/** \file * Magic Lantern debugging and reverse engineering code */ #include "dryos.h" #include "bmp.h" #include "tasks.h" #include "debug.h" #include "menu.h" #include "property.h" #include "config.h" #include "gui.h" #include "lens.h" #include "version.h" #include "edmac.h" #include "asm.h" #include "beep.h" #include "screenshot.h" #include "console.h" #include "zebra.h" #include "shoot.h" #include "cropmarks.h" #include "fw-signature.h" #include "lvinfo.h" #include "timer.h" #include "raw.h" #ifdef CONFIG_DEBUG_INTERCEPT #include "dm-spy.h" #include "tp-spy.h" #endif #ifdef CONFIG_MODULES #include "module.h" #endif //#include "lua.h" #if defined(CONFIG_7D) #include "ml_rpc.h" #endif #if defined(CONFIG_600D) && defined(CONFIG_AUDIO_600D_DEBUG) void audio_reg_dump_once(); #endif #if defined(CONFIG_EDMAC_MEMCPY) #include "edmac-memcpy.h" #endif extern int config_autosave; extern void config_autosave_toggle(void* unused, int delta); static struct semaphore * beep_sem = 0; static void debug_init_func() { beep_sem = create_named_semaphore("beep_sem",1); } INIT_FUNC("debug", debug_init_func); void NormalDisplay(); void MirrorDisplay(); static void HijackFormatDialogBox_main(); void debug_menu_init(); void display_on(); void display_off(); void fake_halfshutter_step(); #ifdef CONFIG_DEBUG_INTERCEPT void j_debug_intercept() { debug_intercept(); } void j_tp_intercept() { tp_intercept(); } #endif #if CONFIG_DEBUGMSG static int draw_prop = 0; static int dbg_propn = 0; static void draw_prop_reset( void * priv ) { dbg_propn = 0; } #endif #if defined(CONFIG_7D) // pel: Checked. That's how it works in the 7D firmware void _card_led_on() //See sub_FF32B410 -> sub_FF0800A4 { *(volatile uint32_t*) (CARD_LED_ADDRESS) = 0x800c00; *(volatile uint32_t*) (CARD_LED_ADDRESS) = (LEDON); //0x138000 } void _card_led_off() //See sub_FF32B424 -> sub_FF0800B8 { *(volatile uint32_t*) (CARD_LED_ADDRESS) = 0x800c00; *(volatile uint32_t*) (CARD_LED_ADDRESS) = (LEDOFF); //0x38400 } //TODO: Check if this is correct, because reboot.c said 0x838C00 #elif defined(CARD_LED_ADDRESS) && defined(LEDON) && defined(LEDOFF) void _card_led_on() { *(volatile uint32_t*) (CARD_LED_ADDRESS) = (LEDON); } void _card_led_off() { *(volatile uint32_t*) (CARD_LED_ADDRESS) = (LEDOFF); } #else void _card_led_on() { return; } void _card_led_off() { return; } #endif void info_led_on() { #ifdef CONFIG_VXWORKS LEDBLUE = LEDON; #elif defined(CONFIG_BLUE_LED) call("EdLedOn"); #else _card_led_on(); #endif } void info_led_off() { #ifdef CONFIG_VXWORKS LEDBLUE = LEDOFF; #elif defined(CONFIG_BLUE_LED) call("EdLedOff"); #else _card_led_off(); #endif } void info_led_blink(int times, int delay_on, int delay_off) { for (int i = 0; i < times; i++) { info_led_on(); msleep(delay_on); info_led_off(); msleep(delay_off); } } static void dump_rom_task(void* priv, int unused) { msleep(200); FILE * f = NULL; f = FIO_CreateFile("ML/LOGS/ROM0.BIN"); if (f) { bmp_printf(FONT_LARGE, 0, 60, "Writing ROM0"); FIO_WriteFile(f, (void*) 0xF0000000, 0x01000000); FIO_CloseFile(f); } msleep(200); f = FIO_CreateFile("ML/LOGS/ROM1.BIN"); if (f) { bmp_printf(FONT_LARGE, 0, 60, "Writing ROM1"); FIO_WriteFile(f, (void*) 0xF8000000, 0x01000000); FIO_CloseFile(f); } msleep(200); dump_big_seg(4, "ML/LOGS/RAM4.BIN"); } static void dump_img_task(void* priv, int unused) { for (int i = 5; i > 0; i--) { NotifyBox(1000, "Will dump VRAMs in %d s...", i); msleep(1000); } NotifyBox(5000, "Dumping VRAMs..."); FILE * f = NULL; char pattern[0x80]; char filename[0x80]; char* video_mode = get_video_mode_name(0); char* display_device = get_display_device_name(); int path_len = snprintf(pattern, sizeof(pattern), "%s/%s/%s/", CAMERA_MODEL, video_mode, display_device); /* make sure the VRAM parameters are updated */ get_yuv422_vram(); get_yuv422_hd_vram(); snprintf(pattern + path_len, sizeof(pattern) - path_len, "LV-%%03d.422", 0); get_numbered_file_name(pattern, 999, filename, sizeof(filename)); f = FIO_CreateFile(filename); if (f) { FIO_WriteFile(f, vram_lv.vram, vram_lv.height * vram_lv.pitch); FIO_CloseFile(f); } snprintf(pattern + path_len, sizeof(pattern) - path_len, "HD-%%03d.422", 0); get_numbered_file_name(pattern, 999, filename, sizeof(filename)); f = FIO_CreateFile(filename); if (f) { FIO_WriteFile(f, vram_hd.vram, vram_hd.height * vram_hd.pitch); FIO_CloseFile(f); } #ifdef CONFIG_RAW_LIVEVIEW snprintf(pattern + path_len, sizeof(pattern) - path_len, "RAW-%%03d.DNG", 0); get_numbered_file_name(pattern, 999, filename, sizeof(filename)); if (lv) raw_lv_request(); if (raw_update_params()) { /* first frames right after enabling the raw buffer might be corrupted, figure out why */ /* todo: fix it in the raw backend */ wait_lv_frames(3); raw_set_dirty(); raw_update_params(); /* make a copy of the raw buffer, because it's being updated while we are saving it */ void* buf = malloc(raw_info.frame_size); if (buf) { memcpy(buf, raw_info.buffer, raw_info.frame_size); struct raw_info local_raw_info = raw_info; local_raw_info.buffer = buf; save_dng(filename, &local_raw_info); free(buf); } } if (lv) raw_lv_release(); if (!is_file(filename)) { /* if we don't have any raw data, create an empty DNG just to keep file numbering consistent */ f = FIO_CreateFile(filename); FIO_CloseFile(f); } #endif /* create a log file with relevant settings */ snprintf(pattern + path_len, sizeof(pattern) - path_len, "VRAM-%%03d.LOG", 0); get_numbered_file_name(pattern, 999, filename, sizeof(filename)); f = FIO_CreateFile(filename); if (f) { my_fprintf(f, "display=%d (hdmi=%d code=%d rca=%d)\n", EXT_MONITOR_CONNECTED, ext_monitor_hdmi, hdmi_code, _ext_monitor_rca); my_fprintf(f, "lv=%d (zoom=%d dispmode=%d rec=%d)\n", lv, lv_dispsize, lv_disp_mode, RECORDING_H264); my_fprintf(f, "movie=%d (res=%d crop=%d fps=%d)\n", is_movie_mode(), video_mode_resolution, video_mode_crop, video_mode_fps); my_fprintf(f, "play=%d (ph=%d, mv=%d, qr=%d)\n", PLAY_MODE, is_pure_play_photo_mode(), is_pure_play_movie_mode(), QR_MODE); FIO_CloseFile(f); } NotifyBox(2000, "Done :)"); beep(); } #ifdef FEATURE_GUIMODE_TEST // beware, might be dangerous, some gui modes will give errors void guimode_test() { msleep(1000); for (int i = 0; i < 99; i++) { // some GUI modes may lock-up the camera or reboot // if this is the case, the troublesome mode will be skipped at next reboot. char fn[50]; snprintf(fn, sizeof(fn), "VRAM%d.BMP", i); if (FIO_GetFileSize_direct(fn) != 0xFFFFFFFF) // this gui mode was already tested? continue; NotifyBox(500, "Trying GUI mode %d...", i); dump_seg(0, 0, fn); // temporary flag to indicate that this GUI mode was tried (and probably found to be troublesome) msleep(200); SetGUIRequestMode(i); msleep(1000); FIO_RemoveFile(fn); take_screenshot(SCREENSHOT_FILENAME_AUTO, SCREENSHOT_BMP); // try to reset to initial gui mode SetGUIRequestMode(0); SetGUIRequestMode(1); SetGUIRequestMode(0); msleep(1000); } } #endif //~ uncompressed video testing #ifdef CONFIG_6D FILE * movfile; int record_uncomp = 0; #endif void bsod() { do { gui_stop_menu(); SetGUIRequestMode(1); msleep(1000); } while (CURRENT_DIALOG_MAYBE != 1); NotifyBoxHide(); canon_gui_disable_front_buffer(); gui_uilock(UILOCK_EVERYTHING); bmp_fill(COLOR_BLUE, 0, 0, 720, 480); int fnt = SHADOW_FONT(FONT_MONO_20); int h = 20; int y = 20; bmp_printf(fnt, 0, y+=h, " A problem has been detected and Magic Lantern has been" ); bmp_printf(fnt, 0, y+=h, " shut down to prevent damage to your camera." ); y += h; bmp_printf(fnt, 0, y+=h, " If this is the first time you've seen this STOP error" ); bmp_printf(fnt, 0, y+=h, " screen, restart your camera. If this screen appears" ); bmp_printf(fnt, 0, y+=h, " again, follow these steps:" ); y += h; bmp_printf(fnt, 0, y+=h, " - Go to LiveView and enable DIGIC peaking. " ); bmp_printf(fnt, 0, y+=h, " - Take a photo of a calendar, focusing on today's date. " ); bmp_printf(fnt, 0, y+=h, " - Try pressing the magic button quickly enough. " ); y += h; bmp_printf(fnt, 0, y+=h, " Technical