AMD erase sector command

    // Wait for erase to finish.
    while ((*addr & 0x80) == 0) {
        tlw(led_toggle(LED_ERASE));
        // Poll interrupts, taking interrupt mask into account.
        if (INT_REQUESTED)
        {
            // 1. suspend erase
            // 2. enable interrupts
            // .. now the interrupt code executes
            // 3. disable interrupts
            // 4. resume erase

            tlw(led_on(LED_ERASE_SUSPEND));
            *addr = 0xB0;

            // wait for erase suspend to finish
            while ((*addr & 0x80) == 0)
                ;

            tlw(led_off(LED_ERASE_SUSPEND));
            amd_int_enable(cpsr);

            // Other interrupts and tasks run now...

            cpsr = amd_int_disable();
            tlw(led_on(LED_ERASE_SUSPEND));

            // Before resuming erase we must? check if the erase is really
            // suspended or if it did finish
            flashpoll = *addr;
            *addr = 0x30;

            tlw(led_off(LED_ERASE_SUSPEND));
        }
    }

    tlw(led_on(LED_ERASE));
    tlw(led_off(LED_ERASE));
    amd_int_enable(cpsr);
}


/******************************************************************************
 * Interrupt Enable/Disable
 ******************************************************************************/

uint32 amd_int_disable(void)
{
    asm("        .state16");
    asm("        mov       A1, #0xC0");
    asm("        ldr       A2, tct_amd_disable");
    asm("        bx        A2      ");

    asm("tct_amd_disable 	.field     _TCT_Control_Interrupts+0,32");
    asm("	                .global	   _TCT_Control_Interrupts");
}

void amd_int_enable(uint32 cpsr)
{
    asm("        .state16");
    asm("        ldr       A2, tct_amd_enable");
    asm("        bx        A2      ");

    asm("tct_amd_enable 	.field     _TCT_Control_Interrupts+0,32");
    asm("	                .global	   _TCT_Control_Interrupts");
}

// Even though we have this end label, we cannot determine the number of
// constant/PC-relative data following the code!
asm("        .state32");
asm("        .label _ffsdrv_ram_amd_end");
asm("        .def   _ffsdrv_ram_amd_end");