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rockbox/apps/debug_menu.c
Lorenzo Miori 3cad5573b6 ypr0: This patch adds radio support to Samsung YP-R0 
Basically it uses the default SI4700 radio chip driver, the only thing that's different is the I2C access,
written specifically to interact with my kernel module.
Next things to add are:
- RDS support!

Change-Id: I0ed125641e00f93124d7a34f90dd508e7f1db5a4
Signed-off-by: Lorenzo Miori <memorys60@gmail.com>
2012-05-28 19:39:14 +02:00

2306 lines
72 KiB
C
Raw Blame History

/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2002 Heikki Hannikainen
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
#include "config.h"
#include <stdlib.h>
#include <stdio.h>
#include <stdbool.h>
#include <string.h>
#include "lcd.h"
#include "lang.h"
#include "menu.h"
#include "debug_menu.h"
#include "kernel.h"
#include "structec.h"
#include "action.h"
#include "debug.h"
#include "thread.h"
#include "powermgmt.h"
#include "system.h"
#include "font.h"
#include "audio.h"
#include "mp3_playback.h"
#include "settings.h"
#include "list.h"
#include "statusbar.h"
#include "dir.h"
#include "panic.h"
#include "screens.h"
#include "misc.h"
#include "splash.h"
#include "shortcuts.h"
#include "dircache.h"
#include "viewport.h"
#ifdef HAVE_TAGCACHE
#include "tagcache.h"
#endif
#ifdef HAVE_REMOTE_LCD
#include "lcd-remote.h"
#endif
#include "crc32.h"
#include "logf.h"
#if (CONFIG_PLATFORM & PLATFORM_NATIVE)
#include "disk.h"
#include "adc.h"
#include "usb.h"
#include "rtc.h"
#include "storage.h"
#include "fat.h"
#include "eeprom_24cxx.h"
#if (CONFIG_STORAGE & STORAGE_MMC) || (CONFIG_STORAGE & STORAGE_SD)
#include "sdmmc.h"
#endif
#if (CONFIG_STORAGE & STORAGE_ATA)
#include "ata.h"
#endif
#if CONFIG_TUNER
#include "tuner.h"
#include "radio.h"
#endif
#endif
#include "power.h"
#if defined(SAMSUNG_YPR0) && defined(CONFIG_TUNER)
#include "tuner.h"
#include "radio.h"
#endif
#ifdef HAVE_LCD_BITMAP
#include "scrollbar.h"
#include "peakmeter.h"
#endif
#include "logfdisp.h"
#include "core_alloc.h"
#if CONFIG_CODEC == SWCODEC
#include "pcmbuf.h"
#include "buffering.h"
#include "playback.h"
#if defined(HAVE_SPDIF_OUT) || defined(HAVE_SPDIF_IN)
#include "spdif.h"
#endif
#endif
#ifdef IRIVER_H300_SERIES
#include "pcf50606.h" /* for pcf50606_read */
#endif
#ifdef IAUDIO_X5
#include "ds2411.h"
#endif
#include "hwcompat.h"
#include "button.h"
#if CONFIG_RTC == RTC_PCF50605
#include "pcf50605.h"
#endif
#include "appevents.h"
#if defined(HAVE_AS3514) && defined(CONFIG_CHARGING)
#include "ascodec.h"
#endif
#ifdef IPOD_NANO2G
#include "pmu-target.h"
#endif
#ifdef HAVE_USBSTACK
#include "usb_core.h"
#endif
#if defined(IPOD_ACCESSORY_PROTOCOL)
#include "iap.h"
#endif
#ifdef HAVE_RDS_CAP
#include "rds.h"
#endif
/*---------------------------------------------------*/
/* SPECIAL DEBUG STUFF */
/*---------------------------------------------------*/
extern struct thread_entry threads[MAXTHREADS];
static char thread_status_char(unsigned status)
{
static const char thread_status_chars[THREAD_NUM_STATES+1] =
{
[0 ... THREAD_NUM_STATES] = '?',
[STATE_RUNNING] = 'R',
[STATE_BLOCKED] = 'B',
[STATE_SLEEPING] = 'S',
[STATE_BLOCKED_W_TMO] = 'T',
[STATE_FROZEN] = 'F',
[STATE_KILLED] = 'K',
};
if (status > THREAD_NUM_STATES)
status = THREAD_NUM_STATES;
return thread_status_chars[status];
}
static const char* threads_getname(int selected_item, void *data,
char *buffer, size_t buffer_len)
{
(void)data;
struct thread_entry *thread;
char name[32];
#if NUM_CORES > 1
if (selected_item < (int)NUM_CORES)
{
snprintf(buffer, buffer_len, "Idle (%d): %2d%%", selected_item,
idle_stack_usage(selected_item));
return buffer;
}
selected_item -= NUM_CORES;
#endif
thread = &threads[selected_item];
if (thread->state == STATE_KILLED)
{
snprintf(buffer, buffer_len, "%2d: ---", selected_item);
return buffer;
}
thread_get_name(name, 32, thread);
snprintf(buffer, buffer_len,
"%2d: " IF_COP("(%d) ") "%c%c " IF_PRIO("%d %d ") "%2d%% %s",
selected_item,
IF_COP(thread->core,)
#ifdef HAVE_SCHEDULER_BOOSTCTRL
(thread->cpu_boost) ? '+' :
#endif
((thread->state == STATE_RUNNING) ? '*' : ' '),
thread_status_char(thread->state),
IF_PRIO(thread->base_priority, thread->priority, )
thread_stack_usage(thread), name);
return buffer;
}
static int dbg_threads_action_callback(int action, struct gui_synclist *lists)
{
(void)lists;
#ifdef ROCKBOX_HAS_LOGF
if (action == ACTION_STD_OK)
{
int selpos = gui_synclist_get_sel_pos(lists);
#if NUM_CORES > 1
if (selpos >= NUM_CORES)
remove_thread(threads[selpos - NUM_CORES].id);
#else
remove_thread(threads[selpos].id);
#endif
return ACTION_REDRAW;
}
#endif /* ROCKBOX_HAS_LOGF */
if (action == ACTION_NONE)
action = ACTION_REDRAW;
return action;
}
/* Test code!!! */
static bool dbg_os(void)
{
struct simplelist_info info;
simplelist_info_init(&info, IF_COP("Core and ") "Stack usage:",
#if NUM_CORES == 1
MAXTHREADS,
#else
MAXTHREADS+NUM_CORES,
#endif
NULL);
#ifndef ROCKBOX_HAS_LOGF
info.hide_selection = true;
info.scroll_all = true;
#endif
info.action_callback = dbg_threads_action_callback;
info.get_name = threads_getname;
return simplelist_show_list(&info);
}
#ifdef __linux__
#include "cpuinfo-linux.h"
#define MAX_STATES 16
static struct time_state states[MAX_STATES];
static const char* get_cpuinfo(int selected_item, void *data,
char *buffer, size_t buffer_len)
{
(void)data;(void)buffer_len;
const char* text;
long time, diff;
struct cpuusage us;
static struct cpuusage last_us;
int state_count = *(int*)data;
if (cpuusage_linux(&us) != 0)
return NULL;
switch(selected_item)
{
case 0:
diff = abs(last_us.usage - us.usage);
sprintf(buffer, "Usage: %ld.%02ld%% (%c %ld.%02ld)",
us.usage/100, us.usage%100,
(us.usage >= last_us.usage) ? '+':'-',
diff/100, diff%100);
last_us.usage = us.usage;
return buffer;
case 1:
text = "User";
time = us.utime;
diff = us.utime - last_us.utime;
last_us.utime = us.utime;
break;
case 2:
text = "Sys";
time = us.stime;
diff = us.stime - last_us.stime;
last_us.stime = us.stime;
break;
case 3:
text = "Real";
time = us.rtime;
diff = us.rtime - last_us.rtime;
last_us.rtime = us.rtime;
break;
case 4:
return "*** Per CPU freq stats ***";
default:
{
int cpu = (selected_item - 5) / (state_count + 1);
int cpu_line = (selected_item - 5) % (state_count + 1);
int freq1 = frequency_linux(cpu, false);
int freq2 = frequency_linux(cpu, true);
if (cpu_line == 0)
{
sprintf(buffer, " CPU%d: Cur/Scal freq: %d/%d MHz", cpu,
freq1 > 0 ? freq1/1000 : -1,
freq2 > 0 ? freq2/1000 : -1);
}
else
{
cpustatetimes_linux(cpu, states, ARRAYLEN(states));
snprintf(buffer, buffer_len, " %ld %ld",
states[cpu_line-1].frequency,
states[cpu_line-1].time);
}
return buffer;
}
}
sprintf(buffer, "%s: %ld.%02lds (+ %ld.%02ld)", text,
time / us.hz, time % us.hz,
diff / us.hz, diff % us.hz);
return buffer;
}
static int cpuinfo_cb(int action, struct gui_synclist *lists)
{
(void)lists;
if (action == ACTION_NONE)
action = ACTION_REDRAW;
return action;
}
static bool dbg_cpuinfo(void)
{
struct simplelist_info info;
int cpu_count = MAX(cpucount_linux(), 1);
int state_count = cpustatetimes_linux(0, states, ARRAYLEN(states));