information:"); bmp_printf(fnt, 0, y+=h, " *** STOP 0x000000aa (0x1000af22, 0xdeadbeef, 0xffff)" ); y += h; bmp_printf(fnt, 0, y+=h, " Beginning dump of physical memory" ); bmp_printf(fnt, 0, y+=h, " Physical memory dump complete. Your camera is bricked." ); y += h; bmp_printf(fnt, 0, y+=h, " Contact the Magic Lantern guys at www.magiclantern.fm" ); bmp_printf(fnt, 0, y+=h, " for further assistance and information." ); } static void run_test() { msleep(2000); console_show(); msleep(1000); /* let's see how much RAM we can get */ struct memSuite * suite = srm_malloc_suite(0); struct memChunk * chunk = GetFirstChunkFromSuite(suite); printf("hSuite %x (%dx%s)\n", suite, suite->num_chunks, format_memory_size(chunk->size)); printf("You should not be able to take pictures,\n"); printf("but autofocus should work.\n"); info_led_on(); for (int i = 10; i >= 0; i--) { msleep(1000); printf("%d...", i); } printf("\b\b\n"); info_led_off(); srm_free_suite(suite); msleep(1000); printf("Now try taking some pictures during the test.\n"); /* we must be able to allocate at least two 25MB buffers on top of what you can get from shoot_malloc */ /* 50D/500D have 27M, 5D3 has 40 */ for (int i = 0; i < 1000; i++) { void* buf1 = srm_malloc(25*1024*1024); printf("srm_malloc(25M) => %x\n", buf1); void* buf2 = srm_malloc(25*1024*1024); printf("srm_malloc(25M) => %x\n", buf2); /* we must be able to free them in any order, even if the backend doesn't allow that */ if (rand()%2) { free(buf1); free(buf2); } else { free(buf2); free(buf1); } if (i == 0) { /* delay the first iteration, so you can see what's going on */ /* also save a screenshot */ msleep(5000); take_screenshot(0, SCREENSHOT_BMP); } if (!buf1 || !buf2) { /* allocation failed? wait before retrying */ msleep(1000); } } return; /* todo: cleanup the following tests and move them in the mem_chk module */ /* allocate up to 50000 small blocks of RAM, 32K each */ int N = 50000; int blocksize = 32*1024; void** ptr = malloc(N * sizeof(ptr[0])); if (ptr) { for (int i = 0; i < N; i++) { ptr[i] = 0; } for (int i = 0; i < N; i++) { ptr[i] = malloc(blocksize); bmp_printf(FONT_MONO_20, 0, 0, "alloc %d %8x (total %s)", i, ptr[i], format_memory_size(i * blocksize)); if (ptr[i]) memset(ptr[i], rand(), blocksize); else break; } for (int i = 0; i < N; i++) { if (ptr[i]) { bmp_printf(FONT_MONO_20, 0, 20, "free %x ", ptr[i]); free(ptr[i]); } } } free(ptr); return; /* check for memory leaks */ for (int i = 0; i < 1000; i++) { printf("%d/1000\n", i); /* with this large size, the backend will use fio_malloc, which returns uncacheable pointers */ void* p = malloc(16*1024*1024 + 64); if (!p) { printf("malloc err\n"); continue; } /* however, user code should not care about this; we have requested a plain old cacheable pointer; did we get one? */ ASSERT(p == CACHEABLE(p)); /* do something with our memory */ memset(p, 1234, 1234); msleep(20); /* done, now free it */ /* the backend should put back the uncacheable flag (if handled incorrectly, there may be memory leaks) */ free(p); msleep(20); } return; //~ bfnt_test(); #ifdef FEATURE_SHOW_SIGNATURE console_show(); printf("FW Signature: 0x%08x", compute_signature((int*)SIG_START, SIG_LEN)); msleep(1000); return; #endif #ifdef CONFIG_EDMAC_MEMCPY msleep(2000); uint8_t* real = bmp_vram_real(); uint8_t* idle = bmp_vram_idle(); int xPos = 0; int xOff = 2; int yPos = 0; edmac_memcpy_res_lock(); edmac_copy_rectangle_adv(BMP_VRAM_START(idle), BMP_VRAM_START(real), 960, 120, 50, 960, 120, 50, 720, 440); while(true) { edmac_copy_rectangle_adv(BMP_VRAM_START(real), BMP_VRAM_START(idle), 960, 120, 50, 960, 120+xPos, 50+yPos, 720-xPos, 440-yPos); xPos += xOff; if(xPos >= 100 || xPos <= -100) { xOff *= -1; } } edmac_memcpy_res_unlock(); return; #endif call("lv_save_raw", 1); call("aewb_enableaewb", 0); return; #if 0 void exmem_test(); exmem_test(); return; #endif #ifdef CONFIG_MODULES console_show(); printf("Loading modules...