nihilazo
/
rockbox
1
0
Fork 0
Code Issues Pull Requests Projects Releases Wiki Activity
rockbox/apps/debug_menu.c

2319 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
#include "lcd-remote.h"
#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"
#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 (CONFIG_PLATFORM & PLATFORM_NATIVE)
#include "debug-target.h"
#endif
#if defined(SANSA_E200) || defined(SANSA_C200) || defined(PHILIPS_SA9200) \
|| (CONFIG_CPU == AS3525 && defined(CONFIG_CHARGING)) \
|| CONFIG_CPU == AS3525v2
#include "ascodec.h"
#include "as3514.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
/*---------------------------------------------------*/
/* 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 = cpufrequency_linux(cpu);
int freq2 = scalingfrequency_linux(cpu);
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;
}
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 (button_get_w_tmo(HZ/10) == (DEBUG_CANCEL|BUTTON_REL))
{
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(SANSA_E200) || defined(SANSA_C200) || CONFIG_CPU == AS3525 || \
CONFIG_CPU == AS3525v2
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)btn;
(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)btn; (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;
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
static bool dbg_save_roms(void)
{
int fd;
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;
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;
int i;
si4700_dbg_info(&nfo);
simplelist_addline(SIMPLELIST_ADD_LINE, "SI4700 regs:");
for (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]);
}
#ifdef HAVE_RDS_CAP
simplelist_addline(SIMPLELIST_ADD_LINE, "");
simplelist_addline(SIMPLELIST_ADD_LINE, "RDS Info:");
simplelist_addline(SIMPLELIST_ADD_LINE,
si4700_get_rds_info(RADIO_RDS_NAME));
simplelist_addline(SIMPLELIST_ADD_LINE,
si4700_get_rds_info(RADIO_RDS_TEXT));
#endif
}
#endif /* SI4700 */
#if (CONFIG_TUNER & RDA5802)
IF_TUNER_TYPE(RDA5802)
{
struct rda5802_dbg_info nfo;
int i;
rda5802_dbg_info(&nfo);
simplelist_addline(SIMPLELIST_ADD_LINE, "RDA5802 regs:");
for (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 */
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 %s",
do_screendump_instead_of_usb?"enabled":"disabled");
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 %s",
write_metadata_log?"enabled":"disabled");
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;
int rc;
int old_irq_level;
char buf[EEPROM_SIZE];
int err;
fd = open("/internal_eeprom.bin", O_RDONLY);
if (fd >= 0)
{
rc = read(fd, buf, EEPROM_SIZE);
if(rc == EEPROM_SIZE)
{
old_irq_level = disable_irq_save();
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 i = 0,j=0;
int count = cpu_boost_log_getcount();
int lines = LCD_HEIGHT/SYSFONT_HEIGHT;
char *str;
bool done;
lcd_setfont(FONT_SYSFIXED);
str = cpu_boost_log_getlog_first();
while (i < count)
{
lcd_clear_display();
for(j=0; j<lines; 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)
{
unsigned int speed;
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 */
speed = button_apply_acceleration( (1<<31)|(1<<24)|wheel_velocity);
lcd_putsf(0, 6, "accel. speed: %4d", speed);
lcd_update();
}
lcd_setfont(FONT_UI);
return false;
}
#endif
#if defined (HAVE_USBSTACK)
#if defined(ROCKBOX_HAS_LOGF) && defined(USB_ENABLE_SERIAL)
static bool toggle_usb_core_driver(int driver, char *msg)
{
bool enabled = !usb_core_driver_enabled(driver);
usb_core_enable_driver(driver,enabled);
splashf(HZ, "%s %s", msg, enabled?"enabled":"disabled");
return false;
}
static bool toggle_usb_serial(void)
{
return toggle_usb_core_driver(USB_DRIVER_SERIAL,"USB Serial");
}
#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 *********/
struct the_menu_item {
unsigned char *desc; /* string or ID */
bool (*function) (void); /* return true if USB was connected */
};
static const struct the_menu_item 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* dbg_menu_getname(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 = dbg_menu_getname;
return simplelist_show_list(&info);
}
bool run_debug_screen(char* screen)
{
unsigned i;
for (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;
}
Reference in New Issue View Git Blame Copy Permalink