printf("%s(): %d %d\n", __func__, cpu_count, state_count);
simplelist_info_init(&info, "CPU info:", 5 + cpu_count*(state_count+1), &state_count);
info.get_name = get_cpuinfo;
info.action_callback = cpuinfo_cb;
info.timeout = HZ;
info.hide_selection = true;
info.scroll_all = true;
return simplelist_show_list(&info);
}
#endif
#ifdef HAVE_LCD_BITMAP
#if CONFIG_CODEC != SWCODEC
#ifndef SIMULATOR
static bool dbg_audio_thread(void)
{
struct audio_debug d;
lcd_setfont(FONT_SYSFIXED);
while(1)
{
if (action_userabort(HZ/5))
return false;
audio_get_debugdata(&d);
lcd_clear_display();
lcd_putsf(0, 0, "read: %x", d.audiobuf_read);
lcd_putsf(0, 1, "write: %x", d.audiobuf_write);
lcd_putsf(0, 2, "swap: %x", d.audiobuf_swapwrite);
lcd_putsf(0, 3, "playing: %d", d.playing);
lcd_putsf(0, 4, "playable: %x", d.playable_space);
lcd_putsf(0, 5, "unswapped: %x", d.unswapped_space);
/* Playable space left */
gui_scrollbar_draw(&screens[SCREEN_MAIN],0, 6*8, 112, 4, d.audiobuflen, 0,
d.playable_space, HORIZONTAL);
/* Show the watermark limit */
gui_scrollbar_draw(&screens[SCREEN_MAIN],0, 6*8+4, 112, 4, d.audiobuflen, 0,
d.low_watermark_level, HORIZONTAL);
lcd_putsf(0, 7, "wm: %x - %x",
d.low_watermark_level, d.lowest_watermark_level);
lcd_update();
}
lcd_setfont(FONT_UI);
return false;
}
#endif /* !SIMULATOR */
#else /* CONFIG_CODEC == SWCODEC */
static unsigned int ticks, freq_sum;
#ifndef CPU_MULTI_FREQUENCY
static unsigned int boost_ticks;
#endif
static void dbg_audio_task(void)
{
#ifdef CPUFREQ_NORMAL
#ifndef CPU_MULTI_FREQUENCY
if(FREQ > CPUFREQ_NORMAL)
boost_ticks++;
#endif
freq_sum += FREQ/1000000; /* in MHz */
#endif
ticks++;
}
static bool dbg_buffering_thread(void)
{
int button;
int line;
bool done = false;
size_t bufused;
size_t bufsize = pcmbuf_get_bufsize();
int pcmbufdescs = pcmbuf_descs();
struct buffering_debug d;
size_t filebuflen = audio_get_filebuflen();
/* This is a size_t, but call it a long so it puts a - when it's bad. */
#ifndef CPU_MULTI_FREQUENCY
boost_ticks = 0;
#endif
ticks = freq_sum = 0;
tick_add_task(dbg_audio_task);
FOR_NB_SCREENS(i)
screens[i].setfont(FONT_SYSFIXED);
while(!done)
{
button = get_action(CONTEXT_STD,HZ/5);
switch(button)
{
case ACTION_STD_NEXT:
audio_next();
break;
case ACTION_STD_PREV:
audio_prev();
break;
case ACTION_STD_CANCEL:
done = true;
break;
}
buffering_get_debugdata(&d);
bufused = bufsize - pcmbuf_free();
FOR_NB_SCREENS(i)
{
line = 0;
screens[i].clear_display();
screens[i].putsf(0, line++, "pcm: %6ld/%ld", (long) bufused, (long) bufsize);
gui_scrollbar_draw(&screens[i],0, line*8, screens[i].lcdwidth, 6,
bufsize, 0, bufused, HORIZONTAL);
line++;
screens[i].putsf(0, line++, "alloc: %6ld/%ld", audio_filebufused(),
(long) filebuflen);
#if LCD_HEIGHT > 80 || (defined(HAVE_REMOTE_LCD) && LCD_REMOTE_HEIGHT > 80)
if (screens[i].lcdheight > 80)
{
gui_scrollbar_draw(&screens[i],0, line*8, screens[i].lcdwidth, 6,
filebuflen, 0, audio_filebufused(), HORIZONTAL);
line++;
screens[i].putsf(0, line++, "real: %6ld/%ld", (long)d.buffered_data,
(long)filebuflen);
gui_scrollbar_draw(&screens[i],0, line*8, screens[i].lcdwidth, 6,
filebuflen, 0, (long)d.buffered_data, HORIZONTAL);
line++;
}
#endif
screens[i].putsf(0, line++, "usefl: %6ld/%ld", (long)(d.useful_data),
(long)filebuflen);
#if LCD_HEIGHT > 80 || (defined(HAVE_REMOTE_LCD) && LCD_REMOTE_HEIGHT > 80)
if (screens[i].lcdheight > 80)
{
gui_scrollbar_draw(&screens[i],0, line*8, screens[i].lcdwidth, 6,
filebuflen, 0, d.useful_data, HORIZONTAL);
line++;
}
#endif
screens[i].putsf(0, line++, "data_rem: %ld", (long)d.data_rem);
screens[i].putsf(0, line++, "track count: %2d", audio_track_count());
screens[i].putsf(0, line++, "handle count: %d", (int)d.num_handles);
#if (CONFIG_PLATFORM & PLATFORM_NATIVE)
screens[i].putsf(0, line++, "cpu freq: %3dMHz",
(int)((FREQ + 500000) / 1000000));
#endif
if (ticks > 0)
{
int avgclock = freq_sum * 10 / ticks; /* in 100 kHz */
#ifdef CPU_MULTI_FREQUENCY
int boostquota = (avgclock * 100 - CPUFREQ_NORMAL/1000) /
((CPUFREQ_MAX - CPUFREQ_NORMAL) / 1000000); /* in 0.1 % */
#else
int boostquota = boost_ticks * 1000 / ticks; /* in 0.1 % */
#endif
screens[i].putsf(0, line++, "boost:%3d.%d%% (%d.%dMHz)",
boostquota/10, boostquota%10, avgclock/10, avgclock%10);
}
screens[i].putsf(0, line++, "pcmbufdesc: %2d/%2d",
pcmbuf_used_descs(), pcmbufdescs);
screens[i].putsf(0, line++, "watermark: %6d",
(int)(d.watermark));
screens[i].update();
}
}
tick_remove_task(dbg_audio_task);
FOR_NB_SCREENS(i)
screens[i].setfont(FONT_UI);
return false;
}
#endif /* CONFIG_CODEC */
#endif /* HAVE_LCD_BITMAP */
static const char* bf_getname(int selected_item, void *data,
char *buffer, size_t buffer_len)
{
(void)data;
core_print_block_at(selected_item, buffer, buffer_len);
return buffer;
}
static int bf_action_cb(int action, struct gui_synclist* list)
{
if (action == ACTION_STD_OK)
{
if (gui_synclist_get_sel_pos(list) == 0 && core_test_free())
{
splash(HZ, "Freed test handle. New alloc should trigger compact");
}
else
{
splash(HZ/1, "Attempting a 64k allocation");
int handle = core_alloc("test", 64<<10);
splash(HZ/2, (handle > 0) ? "Success":"Fail");
/* for some reason simplelist doesn't allow adding items here if
* info.get_name is given, so use normal list api */
gui_synclist_set_nb_items(list, core_get_num_blocks());
if (handle > 0)
core_free(handle);
}
action = ACTION_REDRAW;
}
else if (action == ACTION_NONE)
action = ACTION_REDRAW;
return action;
}
static bool dbg_buflib_allocs(void)
{
struct simplelist_info info;
simplelist_info_init(&info, "mem allocs", core_get_num_blocks(), NULL);
info.get_name = bf_getname;
info.action_callback = bf_action_cb;
info.timeout = TIMEOUT_BLOCK;
return simplelist_show_list(&info);
}
#if (CONFIG_PLATFORM & PLATFORM_NATIVE)
static const char* dbg_partitions_getname(int selected_item, void *data,
char *buffer, size_t buffer_len)
{
(void)data;
int partition = selected_item/2;
struct partinfo* p = disk_partinfo(partition);
if (selected_item%2)
{
snprintf(buffer, buffer_len, " T:%x %ld MB", p->type, p->size / ( 2048 / ( SECTOR_SIZE / 512 )));
}
else
{
snprintf(buffer, buffer_len, "P%d: S:%lx", partition, p->start);
}
return buffer;
}
static bool dbg_partitions(void)
{
struct simplelist_info info;
simplelist_info_init(&info, "Partition Info", 4, NULL);
info.selection_size = 2;
info.hide_selection = true;
info.scroll_all = true;
info.get_name = dbg_partitions_getname;
return simplelist_show_list(&info);
}
#endif /* PLATFORM_NATIVE */
#if defined(CPU_COLDFIRE) && defined(HAVE_SPDIF_OUT)
static bool dbg_spdif(void)
{
int line;
unsigned int control;
int x;
char *s;
int category;
int generation;
unsigned int interruptstat;
bool valnogood, symbolerr, parityerr;
bool done = false;
bool spdif_src_on;
int spdif_source = spdif_get_output_source(&spdif_src_on);
spdif_set_output_source(AUDIO_SRC_SPDIF IF_SPDIF_POWER_(, true));
lcd_clear_display();
lcd_setfont(FONT_SYSFIXED);
#ifdef HAVE_SPDIF_POWER
spdif_power_enable(true); /* We need SPDIF power for both sending & receiving */
#endif
while (!done)
{
line = 0;
control = EBU1RCVCCHANNEL1;