\n"); msleep(1000); module_load_all(); return; printf("\n"); printf("Testing TCC executable...\n"); printf(" [i] this may take some time\n"); msleep(1000); for(int try = 0; try < 100; try++) { void *module = NULL; uint32_t ret = 0; module = module_load(MODULE_PATH"libtcc.mex"); if(module) { ret = module_exec(module, "tcc_new", 0); if(!(ret & 0x40000000)) { printf("tcc_new() returned: 0x%08X\n", ret); } else { module_exec(module, "tcc_delete", 1, ret); } module_unload(module); } else { printf(" [E] load failed\n"); } } printf("Done!\n"); #endif } void run_in_separate_task(void* routine, int argument) { gui_stop_menu(); if (!routine) return; task_create("run_test", 0x1a, 0x1000, (void(*)(void*)) routine, (void*)argument); } #ifdef CONFIG_BENCHMARKS /* for 5D3, the location of the benchmark file is important; * if we put it in root, it will benchmark the ML card; * if we put it in DCIM, it will benchmark the card selected in Canon menu, which is what we want. */ #define CARD_BENCHMARK_FILE "DCIM/bench.tmp" static void card_benchmark_wr(int bufsize, int K, int N) { int x = 0; static int y = 80; if (K == 1) y = 80; FIO_RemoveFile(CARD_BENCHMARK_FILE); msleep(2000); int filesize = 1024; // MB int n = filesize * 1024 * 1024 / bufsize; FILE* f = FIO_CreateFile(CARD_BENCHMARK_FILE); if (f) { int t0 = get_ms_clock_value(); int i; for (i = 0; i < n; i++) { uint32_t start = (int)UNCACHEABLE(YUV422_LV_BUFFER_1); bmp_printf(FONT_LARGE, 0, 0, "[%d/%d] Writing: %d/100 (buf=%dK)... ", K, N, i * 100 / n, bufsize/1024); FIO_WriteFile( f, (const void *) start, bufsize ); } FIO_CloseFile(f); int t1 = get_ms_clock_value(); int speed = filesize * 1000 * 10 / (t1 - t0); bmp_printf(FONT_MONO_20, x, y += 20, "Write speed (buffer=%dk):\t %d.%d MB/s\n", bufsize/1024, speed/10, speed % 10); } msleep(2000); { void* buf = fio_malloc(bufsize); if (buf) { FILE* f = FIO_OpenFile(CARD_BENCHMARK_FILE, O_RDONLY | O_SYNC); int t0 = get_ms_clock_value(); int i; for (i = 0; i < n; i++) { bmp_printf(FONT_LARGE, 0, 0, "[%d/%d] Reading: %d/100 (buf=%dK)... ", K, N, i * 100 / n, bufsize/1024); FIO_ReadFile(f, UNCACHEABLE(buf), bufsize ); } FIO_CloseFile(f); fio_free(buf); int t1 = get_ms_clock_value(); int speed = filesize * 1000 * 10 / (t1 - t0); bmp_printf(FONT_MONO_20, x, y += 20, "Read speed (buffer=%dk):\t %d.%d MB/s\n", bufsize/1024, speed/10, speed % 10); } else { bmp_printf(FONT_MONO_20, x, y += 20, "malloc error: buffer=%d\n", bufsize); } } FIO_RemoveFile(CARD_BENCHMARK_FILE); msleep(2000); } static char* print_benchmark_header() { bmp_printf(FONT_MONO_20, 0, 40, "ML %s, %s", build_version, build_id); // this includes camera name static char mode[100]; snprintf(mode, sizeof(mode), "Mode: %s %s, Global Draw: %s", get_video_mode_name(1), get_display_device_name(), get_global_draw() ? "ON" : "OFF" ); bmp_printf(FONT_MONO_20, 0, 60, mode); return mode; } static void card_benchmark_task() { msleep(1000); if (!DISPLAY_IS_ON) { fake_simple_button(BGMT_PLAY); msleep(1000); } NotifyBox(2000, "%s Card benchmark (1 GB)...", get_ml_card()->type); msleep(3000); canon_gui_disable_front_buffer(); clrscr(); print_benchmark_header(); #ifdef CARD_A_MAKER bmp_printf(FONT_MONO_20, 0, 80, "CF %s %s", CARD_A_MAKER, CARD_A_MODEL); #endif card_benchmark_wr(16*1024*1024, 1, 8); /* warm-up test */ card_benchmark_wr(16*1024*1024, 2, 8); card_benchmark_wr(16000000, 3, 8); card_benchmark_wr(4*1024*1024, 4, 8); card_benchmark_wr(4000000, 5, 8); card_benchmark_wr(2*1024*1024, 6, 8); card_benchmark_wr(2000000, 7, 8); card_benchmark_wr(128*1024, 8, 8); bmp_fill(COLOR_BLACK, 0, 0, 720, font_large.height); bmp_printf(FONT_LARGE, 0, 0, "Benchmark complete."); take_screenshot("bench%d.ppm", SCREENSHOT_BMP); msleep(3000); canon_gui_enable_front_buffer(0); } #ifdef CONFIG_5D3 static struct msg_queue * twocard_mq = 0; static volatile int twocard_bufsize = 0; static volatile int twocard_done = 0; static void twocard_init() { twocard_mq = (void*)msg_queue_create("twocard", 100); } INIT_FUNC("twocard", twocard_init); static