interruptstat = INTERRUPTSTAT;
INTERRUPTCLEAR = 0x03c00000;
valnogood = (interruptstat & 0x01000000)?true:false;
symbolerr = (interruptstat & 0x00800000)?true:false;
parityerr = (interruptstat & 0x00400000)?true:false;
lcd_putsf(0, line++, "Val: %s Sym: %s Par: %s",
valnogood?"--":"OK",
symbolerr?"--":"OK",
parityerr?"--":"OK");
lcd_putsf(0, line++, "Status word: %08x", (int)control);
line++;
x = control >> 31;
lcd_putsf(0, line++, "PRO: %d (%s)",
x, x?"Professional":"Consumer");
x = (control >> 30) & 1;
lcd_putsf(0, line++, "Audio: %d (%s)",
x, x?"Non-PCM":"PCM");
x = (control >> 29) & 1;
lcd_putsf(0, line++, "Copy: %d (%s)",
x, x?"Permitted":"Inhibited");
x = (control >> 27) & 7;
switch(x)
{
case 0:
s = "None";
break;
case 1:
s = "50/15us";
break;
default:
s = "Reserved";
break;
}
lcd_putsf(0, line++, "Preemphasis: %d (%s)", x, s);
x = (control >> 24) & 3;
lcd_putsf(0, line++, "Mode: %d", x);
category = (control >> 17) & 127;
switch(category)
{
case 0x00:
s = "General";
break;
case 0x40:
s = "Audio CD";
break;
default:
s = "Unknown";
}
lcd_putsf(0, line++, "Category: 0x%02x (%s)", category, s);
x = (control >> 16) & 1;
generation = x;
if(((category & 0x70) == 0x10) ||
((category & 0x70) == 0x40) ||
((category & 0x78) == 0x38))
{
generation = !generation;
}
lcd_putsf(0, line++, "Generation: %d (%s)",
x, generation?"Original":"No ind.");
x = (control >> 12) & 15;
lcd_putsf(0, line++, "Source: %d", x);
x = (control >> 8) & 15;
switch(x)
{
case 0:
s = "Unspecified";
break;
case 8:
s = "A (Left)";
break;
case 4:
s = "B (Right)";
break;
default:
s = "";
break;
}
lcd_putsf(0, line++, "Channel: %d (%s)", x, s);
x = (control >> 4) & 15;
switch(x)
{
case 0:
s = "44.1kHz";
break;
case 0x4:
s = "48kHz";
break;
case 0xc:
s = "32kHz";
break;
}
lcd_putsf(0, line++, "Frequency: %d (%s)", x, s);
x = (control >> 2) & 3;
lcd_putsf(0, line++, "Clock accuracy: %d", x);
line++;
#if (CONFIG_PLATFORM & PLATFORM_NATIVE)
lcd_putsf(0, line++, "Measured freq: %ldHz",
spdif_measure_frequency());
#endif
lcd_update();
if (action_userabort(HZ/10))
break;
}
spdif_set_output_source(spdif_source IF_SPDIF_POWER_(, spdif_src_on));
#ifdef HAVE_SPDIF_POWER
spdif_power_enable(global_settings.spdif_enable);
#endif
lcd_setfont(FONT_UI);
return false;
}
#endif /* CPU_COLDFIRE */
#if (CONFIG_RTC == RTC_PCF50605) && (CONFIG_PLATFORM & PLATFORM_NATIVE)
static bool dbg_pcf(void)
{
int line;
#ifdef HAVE_LCD_BITMAP
lcd_setfont(FONT_SYSFIXED);
#endif
lcd_clear_display();
while(1)
{
line = 0;
lcd_putsf(0, line++, "DCDC1: %02x", pcf50605_read(0x1b));
lcd_putsf(0, line++, "DCDC2: %02x", pcf50605_read(0x1c));
lcd_putsf(0, line++, "DCDC3: %02x", pcf50605_read(0x1d));
lcd_putsf(0, line++, "DCDC4: %02x", pcf50605_read(0x1e));
lcd_putsf(0, line++, "DCDEC1: %02x", pcf50605_read(0x1f));
lcd_putsf(0, line++, "DCDEC2: %02x", pcf50605_read(0x20));
lcd_putsf(0, line++, "DCUDC1: %02x", pcf50605_read(0x21));
lcd_putsf(0, line++, "DCUDC2: %02x", pcf50605_read(0x22));
lcd_putsf(0, line++, "IOREGC: %02x", pcf50605_read(0x23));
lcd_putsf(0, line++, "D1REGC: %02x", pcf50605_read(0x24));
lcd_putsf(0, line++, "D2REGC: %02x", pcf50605_read(0x25));
lcd_putsf(0, line++, "D3REGC: %02x", pcf50605_read(0x26));
lcd_putsf(0, line++, "LPREG1: %02x", pcf50605_read(0x27));
lcd_update();
if (action_userabort(HZ/10))
{
lcd_setfont(FONT_UI);
return false;
}
}
lcd_setfont(FONT_UI);
return false;
}
#endif
#ifdef HAVE_ADJUSTABLE_CPU_FREQ
static bool dbg_cpufreq(void)
{
int line;
int button;
#ifdef HAVE_LCD_BITMAP
lcd_setfont(FONT_SYSFIXED);
#endif
lcd_clear_display();
while(1)
{
line = 0;
lcd_putsf(0, line++, "Frequency: %ld", FREQ);
lcd_putsf(0, line++, "boost_counter: %d", get_cpu_boost_counter());
lcd_update();
button = get_action(CONTEXT_STD,HZ/10);
switch(button)
{
case ACTION_STD_PREV:
cpu_boost(true);
break;
case ACTION_STD_NEXT:
cpu_boost(false);
break;
case ACTION_STD_OK:
while (get_cpu_boost_counter() > 0)
cpu_boost(false);
set_cpu_frequency(CPUFREQ_DEFAULT);
break;
case ACTION_STD_CANCEL:
lcd_setfont(FONT_UI);
return false;
}
}
lcd_setfont(FONT_UI);
return false;
}
#endif /* HAVE_ADJUSTABLE_CPU_FREQ */
#if defined(HAVE_TSC2100) && (CONFIG_PLATFORM & PLATFORM_NATIVE)
#include "tsc2100.h"
static const char* tsc2100_debug_getname(int selected_item, void * data,
char *buffer, size_t buffer_len)
{
int *page = (int*)data;
bool reserved = false;
switch (*page)
{
case 0:
if ((selected_item > 0x0a) ||
(selected_item == 0x04) ||
(selected_item == 0x08))
reserved = true;
break;
case 1:
if ((selected_item > 0x05) ||
(selected_item == 0x02))
reserved = true;
break;
case 2:
if (selected_item > 0x1e)
reserved = true;
break;
}
if (reserved)
snprintf(buffer, buffer_len, "%02x: RSVD", selected_item);
else
snprintf(buffer, buffer_len, "%02x: %04x", selected_item,
tsc2100_readreg(*page, selected_item)&0xffff);
return buffer;
}
static int tsc2100debug_action_callback(int action, struct gui_synclist *lists)
{
int *page = (int*)lists->data;
if (action == ACTION_STD_OK)
{
*page = (*page+1)%3;
snprintf(lists->title, 32,
"tsc2100 registers - Page %d", *page);
return ACTION_REDRAW;
}
return action;
}
static bool tsc2100_debug(void)
{
int page = 0;
char title[32] = "tsc2100 registers - Page 0";
struct simplelist_info info;
simplelist_info_init(&info, title, 32, &page);
info.timeout = HZ/100;
info.get_name = tsc2100_debug_getname;
info.action_callback= tsc2100debug_action_callback;
return simplelist_show_list(&info);
}
#endif
#if (CONFIG_BATTERY_MEASURE != 0) && defined(HAVE_LCD_BITMAP) && !defined(SIMULATOR)
/*
* view_battery() shows a automatically scaled graph of the battery voltage
* over time. Usable for estimating battery life / charging rate.
* The power_history array is updated in power_thread of powermgmt.c.
*/
#define BAT_LAST_VAL MIN(LCD_WIDTH, POWER_HISTORY_LEN)
#define BAT_TSPACE 20
#define BAT_YSPACE (LCD_HEIGHT - BAT_TSPACE)
static bool view_battery(void)
{
int view = 0;
int i, x, y, z, y1, y2, grid, graph;
unsigned short maxv, minv;
lcd_setfont(FONT_SYSFIXED);
while(1)
{
lcd_clear_display();
switch (view) {
case 0: /* voltage history graph */
/* Find maximum and minimum voltage for scaling */
minv = power_history[0];
maxv = minv + 1;
for (i = 1; i < BAT_LAST_VAL && power_history[i]; i++) {
if (power_history[i] > maxv)
maxv = power_history[i];
if (power_history[i] < minv)
minv = power_history[i];
}
/* print header */
#if (CONFIG_BATTERY_MEASURE & VOLTAGE_MEASURE)
/* adjust grid scale */
if ((maxv - minv) > 50)
grid = 50;
else
grid = 5;
lcd_putsf(0, 0, "battery %d.%03dV", power_history[0] / 1000,
power_history[0] % 1000);
lcd_putsf(0, 1, "%d.%03d-%d.%03dV (%2dmV)",
minv / 1000, minv % 1000, maxv / 1000, maxv % 1000,
grid);
#elif (CONFIG_BATTERY_MEASURE & PERCENTAGE_MEASURE)
/* adjust grid scale */
if ((maxv - minv) > 10)
grid = 10;
else
grid = 1;
lcd_putsf(0, 0, "battery %d%%", power_history[0]);
lcd_putsf(0, 1, "%d%%-%d%% (%d %%)", minv, maxv, grid);
#endif
i = 1;
while ((y = (minv - (minv % grid)+i*grid)) < maxv)
{
graph = ((y-minv)*BAT_YSPACE)/(maxv-minv);
graph = LCD_HEIGHT-1 - graph;
/* draw dotted horizontal grid line */
for (x=0; x<LCD_WIDTH;x=x+2)
lcd_drawpixel(x,graph);
i++;
}
x = 0;
/* draw plot of power history
* skip empty entries
*/
for (i = BAT_LAST_VAL - 1; i > 0; i--)
{
if (power_history[i] && power_history[i-1])
{
y1 = (power_history[i] - minv) * BAT_YSPACE /
(maxv - minv);
y1 = MIN(MAX(LCD_HEIGHT-1 - y1, BAT_TSPACE),
LCD_HEIGHT-1);
y2 = (power_history[i-1] - minv) * BAT_YSPACE /
(maxv - minv);
y2 = MIN(MAX(LCD_HEIGHT-1 - y2, BAT_TSPACE),
LCD_HEIGHT-1);
lcd_set_drawmode(DRMODE_SOLID);
/* make line thicker */
lcd_drawline(((x*LCD_WIDTH)/(BAT_LAST_VAL)),
y1,
(((x+1)*LCD_WIDTH)/(BAT_LAST_VAL)),
y2);
lcd_drawline(((x*LCD_WIDTH)/(BAT_LAST_VAL))+1,
y1+1,
(((x+1)*LCD_WIDTH)/(BAT_LAST_VAL))+1,
y2+1);
x++;
}
}
break;
case 1: /* status: */
#if CONFIG_CHARGING >= CHARGING_MONITOR
lcd_putsf(0, 0, "Pwr status: %s",
charging_state() ? "charging" : "discharging");
#else
lcd_puts(0, 0, "Power status: unknown");
#endif
battery_read_info(&y, &z);
if (y > 0)
lcd_putsf(0, 1, "Battery: %d.%03d V (%d %%)", y / 1000, y % 1000, z);
else if (z > 0)
lcd_putsf(0, 1, "Battery: %d %%", z);
#ifdef ADC_EXT_POWER
y = (adc_read(ADC_EXT_POWER) * EXT_SCALE_FACTOR) / 1000;
lcd_putsf(0, 2, "External: %d.%03d V", y / 1000, y % 1000);
#endif
#if CONFIG_CHARGING
#if defined ARCHOS_RECORDER
lcd_putsf(0, 3, "Chgr: %s %s",
charger_inserted() ? "present" : "absent",
charger_enabled() ? "on" : "off");
lcd_putsf(0, 5, "short delta: %d", short_delta);
lcd_putsf(0, 6, "long delta: %d", long_delta);
lcd_puts(0, 7, power_message);
lcd_putsf(0, 8, "USB Inserted: %s",
usb_inserted() ? "yes" : "no");
#elif defined IPOD_NANO || defined IPOD_VIDEO
int usb_pwr = (GPIOL_INPUT_VAL & 0x10)?true:false;
int ext_pwr = (GPIOL_INPUT_VAL & 0x08)?false:true;
int dock = (GPIOA_INPUT_VAL & 0x10)?true:false;
int charging = (GPIOB_INPUT_VAL & 0x01)?false:true;
int headphone= (GPIOA_INPUT_VAL & 0x80)?true:false;
lcd_putsf(0, 3, "USB pwr: %s",
usb_pwr ? "present" : "absent");
lcd_putsf(0, 4, "EXT pwr: %s",
ext_pwr ? "present" : "absent");
lcd_putsf(0, 5, "Battery: %s",
charging ? "charging" : (usb_pwr||ext_pwr) ? "charged" : "discharging");
lcd_putsf(0, 6, "Dock mode: %s",
dock ? "enabled" : "disabled");
lcd_putsf(0, 7, "Headphone: %s",
headphone ? "connected" : "disconnected");
#ifdef IPOD_VIDEO
if(probed_ramsize == 64)
x = (adc_read(ADC_4066_ISTAT) * 2400) / (1024 * 2);
else
#endif
x = (adc_read(ADC_4066_ISTAT) * 2400) / (1024 * 3);
lcd_putsf(0, 8, "Ibat: %d mA", x);
lcd_putsf(0, 9, "Vbat * Ibat: %d mW", x * y / 1000);
#elif defined TOSHIBA_GIGABEAT_S
int line = 3;
unsigned int st;
static const unsigned char * const chrgstate_strings[] =
{
"Disabled",
"Error",
"Discharging",
"Precharge",
"Constant Voltage",
"Constant Current",
"<unknown>",
};
lcd_putsf(0, line++, "Charger: %s",
charger_inserted() ? "present" : "absent");
st = power_input_status() &
(POWER_INPUT_CHARGER | POWER_INPUT_BATTERY);
lcd_putsf(0, line++, "%s%s",
(st & POWER_INPUT_MAIN_CHARGER) ? " Main" : "",
(st & POWER_INPUT_USB_CHARGER) ? " USB" : "");
y = ARRAYLEN(chrgstate_strings) - 1;
switch (charge_state)
{
case CHARGE_STATE_DISABLED: y--;
case CHARGE_STATE_ERROR: y--;
case DISCHARGING: y--;
case TRICKLE: y--;
case TOPOFF: y--;
case CHARGING: y--;
default:;
}
lcd_putsf(0, line++, "State: %s", chrgstate_strings[y]);
lcd_putsf(0, line++, "Battery Switch: %s",
(st & POWER_INPUT_BATTERY) ? "On" : "Off");
y = chrgraw_adc_voltage();
lcd_putsf(0, line++, "CHRGRAW: %d.%03d V",
y / 1000, y % 1000);
y = application_supply_adc_voltage();
lcd_putsf(0, line++, "BP : %d.%03d V",
y / 1000, y % 1000);
y = battery_adc_charge_current();
if (y < 0) x = '-', y = -y;
else x = ' ';
lcd_putsf(0, line++, "CHRGISN:%c%d mA", x, y);
y = cccv_regulator_dissipation();
lcd_putsf(0, line++, "P CCCV : %d mW", y);
y = battery_charge_current();
if (y < 0) x = '-', y = -y;
else x = ' ';
lcd_putsf(0, line++, "I Charge:%c%d mA", x, y);
y = battery_adc_temp();
if (y != INT_MIN) {
lcd_putsf(0, line++, "T Battery: %dC (%dF)", y,
(9*y + 160) / 5);
} else {
/* Conversion disabled */
lcd_puts(0, line++, "T Battery: ?");
}
#elif defined(HAVE_AS3514) && defined(CONFIG_CHARGING)
static const char * const chrgstate_strings[] =
{
[CHARGE_STATE_DISABLED - CHARGE_STATE_DISABLED]= "Disabled",
[CHARGE_STATE_ERROR - CHARGE_STATE_DISABLED] = "Error",
[DISCHARGING - CHARGE_STATE_DISABLED] = "Discharging",
[CHARGING - CHARGE_STATE_DISABLED] = "Charging",
};
const char *str = NULL;
lcd_putsf(0, 3, "Charger: %s",
charger_inserted() ? "present" : "absent");
y = charge_state - CHARGE_STATE_DISABLED;
if ((unsigned)y < ARRAYLEN(chrgstate_strings))
str = chrgstate_strings[y];
lcd_putsf(0, 4, "State: %s",
str ? str : "<unknown>");
lcd_putsf(0, 5, "CHARGER: %02X", ascodec_read_charger());
#elif defined(IPOD_NANO2G)
y = pmu_read_battery_voltage();
lcd_putsf(17, 1, "RAW: %d.%03d V", y / 1000, y % 1000);
y = pmu_read_battery_current();
lcd_putsf(0, 2, "Battery current: %d mA", y);
lcd_putsf(0, 3, "PWRCON: %08x %08x", PWRCON, PWRCONEXT);
lcd_putsf(0, 4, "CLKCON: %08x %03x %03x", CLKCON, CLKCON2, CLKCON3);
lcd_putsf(0, 5, "PLL: %06x %06x %06x", PLL0PMS, PLL1PMS, PLL2PMS);
x = pmu_read(0x1b) & 0xf;
y = pmu_read(0x1a) * 25 + 625;
lcd_putsf(0, 6, "AUTO: %x / %d mV", x, y);
x = pmu_read(0x1f) & 0xf;
y = pmu_read(0x1e) * 25 + 625;
lcd_putsf(0, 7, "DOWN1: %x / %d mV", x, y);
x = pmu_read(0x23) & 0xf;
y = pmu_read(0x22) * 25 + 625;
lcd_putsf(0, 8, "DOWN2: %x / %d mV", x, y);
x = pmu_read(0x27) & 0xf;
y = pmu_read(0x26) * 100 + 900;
lcd_putsf(0, 9, "MEMLDO: %x / %d mV", x, y);
for (i = 0; i < 6; i++)
{
x = pmu_read(0x2e + (i << 1)) & 0xf;
y = pmu_read(0x2d + (i << 1)) * 100 + 900;
lcd_putsf(0, 10 + i, "LDO%d: %x / %d mV", i + 1, x, y);
}
#else
lcd_putsf(0, 3, "Charger: %s",
charger_inserted() ? "present" : "absent");
#endif /* target type */
#endif /* CONFIG_CHARGING */
break;
case 2: /* voltage deltas: */
#if (CONFIG_BATTERY_MEASURE & VOLTAGE_MEASURE)
lcd_puts(0, 0, "Voltage deltas:");
for (i = 0; i < POWER_HISTORY_LEN-1; i++) {
y = power_history[i] - power_history[i+1];
lcd_putsf(0, i+1, "-%d min: %c%d.%03d V", i,
(y < 0) ? '-' : ' ', ((y < 0) ? y * -1 : y) / 1000,
((y < 0) ? y * -1 : y ) % 1000);
}
#elif (CONFIG_BATTERY_MEASURE & PERCENTAGE_MEASURE)
lcd_puts(0, 0, "Percentage deltas:");
for (i = 0; i < POWER_HISTORY_LEN-1; i++) {
y = power_history[i] - power_history[i+1];
lcd_putsf(0, i+1, "-%d min: %c%d%%", i,
(y < 0) ? '-' : ' ', ((y < 0) ? y * -1 : y));
}
#endif
break;
case 3: /* remaining time estimation: */
#ifdef ARCHOS_RECORDER
lcd_putsf(0, 0, "charge_state: %d", charge_state);
lcd_putsf(0, 1, "Cycle time: %d m", powermgmt_last_cycle_startstop_min);
lcd_putsf(0, 2, "Lvl@cyc st: %d%%", powermgmt_last_cycle_level);
lcd_putsf(0, 3, "P=%2d I=%2d", pid_p, pid_i);
lcd_putsf(0, 4, "Trickle sec: %d/60", trickle_sec);
#endif /* ARCHOS_RECORDER */
#if (CONFIG_BATTERY_MEASURE & VOLTAGE_MEASURE)
lcd_putsf(0, 5, "Last PwrHist: %d.%03dV",
power_history[0] / 1000,
power_history[0] % 1000);
#endif
lcd_putsf(0, 6, "battery level: %d%%", battery_level());
int time_left = battery_time();
if (time_left >= 0)
lcd_putsf(0, 7, "Est. remain: %d m", time_left);
else