void twocard_write_task(char* filename) { int bufsize = twocard_bufsize; int t0 = get_ms_clock_value(); int cf = filename[0] == 'A'; int msg; int filesize = 0; FILE* f = FIO_CreateFile(filename); if (f) { while (msg_queue_receive(twocard_mq, (struct event **) &msg, 1000) == 0) { uint32_t start = (int)UNCACHEABLE(YUV422_LV_BUFFER_1); bmp_printf(FONT_MONO_20, 0, cf*20, "[%s] Writing chunk %d [total=%d MB] (buf=%dK)... ", cf ? "CF" : "SD", msg, filesize, bufsize/1024); int r = FIO_WriteFile( f, (const void *) start, bufsize ); if (r != bufsize) break; // card full? filesize += bufsize / 1024 / 1024; } FIO_CloseFile(f); FIO_RemoveFile(filename); int t1 = get_ms_clock_value() - 1000; int speed = filesize * 1000 * 10 / (t1 - t0); bmp_printf(FONT_MONO_20, 0, 120+cf*20, "[%s] Write speed (buffer=%dk):\t %d.%d MB/s\n", cf ? "CF" : "SD", bufsize/1024, speed/10, speed % 10); } twocard_done++; } static void twocard_benchmark_task() { msleep(1000); if (!DISPLAY_IS_ON) { fake_simple_button(BGMT_PLAY); msleep(1000); } canon_gui_disable_front_buffer(); clrscr(); print_benchmark_header(); #ifdef CARD_A_MAKER bmp_printf(FONT_MONO_20, 0, 80, "CF %s %s", CARD_A_MAKER, CARD_A_MODEL); #endif uint32_t bufsize = 32*1024*1024; msleep(2000); uint32_t filesize = 2048; // MB uint32_t n = filesize * 1024 * 1024 / bufsize; twocard_bufsize = bufsize; for (uint32_t i = 0; i < n; i++) msg_queue_post(twocard_mq, i); twocard_done = 0; task_create("twocard_cf", 0x1d, 0x2000, twocard_write_task, "A:/bench.tmp"); task_create("twocard_sd", 0x1d, 0x2000, twocard_write_task, "B:/bench.tmp"); while (twocard_done < 2) msleep(100); call("dispcheck"); msleep(3000); canon_gui_enable_front_buffer(0); } #endif static void card_bufsize_benchmark_task() { msleep(1000); if (!DISPLAY_IS_ON) { fake_simple_button(BGMT_PLAY); msleep(1000); } canon_gui_disable_front_buffer(); clrscr(); int x = 0; int y = 100; FILE* log = FIO_CreateFile("bench.log"); if (!log) goto cleanup; my_fprintf(log, "Buffer size experiment\n"); my_fprintf(log, "ML %s, %s\n", build_version, build_id); // this includes camera name char* mode = print_benchmark_header(); my_fprintf(log, "%s\n", mode); #ifdef CARD_A_MAKER my_fprintf(log, "CF %s %s\n", CARD_A_MAKER, CARD_A_MODEL); #endif while(1) { /* random buffer size between 1K and 32M, with 1K increments */ uint32_t bufsize = ((rand() % 32768) + 1) * 1024; msleep(1000); uint32_t filesize = 256; // MB uint32_t n = filesize * 1024 * 1024 / bufsize; FILE* f = FIO_CreateFile(CARD_BENCHMARK_FILE); if (!f) goto cleanup; int t0 = get_ms_clock_value(); int total = 0; for (uint32_t i = 0; i < n; i++) { uint32_t start = (int)UNCACHEABLE(YUV422_LV_BUFFER_1); bmp_printf(FONT_LARGE, 0, 0, "Writing: %d/100 (buf=%dK)... ", i * 100 / n, bufsize/1024); uint32_t r = FIO_WriteFile( f, (const void *) start, bufsize ); total += r; if (r != bufsize) break; } FIO_CloseFile(f); int t1 = get_ms_clock_value(); int speed = total / 1024 * 1000 / 1024 * 10 / (t1 - t0); bmp_printf(FONT_MONO_20, x, y += 20, "Write speed (buffer=%dk):\t %d.%d MB/s\n", bufsize/1024, speed/10, speed % 10); if (y > 450) y = 100; my_fprintf(log, "%d %d\n", bufsize, speed); } cleanup: if (log) FIO_CloseFile(log); canon_gui_enable_front_buffer(1); } typedef void (*mem_bench_fun)( int arg0, int arg1, int arg2, int arg3 ); static void mem_benchmark_run(char* msg, int* y, int bufsize, mem_bench_fun bench_fun, int arg0, int arg1, int arg2, int arg3) { bmp_printf(FONT_LARGE, 0, 0, "%s...", msg); int times = 0; int t0 = get_ms_clock_value(); for (int i = 0; i < INT_MAX; i++) { bench_fun(arg0, arg1, arg2, arg3); if (i%2) info_led_off(); else info_led_on(); /* run the benchmark for roughly 1 second */ if (get_ms_clock_value_fast() - t0 > 1000) { times = i + 1; break; } } int t1 = get_ms_clock_value(); int dt = t1 - t0; info_led_off(); /* units: KB/s */ int speed = bufsize * times / dt; /* transform in MB/s x100 */ speed = speed * 100 / 1024; bmp_printf(FONT_MONO_20, 0, *y += 20, "%s :%4d.