lcd_puts(0, 7, "Estimation n/a");
break;
}
lcd_update();
switch(get_action(CONTEXT_STD,HZ/2))
{
case ACTION_STD_PREV:
if (view)
view--;
break;
case ACTION_STD_NEXT:
if (view < 3)
view++;
break;
case ACTION_STD_CANCEL:
lcd_setfont(FONT_UI);
return false;
}
}
lcd_setfont(FONT_UI);
return false;
}
#endif /* (CONFIG_BATTERY_MEASURE != 0) && HAVE_LCD_BITMAP */
#if (CONFIG_PLATFORM & PLATFORM_NATIVE)
#if (CONFIG_STORAGE & STORAGE_MMC) || (CONFIG_STORAGE & STORAGE_SD)
#if (CONFIG_STORAGE & STORAGE_MMC)
#define CARDTYPE "MMC"
#elif (CONFIG_STORAGE & STORAGE_SD)
#define CARDTYPE "microSD"
#endif
static int disk_callback(int btn, struct gui_synclist *lists)
{
tCardInfo *card;
int *cardnum = (int*)lists->data;
unsigned char card_name[6];
unsigned char pbuf[32];
char *title = lists->title;
static const unsigned char i_vmin[] = { 0, 1, 5, 10, 25, 35, 60, 100 };
static const unsigned char i_vmax[] = { 1, 5, 10, 25, 35, 45, 80, 200 };
static const unsigned char * const kbit_units[] = { "kBit/s", "MBit/s", "GBit/s" };
static const unsigned char * const nsec_units[] = { "ns", "µs", "ms" };
#if (CONFIG_STORAGE & STORAGE_MMC)
static const char * const mmc_spec_vers[] = { "1.0-1.2", "1.4", "2.0-2.2",
"3.1-3.31", "4.0" };
#endif
if ((btn == ACTION_STD_OK) || (btn == SYS_FS_CHANGED) || (btn == ACTION_REDRAW))
{
#ifdef HAVE_HOTSWAP
if (btn == ACTION_STD_OK)
{
*cardnum ^= 0x1; /* change cards */
}
#endif
simplelist_set_line_count(0);
card = card_get_info(*cardnum);
if (card->initialized > 0)
{
unsigned i;
for (i=0; i<sizeof(card_name); i++)
{
card_name[i] = card_extract_bits(card->cid, (103-8*i), 8);
}
strlcpy(card_name, card_name, sizeof(card_name));
simplelist_addline(SIMPLELIST_ADD_LINE,
"%s Rev %d.%d", card_name,
(int) card_extract_bits(card->cid, 63, 4),
(int) card_extract_bits(card->cid, 59, 4));
simplelist_addline(SIMPLELIST_ADD_LINE,
"Prod: %d/%d",
#if (CONFIG_STORAGE & STORAGE_SD)
(int) card_extract_bits(card->cid, 11, 4),
(int) card_extract_bits(card->cid, 19, 8) + 2000
#elif (CONFIG_STORAGE & STORAGE_MMC)
(int) card_extract_bits(card->cid, 15, 4),
(int) card_extract_bits(card->cid, 11, 4) + 1997
#endif
);
simplelist_addline(SIMPLELIST_ADD_LINE,
#if (CONFIG_STORAGE & STORAGE_SD)
"Ser#: 0x%08lx",
card_extract_bits(card->cid, 55, 32)
#elif (CONFIG_STORAGE & STORAGE_MMC)
"Ser#: 0x%04lx",
card_extract_bits(card->cid, 47, 16)
#endif
);
simplelist_addline(SIMPLELIST_ADD_LINE, "M=%02x, "
#if (CONFIG_STORAGE & STORAGE_SD)
"O=%c%c",
(int) card_extract_bits(card->cid, 127, 8),
card_extract_bits(card->cid, 119, 8),
card_extract_bits(card->cid, 111, 8)
#elif (CONFIG_STORAGE & STORAGE_MMC)
"O=%04x",
(int) card_extract_bits(card->cid, 127, 8),
(int) card_extract_bits(card->cid, 119, 16)
#endif
);
#if (CONFIG_STORAGE & STORAGE_MMC)
int temp = card_extract_bits(card->csd, 125, 4);
simplelist_addline(SIMPLELIST_ADD_LINE,
"MMC v%s", temp < 5 ?
mmc_spec_vers[temp] : "?.?");
#endif
simplelist_addline(SIMPLELIST_ADD_LINE,
"Blocks: 0x%08lx", card->numblocks);
output_dyn_value(pbuf, sizeof pbuf, card->speed / 1000,
kbit_units, false);
simplelist_addline(SIMPLELIST_ADD_LINE,
"Speed: %s", pbuf);
output_dyn_value(pbuf, sizeof pbuf, card->taac,
nsec_units, false);
simplelist_addline(SIMPLELIST_ADD_LINE,
"Taac: %s", pbuf);
simplelist_addline(SIMPLELIST_ADD_LINE,
"Nsac: %d clk", card->nsac);
simplelist_addline(SIMPLELIST_ADD_LINE,
"R2W: *%d", card->r2w_factor);
#if (CONFIG_STORAGE & STORAGE_SD)
int csd_structure = card_extract_bits(card->csd, 127, 2);
if (csd_structure == 0) /* CSD version 1.0 */
#endif
{
simplelist_addline(SIMPLELIST_ADD_LINE,
"IRmax: %d..%d mA",
i_vmin[card_extract_bits(card->csd, 61, 3)],
i_vmax[card_extract_bits(card->csd, 58, 3)]);
simplelist_addline(SIMPLELIST_ADD_LINE,
"IWmax: %d..%d mA",
i_vmin[card_extract_bits(card->csd, 55, 3)],
i_vmax[card_extract_bits(card->csd, 52, 3)]);
}
}
else if (card->initialized == 0)
{
simplelist_addline(SIMPLELIST_ADD_LINE, "Not Found!");
}
#if (CONFIG_STORAGE & STORAGE_SD)
else /* card->initialized < 0 */
{
simplelist_addline(SIMPLELIST_ADD_LINE, "Init Error! (%d)", card->initialized);
}
#endif
snprintf(title, 16, "[" CARDTYPE " %d]", *cardnum);
gui_synclist_set_title(lists, title, Icon_NOICON);
gui_synclist_set_nb_items(lists, simplelist_get_line_count());
gui_synclist_select_item(lists, 0);
btn = ACTION_REDRAW;
}
return btn;
}
#elif (CONFIG_STORAGE & STORAGE_ATA)
static int disk_callback(int btn, struct gui_synclist *lists)
{
(void)lists;
int i;
char buf[128];
unsigned short* identify_info = ata_get_identify();
bool timing_info_present = false;
(void)btn;
simplelist_set_line_count(0);
for (i=0; i < 20; i++)
((unsigned short*)buf)[i]=htobe16(identify_info[i+27]);
buf[40]=0;
/* kill trailing space */
for (i=39; i && buf[i]==' '; i--)
buf[i] = 0;
simplelist_addline(SIMPLELIST_ADD_LINE, "Model: %s", buf);
for (i=0; i < 4; i++)
((unsigned short*)buf)[i]=htobe16(identify_info[i+23]);
buf[8]=0;
simplelist_addline(SIMPLELIST_ADD_LINE,
"Firmware: %s", buf);
snprintf(buf, sizeof buf, "%ld MB",
((unsigned long)identify_info[61] << 16 |
(unsigned long)identify_info[60]) / 2048 );
simplelist_addline(SIMPLELIST_ADD_LINE,
"Size: %s", buf);
unsigned long free;
fat_size( IF_MV2(0,) NULL, &free );
simplelist_addline(SIMPLELIST_ADD_LINE,
"Free: %ld MB", free / 1024);
simplelist_addline(SIMPLELIST_ADD_LINE,
"Spinup time: %d ms", storage_spinup_time() * (1000/HZ));
i = identify_info[83] & (1<<3);
simplelist_addline(SIMPLELIST_ADD_LINE,
"Power mgmt: %s", i ? "enabled" : "unsupported");
i = identify_info[83] & (1<<9);
simplelist_addline(SIMPLELIST_ADD_LINE,
"Noise mgmt: %s", i ? "enabled" : "unsupported");
i = identify_info[82] & (1<<6);
simplelist_addline(SIMPLELIST_ADD_LINE,
"Read-ahead: %s", i ? "enabled" : "unsupported");
timing_info_present = identify_info[53] & (1<<1);
if(timing_info_present) {
char pio3[2], pio4[2];pio3[1] = 0;
pio4[1] = 0;
pio3[0] = (identify_info[64] & (1<<0)) ? '3' : 0;
pio4[0] = (identify_info[64] & (1<<1)) ? '4' : 0;
simplelist_addline(SIMPLELIST_ADD_LINE,
"PIO modes: 0 1 2 %s %s", pio3, pio4);
}
else {
simplelist_addline(SIMPLELIST_ADD_LINE,
"No PIO mode info");
}
timing_info_present = identify_info[53] & (1<<1);
if(timing_info_present) {
simplelist_addline(SIMPLELIST_ADD_LINE,
"Cycle times %dns/%dns",
identify_info[67],
identify_info[68] );
} else {
simplelist_addline(SIMPLELIST_ADD_LINE,
"No timing info");
}
int sector_size = 512;
if((identify_info[106] & 0xe000) == 0x6000)
sector_size *= BIT_N(identify_info[106] & 0x000f);
simplelist_addline(SIMPLELIST_ADD_LINE,
"Physical sector size: %d", sector_size);
#ifdef HAVE_ATA_DMA
if (identify_info[63] & (1<<0)) {
char mdma0[2], mdma1[2], mdma2[2];
mdma0[1] = mdma1[1] = mdma2[1] = 0;
mdma0[0] = (identify_info[63] & (1<<0)) ? '0' : 0;
mdma1[0] = (identify_info[63] & (1<<1)) ? '1' : 0;
mdma2[0] = (identify_info[63] & (1<<2)) ? '2' : 0;
simplelist_addline(SIMPLELIST_ADD_LINE,
"MDMA modes: %s %s %s", mdma0, mdma1, mdma2);
simplelist_addline(SIMPLELIST_ADD_LINE,
"MDMA Cycle times %dns/%dns",
identify_info[65],
identify_info[66] );
}
else {
simplelist_addline(SIMPLELIST_ADD_LINE,
"No MDMA mode info");
}
if (identify_info[53] & (1<<2)) {
char udma0[2], udma1[2], udma2[2], udma3[2], udma4[2], udma5[2], udma6[2];
udma0[1] = udma1[1] = udma2[1] = udma3[1] = udma4[1] = udma5[1] = udma6[1] = 0;
udma0[0] = (identify_info[88] & (1<<0)) ? '0' : 0;
udma1[0] = (identify_info[88] & (1<<1)) ? '1' : 0;
udma2[0] = (identify_info[88] & (1<<2)) ? '2' : 0;
udma3[0] = (identify_info[88] & (1<<3)) ? '3' : 0;
udma4[0] = (identify_info[88] & (1<<4)) ? '4' : 0;
udma5[0] = (identify_info[88] & (1<<5)) ? '5' : 0;
udma6[0] = (identify_info[88] & (1<<6)) ? '6' : 0;
simplelist_addline(SIMPLELIST_ADD_LINE,
"UDMA modes: %s %s %s %s %s %s %s", udma0, udma1, udma2,
udma3, udma4, udma5, udma6);
}
else {
simplelist_addline(SIMPLELIST_ADD_LINE,
"No UDMA mode info");
}
#endif /* HAVE_ATA_DMA */
timing_info_present = identify_info[53] & (1<<1);
if(timing_info_present) {
i = identify_info[49] & (1<<11);
simplelist_addline(SIMPLELIST_ADD_LINE,
"IORDY support: %s", i ? "yes" : "no");
i = identify_info[49] & (1<<10);
simplelist_addline(SIMPLELIST_ADD_LINE,
"IORDY disable: %s", i ? "yes" : "no");
} else {
simplelist_addline(SIMPLELIST_ADD_LINE,
"No timing info");
}
simplelist_addline(SIMPLELIST_ADD_LINE,
"Cluster size: %d bytes", fat_get_cluster_size(IF_MV(0)));
#ifdef HAVE_ATA_DMA
i = ata_get_dma_mode();
if (i == 0) {
simplelist_addline(SIMPLELIST_ADD_LINE,
"DMA not enabled");
} else {
simplelist_addline(SIMPLELIST_ADD_LINE,
"DMA mode: %s %c",
(i & 0x40) ? "UDMA" : "MDMA",
'0' + (i & 7));
}
#endif /* HAVE_ATA_DMA */
return btn;
}
#else /* No SD, MMC or ATA */
static int disk_callback(int btn, struct gui_synclist *lists)
{
(void)lists;
struct storage_info info;
storage_get_info(0,&info);
simplelist_addline(SIMPLELIST_ADD_LINE, "Vendor: %s", info.vendor);
simplelist_addline(SIMPLELIST_ADD_LINE, "Model: %s", info.product);
simplelist_addline(SIMPLELIST_ADD_LINE, "Firmware: %s", info.revision);
simplelist_addline(SIMPLELIST_ADD_LINE,
"Size: %ld MB", info.num_sectors*(info.sector_size/512)/2024);
unsigned long free;
fat_size( IF_MV2(0,) NULL, &free );
simplelist_addline(SIMPLELIST_ADD_LINE,
"Free: %ld MB", free / 1024);
simplelist_addline(SIMPLELIST_ADD_LINE,
"Cluster size: %d bytes", fat_get_cluster_size(IF_MV(0)));
return btn;
}
#endif
#if (CONFIG_STORAGE & STORAGE_ATA)
static bool dbg_identify_info(void)
{
int fd = creat("/identify_info.bin", 0666);
if(fd >= 0)
{
#ifdef ROCKBOX_LITTLE_ENDIAN
ecwrite(fd, ata_get_identify(), SECTOR_SIZE/2, "s", true);
#else
write(fd, ata_get_identify(), SECTOR_SIZE);
#endif
close(fd);
}
return false;
}
#endif
static bool dbg_disk_info(void)
{
struct simplelist_info info;
simplelist_info_init(&info, "Disk Info", 1, NULL);
#if (CONFIG_STORAGE & STORAGE_MMC) || (CONFIG_STORAGE & STORAGE_SD)
char title[16];
int card = 0;
info.callback_data = (void*)&card;
info.title = title;
#endif
info.action_callback = disk_callback;
info.hide_selection = true;
info.scroll_all = true;
return simplelist_show_list(&info);
}
#endif /* PLATFORM_NATIVE */
#ifdef HAVE_DIRCACHE
static int dircache_callback(int btn, struct gui_synclist *lists)
{
(void)lists;
simplelist_set_line_count(0);
simplelist_addline(SIMPLELIST_ADD_LINE, "Cache initialized: %s",
dircache_is_enabled() ? "Yes" : "No");
simplelist_addline(SIMPLELIST_ADD_LINE, "Cache size: %d B",
dircache_get_cache_size());
simplelist_addline(SIMPLELIST_ADD_LINE, "Last size: %d B",
global_status.dircache_size);
simplelist_addline(SIMPLELIST_ADD_LINE, "Limit: %d B",
DIRCACHE_LIMIT);
simplelist_addline(SIMPLELIST_ADD_LINE, "Reserve: %d/%d B",
dircache_get_reserve_used(), DIRCACHE_RESERVE);
simplelist_addline(SIMPLELIST_ADD_LINE, "Scanning took: %d s",
dircache_get_build_ticks() / HZ);
simplelist_addline(SIMPLELIST_ADD_LINE, "Entry count: %d",
dircache_get_entry_count());
return btn;
}
static bool dbg_dircache_info(void)
{
struct simplelist_info info;
simplelist_info_init(&info, "Dircache Info", 7, NULL);
info.action_callback = dircache_callback;
info.hide_selection = true;
info.scroll_all = true;
return simplelist_show_list(&info);
}
#endif /* HAVE_DIRCACHE */
#ifdef HAVE_TAGCACHE
static int database_callback(int btn, struct gui_synclist *lists)
{
(void)lists;
struct tagcache_stat *stat = tagcache_get_stat();
static bool synced = false;
simplelist_set_line_count(0);
simplelist_addline(SIMPLELIST_ADD_LINE, "Initialized: %s",
stat->initialized ? "Yes" : "No");
simplelist_addline(SIMPLELIST_ADD_LINE, "DB Ready: %s",
stat->ready ? "Yes" : "No");
simplelist_addline(SIMPLELIST_ADD_LINE, "RAM Cache: %s",
stat->ramcache ? "Yes" : "No");
simplelist_addline(SIMPLELIST_ADD_LINE, "RAM: %d/%d B",
stat->ramcache_used, stat->ramcache_allocated);
simplelist_addline(SIMPLELIST_ADD_LINE, "Progress: %d%% (%d entries)",
stat->progress, stat->processed_entries);
simplelist_addline(SIMPLELIST_ADD_LINE, "Curfile: %s",
stat->curentry ? stat->curentry : "---");
simplelist_addline(SIMPLELIST_ADD_LINE, "Commit step: %d",
stat->commit_step);
simplelist_addline(SIMPLELIST_ADD_LINE, "Commit delayed: %s",
stat->commit_delayed ? "Yes" : "No");
simplelist_addline(SIMPLELIST_ADD_LINE, "Queue length: %d",
stat->queue_length);
if (synced)
{
synced = false;
tagcache_screensync_event();
}
if (!btn && stat->curentry)
{
synced = true;
return ACTION_REDRAW;
}
if (btn == ACTION_STD_CANCEL)
tagcache_screensync_enable(false);
return btn;
}
static bool dbg_tagcache_info(void)
{
struct simplelist_info info;
simplelist_info_init(&info, "Database Info", 8, NULL);
info.action_callback = database_callback;
info.hide_selection = true;
info.scroll_all = true;
/* Don't do nonblock here, must give enough processing time
for tagcache thread. */
/* info.timeout = TIMEOUT_NOBLOCK; */
info.timeout = 1;
tagcache_screensync_enable(true);
return simplelist_show_list(&info);
}
#endif
#if CONFIG_CPU == SH7034
static bool dbg_save_roms(void)
{
int fd;
int oldmode = system_memory_guard(MEMGUARD_NONE);
fd = creat("/internal_rom_0000-FFFF.bin", 0666);
if(fd >= 0)
{
write(fd, (void *)0, 0x10000);
close(fd);
}
fd = creat("/internal_rom_2000000-203FFFF.bin", 0666);
if(fd >= 0)
{
write(fd, (void *)0x2000000, 0x40000);
close(fd);
}
system_memory_guard(oldmode);
return false;
}
#elif defined CPU_COLDFIRE
static bool dbg_save_roms(void)
{
int fd;
int oldmode = system_memory_guard(MEMGUARD_NONE);
#if defined(IRIVER_H100_SERIES)
fd = creat("/internal_rom_000000-1FFFFF.bin", 0666);
#elif defined(IRIVER_H300_SERIES)
fd = creat("/internal_rom_000000-3FFFFF.bin", 0666);
#elif defined(IAUDIO_X5) || defined(IAUDIO_M5) || defined(IAUDIO_M3)
fd = creat("/internal_rom_000000-3FFFFF.bin", 0666);
#elif defined(MPIO_HD200) || defined(MPIO_HD300)
fd = creat("/internal_rom_000000-1FFFFF.bin", 0666);
#endif
if(fd >= 0)
{
write(fd, (void *)0, FLASH_SIZE);
close(fd);
}
system_memory_guard(oldmode);
#ifdef HAVE_EEPROM
fd = creat("/internal_eeprom.bin", 0666);
if (fd >= 0)
{
int old_irq_level;
char buf[EEPROM_SIZE];
int err;
old_irq_level = disable_irq_save();
err = eeprom_24cxx_read(0, buf, sizeof buf);
restore_irq(old_irq_level);
if (err)
splashf(HZ*3, "Eeprom read failure (%d)", err);
else
{
write(fd, buf, sizeof buf);