%02d MB/s", msg, speed/100, speed%100); msleep(10); } static void mem_test_bmp_fill(int arg0, int arg1, int arg2, int arg3) { bmp_draw_to_idle(1); bmp_fill(COLOR_BLACK, arg0, arg1, arg2, arg3); bmp_draw_to_idle(0); } #ifdef CONFIG_EDMAC_MEMCPY void mem_test_edmac_copy_rectangle(int arg0, int arg1, int arg2, int arg3) { uint8_t* real = bmp_vram_real(); uint8_t* idle = bmp_vram_idle(); edmac_copy_rectangle_adv(BMP_VRAM_START(idle), BMP_VRAM_START(real), 960, 0, 0, 960, 0, 0, 720, 480); } #endif static uint64_t FAST mem_test_read64(uint64_t* buf, uint32_t n) { /** GCC output with -Os attribute(O3): * loc_7433C * LDMIA R0!, {R2,R3} * CMP R0, R1 * BNE loc_7433C */ /* note: this kind of loops are much faster with -funroll-all-loops */ register uint64_t tmp = 0; for (uint32_t i = 0; i < n/8; i++) tmp = buf[i]; return tmp; } static uint32_t FAST mem_test_read32(uint32_t* buf, uint32_t n) { /** GCC output with -Os attribute(O3): * loc_74310 * LDR R0, [R3],#4 * CMP R3, R2 * BNE loc_74310 */ register uint32_t tmp = 0; for (uint32_t i = 0; i < n/4; i++) tmp = buf[i]; return tmp; } static void mem_benchmark_task() { msleep(1000); if (!DISPLAY_IS_ON) { fake_simple_button(BGMT_PLAY); msleep(1000); } canon_gui_disable_front_buffer(); clrscr(); print_benchmark_header(); int bufsize = 16*1024*1024; void* buf1 = 0; void* buf2 = 0; buf1 = tmp_malloc(bufsize); buf2 = tmp_malloc(bufsize); if (!buf1 || !buf2) { bmp_printf(FONT_LARGE, 0, 0, "malloc error :("); goto cleanup; } int y = 80; #if 0 // need to hack the source code to run this benchmark extern int defish_ind; defish_draw_lv_color(); void defish_draw_lv_color_loop(uint64_t* src_buf, uint64_t* dst_buf, int* ind); if (defish_ind) mem_benchmark_run("defish_draw_lv_color", &y, 720*os.y_ex, (mem_bench_fun)defish_draw_lv_color_loop, (intptr_t)UNCACHEABLE(buf1), (intptr_t)UNCACHEABLE(buf2), defish_ind, 0); #endif mem_benchmark_run("memcpy cacheable ", &y, bufsize, (mem_bench_fun)memcpy, (intptr_t)CACHEABLE(buf1), (intptr_t)CACHEABLE(buf2), bufsize, 0); mem_benchmark_run("memcpy uncacheable ", &y, bufsize, (mem_bench_fun)memcpy, (intptr_t)UNCACHEABLE(buf1), (intptr_t)UNCACHEABLE(buf2), bufsize, 0); mem_benchmark_run("memcpy64 cacheable ", &y, bufsize, (mem_bench_fun)memcpy64, (intptr_t)CACHEABLE(buf1), (intptr_t)CACHEABLE(buf2), bufsize, 0); mem_benchmark_run("memcpy64 uncacheable", &y, bufsize, (mem_bench_fun)memcpy64, (intptr_t)UNCACHEABLE(buf1), (intptr_t)UNCACHEABLE(buf2), bufsize, 0); #ifdef CONFIG_DMA_MEMCPY mem_benchmark_run("dma_memcpy cacheable", &y, bufsize, (mem_bench_fun)dma_memcpy, (intptr_t)CACHEABLE(buf1), (intptr_t)CACHEABLE(buf2), bufsize, 0); mem_benchmark_run("dma_memcpy uncacheab", &y, bufsize, (mem_bench_fun)dma_memcpy, (intptr_t)UNCACHEABLE(buf1), (intptr_t)UNCACHEABLE(buf2), bufsize, 0); #endif #ifdef CONFIG_EDMAC_MEMCPY mem_benchmark_run("edmac_memcpy ", &y, bufsize, (mem_bench_fun)edmac_memcpy, (intptr_t)buf1, (intptr_t)buf2, bufsize, 0); mem_benchmark_run("edmac_copy_rectangle", &y, 720*480, (mem_bench_fun)mem_test_edmac_copy_rectangle, 0, 0, 0, 0); #endif mem_benchmark_run("memset cacheable ", &y, bufsize, (mem_bench_fun)memset, (intptr_t)CACHEABLE(buf1), 0, bufsize, 0); mem_benchmark_run("memset uncacheable ", &y, bufsize, (mem_bench_fun)memset, (intptr_t)UNCACHEABLE(buf1), 0, bufsize, 0); mem_benchmark_run("memset64 cacheable ", &y, bufsize, (mem_bench_fun)memset64, (intptr_t)CACHEABLE(buf1), 0, bufsize, 0); mem_benchmark_run("memset64 uncacheable", &y, bufsize, (mem_bench_fun)memset64, (intptr_t)UNCACHEABLE(buf1), 0, bufsize, 0); mem_benchmark_run("read32 cacheable ", &y, bufsize, (mem_bench_fun)mem_test_read32, (intptr_t)CACHEABLE(buf1), bufsize, 0, 0); mem_benchmark_run("read32 uncacheable ", &y, bufsize, (mem_bench_fun)mem_test_read32, (intptr_t)UNCACHEABLE(buf1), bufsize, 0, 0); mem_benchmark_run("read64 cacheable ", &y, bufsize, (mem_bench_fun)mem_test_read64, (intptr_t)CACHEABLE(buf1), bufsize, 0, 0); mem_benchmark_run("read64 uncacheable ", &y, bufsize, (mem_bench_fun)mem_test_read64, (intptr_t)UNCACHEABLE(buf1), bufsize, 0, 0); mem_benchmark_run("bmp_fill to idle buf", &y, 720*480, (mem_bench_fun)mem_test_bmp_fill, 0, 0, 720, 480); call("dispcheck"); msleep(3000); canon_gui_enable_front_buffer(0); cleanup: if (buf1) tmp_free(buf1); if (buf2) tmp_free(buf2); } #endif #ifdef CONFIG_STRESS_TEST /*static void stress_test_long(void* priv, int delta) { gui_stop_menu(); task_create("fake_buttons", 0x1c, 0, fake_buttons, 0); task_create("change_colors", 0x1c, 0, change_colors_like_crazy, 0); }*/ static void stress_test_picture(int n, int delay) { if (shutter_count > CANON_SHUTTER_RATING) { beep(); return; } msleep(delay); for (int i = 0; i < n; i++) { NotifyBox(10000, "Picture taking: %d/%d", i+1, n); msleep(200); lens_take_picture(64, 0); } lens_wait_readytotakepic(64); msleep(delay); } static volatile int timer_func = 0; static volatile int timer_arg = 0; static volatile int64_t timer_time = 0; static void timer_cbr(int arg1, void* arg2) { timer_func = 1; timer_arg = arg1; timer_time = get_us_clock_value(); } static void overrun_cbr(int arg1, void* arg2) { timer_func = 2; timer_arg = arg1; timer_time = get_us_clock_value(); } static void next_tick_cbr(int arg1, void* arg2) { timer_func = 3; timer_arg = arg1; timer_time = get_us_clock_value(); SetHPTimerNextTick(arg1, 100000, timer_cbr, overrun_cbr, 0); } #define TEST_MSG(fmt, ...) { if (!silence || !ok) log_len += snprintf(log_buf + log_len, maxlen - log_len, fmt, ## __VA_ARGS__); printf(fmt, ## __VA_ARGS__); } #define TEST_TRY_VOID(x) { x; ok = 1; TEST_MSG(" %s\n", #x); } #define TEST_TRY_FUNC(x) { int ans = (int)(x); ok = 1; TEST_MSG(" %s => 0x%x\n", #x, ans); } #define TEST_TRY_FUNC_CHECK(x, condition) { int ans = (int)(x); ok = ans condition; TEST_MSG("[%s] %s => 0x%x\n", ok ? "Pass" : "FAIL", #x, ans); if (ok) passed_tests++; else failed_tests++; } #define TEST_TRY_FUNC_CHECK_STR(x, expected_string) { char* ans = (char*)(x); ok = streq(ans, expected_string); TEST_MSG("[%s] %s => '%s'\n", ok ? "Pass" : "FAIL", #x, ans); if (ok) passed_tests++; else { failed_tests++; msleep(500); } } static int test_task_created = 0; static void test_task() { test_task_created = 1; } static void stub_test_task(void* arg) { /* this calls some private functions that should not be called from user code */ extern void* _malloc(size_t size); extern void _free(void* ptr); extern void* _AllocateMemory(size_t size); extern void _FreeMemory(void* ptr); extern void* _alloc_dma_memory(size_t size); extern void _free_dma_memory(void* ptr); int maxlen = 1024*1024; int log_len = 0; char* log_buf = fio_malloc(maxlen); if (!log_buf) return; console_show(); // this test can be repeated many times, as burn-in test int n = (int)arg > 0 ? 1 : 100; msleep(1000); info_led_on(); int passed_tests = 0; int failed_tests = 0; int silence = 0; // if 1, only failures are logged to file int ok = 1; for (int i=0; i < n; i++) { /* File I/O */ FILE* f; TEST_TRY_FUNC_CHECK(f = FIO_CreateFile("test.dat"), != 0); TEST_TRY_FUNC_CHECK(FIO_WriteFile(f, (void*)ROMBASEADDR, 0x10000), == 0x10000); TEST_TRY_FUNC_CHECK(FIO_WriteFile(f, (void*)ROMBASEADDR, 0x10000), == 0x10000); TEST_TRY_VOID(FIO_CloseFile(f)); uint32_t size; TEST_TRY_FUNC_CHECK(FIO_GetFileSize("test.dat", &size), == 0); TEST_TRY_FUNC_CHECK(size, == 0x20000); void* p; TEST_TRY_FUNC_CHECK(p = (void*)_alloc_dma_memory(0x20000), != 0); TEST_TRY_FUNC_CHECK(f = FIO_OpenFile("test.dat", O_RDONLY | O_SYNC), != 0); TEST_TRY_FUNC_CHECK(FIO_ReadFile(f, p, 0x20000), == 0x20000); TEST_TRY_VOID(FIO_CloseFile(f)); TEST_TRY_VOID(_free_dma_memory(p)); { int count = 0; FILE* f = FIO_CreateFile("test.dat"); if (f) { for (int i = 0; i < 1000; i++) count += FIO_WriteFile(f, "Will it blend?