}
close(fd);
}
#endif
return false;
}
#elif defined(CPU_PP) && !(CONFIG_STORAGE & STORAGE_SD)
static bool dbg_save_roms(void)
{
int fd = creat("/internal_rom_000000-0FFFFF.bin", 0666);
if(fd >= 0)
{
write(fd, (void *)0x20000000, FLASH_SIZE);
close(fd);
}
return false;
}
#elif CONFIG_CPU == IMX31L
bool __dbg_dvfs_dptc(void);
static bool dbg_save_roms(void)
{
int fd = creat("/flash_rom_A0000000-A01FFFFF.bin", 0666);
if (fd >= 0)
{
write(fd, (void*)0xa0000000, FLASH_SIZE);
close(fd);
}
return false;
}
#elif defined(CPU_TCC780X)
static bool dbg_save_roms(void)
{
int fd = creat("/eeprom_E0000000-E0001FFF.bin", 0666);
if (fd >= 0)
{
write(fd, (void*)0xe0000000, 0x2000);
close(fd);
}
return false;
}
#endif /* CPU */
#ifndef SIMULATOR
#if CONFIG_TUNER
#ifdef CONFIG_TUNER_MULTI
static int tuner_type = 0;
#define IF_TUNER_TYPE(type) if(tuner_type==type)
#else
#define IF_TUNER_TYPE(type)
#endif
static int radio_callback(int btn, struct gui_synclist *lists)
{
(void)lists;
if (btn == ACTION_STD_CANCEL)
return btn;
simplelist_set_line_count(1);
#if (CONFIG_TUNER & LV24020LP)
simplelist_addline(SIMPLELIST_ADD_LINE,
"CTRL_STAT: %02X", lv24020lp_get(LV24020LP_CTRL_STAT) );
simplelist_addline(SIMPLELIST_ADD_LINE,
"RADIO_STAT: %02X", lv24020lp_get(LV24020LP_REG_STAT) );
simplelist_addline(SIMPLELIST_ADD_LINE,
"MSS_FM: %d kHz", lv24020lp_get(LV24020LP_MSS_FM) );
simplelist_addline(SIMPLELIST_ADD_LINE,
"MSS_IF: %d Hz", lv24020lp_get(LV24020LP_MSS_IF) );
simplelist_addline(SIMPLELIST_ADD_LINE,
"MSS_SD: %d Hz", lv24020lp_get(LV24020LP_MSS_SD) );
simplelist_addline(SIMPLELIST_ADD_LINE,
"if_set: %d Hz", lv24020lp_get(LV24020LP_IF_SET) );
simplelist_addline(SIMPLELIST_ADD_LINE,
"sd_set: %d Hz", lv24020lp_get(LV24020LP_SD_SET) );
#endif /* LV24020LP */
#if (CONFIG_TUNER & S1A0903X01)
simplelist_addline(SIMPLELIST_ADD_LINE,
"Samsung regs: %08X", s1a0903x01_get(RADIO_ALL));
/* This one doesn't return dynamic data atm */
#endif /* S1A0903X01 */
#if (CONFIG_TUNER & TEA5767)
struct tea5767_dbg_info nfo;
tea5767_dbg_info(&nfo);
simplelist_addline(SIMPLELIST_ADD_LINE, "Philips regs:");
simplelist_addline(SIMPLELIST_ADD_LINE,
" Read: %02X %02X %02X %02X %02X",
(unsigned)nfo.read_regs[0], (unsigned)nfo.read_regs[1],
(unsigned)nfo.read_regs[2], (unsigned)nfo.read_regs[3],
(unsigned)nfo.read_regs[4]);
simplelist_addline(SIMPLELIST_ADD_LINE,
" Write: %02X %02X %02X %02X %02X",
(unsigned)nfo.write_regs[0], (unsigned)nfo.write_regs[1],
(unsigned)nfo.write_regs[2], (unsigned)nfo.write_regs[3],
(unsigned)nfo.write_regs[4]);
#endif /* TEA5767 */
#if (CONFIG_TUNER & SI4700)
IF_TUNER_TYPE(SI4700)
{
struct si4700_dbg_info nfo;
si4700_dbg_info(&nfo);
simplelist_addline(SIMPLELIST_ADD_LINE, "SI4700 regs:");
for (int i = 0; i < 16; i += 4) {
simplelist_addline(SIMPLELIST_ADD_LINE,"%02X: %04X %04X %04X %04X",
i, nfo.regs[i], nfo.regs[i+1], nfo.regs[i+2], nfo.regs[i+3]);
}
}
#endif /* SI4700 */
#if (CONFIG_TUNER & RDA5802)
IF_TUNER_TYPE(RDA5802)
{
struct rda5802_dbg_info nfo;
rda5802_dbg_info(&nfo);
simplelist_addline(SIMPLELIST_ADD_LINE, "RDA5802 regs:");
for (int i = 0; i < 16; i += 4) {
simplelist_addline(SIMPLELIST_ADD_LINE,"%02X: %04X %04X %04X %04X",
i, nfo.regs[i], nfo.regs[i+1], nfo.regs[i+2], nfo.regs[i+3]);
}
}
#endif /* RDA55802 */
#if (CONFIG_TUNER & STFM1000)
IF_TUNER_TYPE(STFM1000)
{
struct stfm1000_dbg_info nfo;
stfm1000_dbg_info(&nfo);
simplelist_addline(SIMPLELIST_ADD_LINE, "STFM1000 regs:");
simplelist_addline(SIMPLELIST_ADD_LINE,"chipid: 0x%x", nfo.chipid);
}
#endif /* STFM1000 */
#ifdef HAVE_RDS_CAP
simplelist_addline(SIMPLELIST_ADD_LINE, "PI:%04X PS:'%8s'",
rds_get_pi(), rds_get_ps());
simplelist_addline(SIMPLELIST_ADD_LINE, "RT:%s",
rds_get_rt());
time_t seconds = rds_get_ct();
struct tm* time = gmtime(&seconds);
simplelist_addline(SIMPLELIST_ADD_LINE,
"CT:%4d-%02d-%02d %02d:%02d",
time->tm_year + 1900, time->tm_mon + 1, time->tm_mday,
time->tm_hour, time->tm_min, time->tm_sec);
#endif
return ACTION_REDRAW;
}
static bool dbg_fm_radio(void)
{
struct simplelist_info info;
#ifdef CONFIG_TUNER_MULTI
tuner_type = tuner_detect_type();
#endif
info.scroll_all = true;
simplelist_info_init(&info, "FM Radio", 1, NULL);
simplelist_set_line_count(0);
simplelist_addline(SIMPLELIST_ADD_LINE, "HW detected: %s",
radio_hardware_present() ? "yes" : "no");
info.action_callback = radio_hardware_present()?radio_callback : NULL;
info.hide_selection = true;
return simplelist_show_list(&info);
}
#endif /* CONFIG_TUNER */
#endif /* !SIMULATOR */
#if defined(HAVE_LCD_BITMAP) && !defined(APPLICATION)
extern bool do_screendump_instead_of_usb;
static bool dbg_screendump(void)
{
do_screendump_instead_of_usb = !do_screendump_instead_of_usb;
splashf(HZ, "Screendump %sabled", do_screendump_instead_of_usb?"en":"dis");
return false;
}
#endif /* HAVE_LCD_BITMAP */
extern bool write_metadata_log;
static bool dbg_metadatalog(void)
{
write_metadata_log = !write_metadata_log;
splashf(HZ, "Metadata log %sabled", write_metadata_log ? "en" : "dis");
return false;
}
#if CONFIG_CPU == SH7034 || defined(CPU_COLDFIRE)
static bool dbg_set_memory_guard(void)
{
static const struct opt_items names[MAXMEMGUARD] = {
{ "None", -1 },
{ "Flash ROM writes", -1 },
{ "Zero area (all)", -1 }
};
int mode = system_memory_guard(MEMGUARD_KEEP);
set_option( "Catch mem accesses", &mode, INT, names, MAXMEMGUARD, NULL);
system_memory_guard(mode);
return false;
}
#endif /* CONFIG_CPU == SH7034 || defined(CPU_COLDFIRE) */
#if defined(HAVE_EEPROM) && !defined(HAVE_EEPROM_SETTINGS)
static bool dbg_write_eeprom(void)
{
int fd = open("/internal_eeprom.bin", O_RDONLY);
if (fd >= 0)
{
char buf[EEPROM_SIZE];
int rc = read(fd, buf, EEPROM_SIZE);
if(rc == EEPROM_SIZE)
{
int old_irq_level = disable_irq_save();
int err = eeprom_24cxx_write(0, buf, sizeof buf);
if (err)
splashf(HZ*3, "Eeprom write failure (%d)", err);
else
splash(HZ*3, "Eeprom written successfully");
restore_irq(old_irq_level);
}
else
{
splashf(HZ*3, "File read error (%d)",rc);
}
close(fd);
}
else
{
splash(HZ*3, "Failed to open 'internal_eeprom.bin'");
}
return false;
}
#endif /* defined(HAVE_EEPROM) && !defined(HAVE_EEPROM_SETTINGS) */
#ifdef CPU_BOOST_LOGGING
static bool cpu_boost_log(void)
{
int count = cpu_boost_log_getcount();
char *str = cpu_boost_log_getlog_first();
bool done;
lcd_setfont(FONT_SYSFIXED);
for (int i = 0; i < count ;)
{
lcd_clear_display();
for(int j=0; j<LCD_HEIGHT/SYSFONT_HEIGHT; j++,i++)
{
if (!str)
str = cpu_boost_log_getlog_next();
if (str)
{
if(strlen(str) > LCD_WIDTH/SYSFONT_WIDTH)
lcd_puts_scroll(0, j, str);
else
lcd_puts(0, j,str);
}
str = NULL;
}
lcd_update();
done = false;
while (!done)
{
switch(get_action(CONTEXT_STD,TIMEOUT_BLOCK))
{
case ACTION_STD_OK:
case ACTION_STD_PREV:
case ACTION_STD_NEXT:
done = true;
break;
case ACTION_STD_CANCEL:
i = count;
done = true;
break;
}
}
}
lcd_stop_scroll();
get_action(CONTEXT_STD,TIMEOUT_BLOCK);
lcd_setfont(FONT_UI);
return false;
}
#endif
#if (defined(HAVE_WHEEL_ACCELERATION) && (CONFIG_KEYPAD==IPOD_4G_PAD) \
&& !defined(IPOD_MINI) && !defined(SIMULATOR))
extern bool wheel_is_touched;
extern int old_wheel_value;
extern int new_wheel_value;
extern int wheel_delta;
extern unsigned int accumulated_wheel_delta;
extern unsigned int wheel_velocity;
static bool dbg_scrollwheel(void)
{
lcd_setfont(FONT_SYSFIXED);
while (1)
{
if (action_userabort(HZ/10))
break;
lcd_clear_display();
/* show internal variables of scrollwheel driver */
lcd_putsf(0, 0, "wheel touched: %s", (wheel_is_touched) ? "true" : "false");
lcd_putsf(0, 1, "new position: %2d", new_wheel_value);
lcd_putsf(0, 2, "old position: %2d", old_wheel_value);
lcd_putsf(0, 3, "wheel delta: %2d", wheel_delta);
lcd_putsf(0, 4, "accumulated delta: %2d", accumulated_wheel_delta);
lcd_putsf(0, 5, "velo [deg/s]: %4d", (int)wheel_velocity);
/* show effective accelerated scrollspeed */
lcd_putsf(0, 6, "accel. speed: %4d",
button_apply_acceleration((1<<31)|(1<<24)|wheel_velocity) );
lcd_update();
}
lcd_setfont(FONT_UI);
return false;
}
#endif
#ifdef HAVE_USBSTACK
#if defined(ROCKBOX_HAS_LOGF) && defined(USB_ENABLE_SERIAL)
static bool toggle_usb_serial(void)
{
bool enabled = !usb_core_driver_enabled(USB_DRIVER_SERIAL);
usb_core_enable_driver(USB_DRIVER_SERIAL, enabled);
splashf(HZ, "USB Serial %sabled", enabled ? "en" : "dis");
return false;
}
#endif
#endif
#if CONFIG_USBOTG == USBOTG_ISP1583
extern int dbg_usb_num_items(void);
extern const char* dbg_usb_item(int selected_item, void *data,
char *buffer, size_t buffer_len);
static int isp1583_action_callback(int action, struct gui_synclist *lists)
{
(void)lists;
if (action == ACTION_NONE)
action = ACTION_REDRAW;
return action;
}
static bool dbg_isp1583(void)
{
struct simplelist_info isp1583;
isp1583.scroll_all = true;
simplelist_info_init(&isp1583, "ISP1583", dbg_usb_num_items(), NULL);
isp1583.timeout = HZ/100;
isp1583.hide_selection = true;
isp1583.get_name = dbg_usb_item;
isp1583.action_callback = isp1583_action_callback;
return simplelist_show_list(&isp1583);
}
#endif
#if defined(CREATIVE_ZVx) && !defined(SIMULATOR)
extern int pic_dbg_num_items(void);
extern const char* pic_dbg_item(int selected_item, void *data,
char *buffer, size_t buffer_len);
static int pic_action_callback(int action, struct gui_synclist *lists)
{
(void)lists;
if (action == ACTION_NONE)
action = ACTION_REDRAW;
return action;
}
static bool dbg_pic(void)
{
struct simplelist_info pic;
pic.scroll_all = true;
simplelist_info_init(&pic, "PIC", pic_dbg_num_items(), NULL);
pic.timeout = HZ/100;
pic.hide_selection = true;
pic.get_name = pic_dbg_item;
pic.action_callback = pic_action_callback;
return simplelist_show_list(&pic);
}
#endif
/****** The menu *********/
static const struct {
unsigned char *desc; /* string or ID */
bool (*function) (void); /* return true if USB was connected */
} menuitems[] = {
#if CONFIG_CPU == SH7034 || defined(CPU_COLDFIRE) || \
(defined(CPU_PP) && !(CONFIG_STORAGE & STORAGE_SD)) || \
CONFIG_CPU == IMX31L || defined(CPU_TCC780X)
{ "Dump ROM contents", dbg_save_roms },
#endif
#if CONFIG_CPU == SH7034 || defined(CPU_COLDFIRE) || defined(CPU_PP) \
|| CONFIG_CPU == S3C2440 || CONFIG_CPU == IMX31L || CONFIG_CPU == AS3525 \
|| CONFIG_CPU == DM320 || defined(CPU_S5L870X) || CONFIG_CPU == AS3525v2 \
|| CONFIG_CPU == RK27XX
{ "View I/O ports", dbg_ports },
#endif
#if (CONFIG_RTC == RTC_PCF50605) && (CONFIG_PLATFORM & PLATFORM_NATIVE)
{ "View PCF registers", dbg_pcf },
#endif
#if defined(HAVE_TSC2100) && (CONFIG_PLATFORM & PLATFORM_NATIVE)
{ "TSC2100 debug", tsc2100_debug },
#endif
#ifdef HAVE_ADJUSTABLE_CPU_FREQ
{ "CPU frequency", dbg_cpufreq },
#endif
#if CONFIG_CPU == IMX31L
{ "DVFS/DPTC", __dbg_dvfs_dptc },
#endif
#if defined(IRIVER_H100_SERIES) && !defined(SIMULATOR)
{ "S/PDIF analyzer", dbg_spdif },
#endif
#if CONFIG_CPU == SH7034 || defined(CPU_COLDFIRE)
{ "Catch mem accesses", dbg_set_memory_guard },
#endif
{ "View OS stacks", dbg_os },
#ifdef __linux__
{ "View CPU stats", dbg_cpuinfo },
#endif
#ifdef HAVE_LCD_BITMAP
#if (CONFIG_BATTERY_MEASURE != 0) && !defined(SIMULATOR)
{ "View battery", view_battery },
#endif
#ifndef APPLICATION
{ "Screendump", dbg_screendump },
#endif
#endif
#if (CONFIG_PLATFORM & PLATFORM_NATIVE)
{ "View HW info", dbg_hw_info },
#endif
#if (CONFIG_PLATFORM & PLATFORM_NATIVE)
{ "View partitions", dbg_partitions },
#endif
#if (CONFIG_PLATFORM & PLATFORM_NATIVE)
{ "View disk info", dbg_disk_info },
#if (CONFIG_STORAGE & STORAGE_ATA)
{ "Dump ATA identify info", dbg_identify_info},
#endif
#endif
{ "Metadata log", dbg_metadatalog },
#ifdef HAVE_DIRCACHE
{ "View dircache info", dbg_dircache_info },
#endif
#ifdef HAVE_TAGCACHE
{ "View database info", dbg_tagcache_info },
#endif
#ifdef HAVE_LCD_BITMAP
#if CONFIG_CODEC == SWCODEC
{ "View buffering thread", dbg_buffering_thread },
#elif !defined(SIMULATOR)
{ "View audio thread", dbg_audio_thread },
#endif
#ifdef PM_DEBUG
{ "pm histogram", peak_meter_histogram},
#endif /* PM_DEBUG */
#endif /* HAVE_LCD_BITMAP */
{ "View buflib allocs", dbg_buflib_allocs },
#ifndef SIMULATOR
#if CONFIG_TUNER
{ "FM Radio", dbg_fm_radio },
#endif
#endif
#if defined(HAVE_EEPROM) && !defined(HAVE_EEPROM_SETTINGS)
{ "Write back EEPROM", dbg_write_eeprom },
#endif
#if CONFIG_USBOTG == USBOTG_ISP1583
{ "View ISP1583 info", dbg_isp1583 },
#endif
#if defined(CREATIVE_ZVx) && !defined(SIMULATOR)
{ "View PIC info", dbg_pic },
#endif
#ifdef ROCKBOX_HAS_LOGF
{"Show Log File", logfdisplay },
{"Dump Log File", logfdump },
#endif
#if defined(HAVE_USBSTACK)
#if defined(ROCKBOX_HAS_LOGF) && defined(USB_ENABLE_SERIAL)
{"USB Serial driver (logf)", toggle_usb_serial },
#endif
#endif /* HAVE_USBSTACK */
#ifdef CPU_BOOST_LOGGING
{"cpu_boost log",cpu_boost_log},
#endif
#if (defined(HAVE_WHEEL_ACCELERATION) && (CONFIG_KEYPAD==IPOD_4G_PAD) \
&& !defined(IPOD_MINI) && !defined(SIMULATOR))
{"Debug scrollwheel", dbg_scrollwheel },
#endif
};
static int menu_action_callback(int btn, struct gui_synclist *lists)
{
int selection = gui_synclist_get_sel_pos(lists);
if (btn == ACTION_STD_OK)
{
FOR_NB_SCREENS(i)
viewportmanager_theme_enable(i, false, NULL);
menuitems[selection].function();
btn = ACTION_REDRAW;
FOR_NB_SCREENS(i)
viewportmanager_theme_undo(i, false);
}
else if (btn == ACTION_STD_CONTEXT)
{
MENUITEM_STRINGLIST(menu_items, "Debug Menu", NULL, ID2P(LANG_ADD_TO_FAVES));
if (do_menu(&menu_items, NULL, NULL, false) == 0)
shortcuts_add(SHORTCUT_DEBUGITEM, menuitems[selection].desc);
return ACTION_STD_CANCEL;
}
return btn;
}
static const char* menu_get_name(int item, void * data,
char *buffer, size_t buffer_len)
{
(void)data; (void)buffer; (void)buffer_len;
return menuitems[item].desc;
}
bool debug_menu(void)
{
struct simplelist_info info;
simplelist_info_init(&info, "Debug Menu", ARRAYLEN(menuitems), NULL);
info.action_callback = menu_action_callback;
info.get_name = menu_get_name;
return simplelist_show_list(&info);
}
bool run_debug_screen(char* screen)
{
for (unsigned i=0; i<ARRAYLEN(menuitems); i++)
if (!strcmp(screen, menuitems[i].desc))
{
FOR_NB_SCREENS(j)
viewportmanager_theme_enable(j, false, NULL);
menuitems[i].function();
FOR_NB_SCREENS(j)
viewportmanager_theme_undo(j, false);
return true;
}
return false;
}
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