\n", 15); FIO_CloseFile(f); } TEST_TRY_FUNC_CHECK(count, == 1000*15); } /* FIO_SeekSkipFile test */ { void* buf = 0; TEST_TRY_FUNC_CHECK(buf = fio_malloc(0x1000000), != 0); memset(buf, 0x13, 0x1000000); if (buf) { /* create a file a little higher than 2 GiB for testing */ /* to make sure the stub handles 64-bit position arguments */ FILE* f = FIO_CreateFile("test.dat"); if (f) { printf("Creating a 2GB file... "); for (int i = 0; i < 130; i++) { printf("\b\b\b\b\b\b\b%3d/130", i); FIO_WriteFile(f, buf, 0x1000000); } printf("\n"); FIO_CloseFile(f); TEST_TRY_FUNC_CHECK(FIO_GetFileSize_direct("test.dat"), == (int)0x82000000); /* now reopen it to append something */ TEST_TRY_FUNC_CHECK(f = FIO_OpenFile("test.dat", O_RDWR | O_SYNC), != 0); TEST_TRY_FUNC_CHECK(FIO_SeekSkipFile(f, 0, SEEK_END), == (int)0x82000000); TEST_TRY_FUNC_CHECK(FIO_WriteFile(f, buf, 0x10), == 0x10); /* some more seeking around */ TEST_TRY_FUNC_CHECK(FIO_SeekSkipFile(f, -0x20, SEEK_END), == (int)0x81fffff0); TEST_TRY_FUNC_CHECK(FIO_WriteFile(f, buf, 0x30), == 0x30); TEST_TRY_FUNC_CHECK(FIO_SeekSkipFile(f, 0x20, SEEK_SET), == 0x20); TEST_TRY_FUNC_CHECK(FIO_SeekSkipFile(f, 0x30, SEEK_CUR), == 0x50); TEST_TRY_FUNC_CHECK(FIO_SeekSkipFile(f, -0x20, SEEK_CUR), == 0x30); /* note: seeking past the end of a file does not work on all cameras, so we'll not test that */ FIO_CloseFile(f); TEST_TRY_FUNC_CHECK(FIO_GetFileSize_direct("test.dat"), == (int)0x82000020); } } fio_free(buf); } TEST_TRY_FUNC_CHECK(FIO_RemoveFile("test.dat"), == 0); /* GUI timers */ /* SetTimerAfter, CancelTimer */ { int t0 = get_us_clock_value()/1000; int ta0 = 0; /* this one should overrun */ timer_func = 0; TEST_TRY_FUNC_CHECK(SetTimerAfter(0, timer_cbr, overrun_cbr, 0), == 0x15); TEST_TRY_FUNC_CHECK(timer_func, == 2); ta0 = timer_arg; /* this one should not overrun */ timer_func = 0; TEST_TRY_FUNC_CHECK(SetTimerAfter(1000, timer_cbr, overrun_cbr, 0), % 2 == 0); TEST_TRY_VOID(msleep(900)); TEST_TRY_FUNC_CHECK(timer_func, == 0); /* ta0 + 900 => CBR should not be called yet */ TEST_TRY_VOID(msleep(200)); TEST_TRY_FUNC_CHECK(timer_func, == 1); /* ta0 + 1100 => CBR should be called by now */ TEST_TRY_FUNC_CHECK(ABS((timer_time/1000 - t0) - 1000), <= 20); TEST_TRY_FUNC_CHECK(ABS((timer_arg - ta0) - 1000), <= 20); // current time: ta0+1100 /* this one should not call the CBR, because we'll cancel it */ timer_func = 0; int timer; TEST_TRY_FUNC_CHECK(timer = SetTimerAfter(1000, timer_cbr, overrun_cbr, 0), % 2 == 0); TEST_TRY_VOID(msleep(400)); TEST_TRY_VOID(CancelTimer(timer)); TEST_TRY_FUNC_CHECK(timer_func, == 0); /* ta0 + 1500 => CBR should be not be called, and we'll cancel it early */ TEST_TRY_VOID(msleep(1500)); TEST_TRY_FUNC_CHECK(timer_func, == 0); /* ta0 + 3000 => CBR should be not be called, because it was canceled */ } /* microsecond timer wraps around at 1048576 */ int DeltaT(int a, int b) { return MOD(a - b, 1048576); } /* SetHPTimerNextTick, SetHPTimerAfterTimeout, SetHPTimerAfterNow */ { /* run these tests in PLAY mode, because the CPU usage is higher in other modes, and may influence the results */ SetGUIRequestMode(1); msleep(1000); int64_t t0 = get_us_clock_value(); int ta0 = 0; /* this one should overrun */ timer_func = 0; TEST_TRY_FUNC_CHECK(SetHPTimerAfterNow(0, timer_cbr, overrun_cbr, 0), == 0x15); TEST_TRY_FUNC_CHECK(timer_func, == 2); ta0 = timer_arg; /* this one should not overrun */ timer_func = 0; TEST_TRY_FUNC_CHECK(SetHPTimerAfterNow(100000, timer_cbr, overrun_cbr, 0), % 2 == 0); TEST_TRY_VOID(msleep(90)); TEST_TRY_FUNC_CHECK(timer_func, == 0); /* ta0 + 90000 => CBR should not be called yet */ TEST_TRY_VOID(msleep(20)); TEST_TRY_FUNC_CHECK(timer_func, == 1); /* ta0 + 110000 => CBR should be called by now */ TEST_TRY_FUNC_CHECK(ABS(DeltaT(timer_time, t0) - 100000), <= 1000); TEST_TRY_FUNC_CHECK(ABS(DeltaT(timer_arg, ta0) - 100000), <= 1000); TEST_TRY_FUNC_CHECK(ABS((get_us_clock_value() - t0) - 110000), <= 1000); /* this one should call SetHPTimerNextTick in the CBR */ timer_func = 0; TEST_TRY_FUNC_CHECK(SetHPTimerAfterNow(90000, next_tick_cbr, overrun_cbr, 0), % 2 == 0); TEST_TRY_VOID(msleep(80)); TEST_TRY_FUNC_CHECK(timer_func, == 0); /* ta0 + 190000 => CBR should not be called yet */ TEST_TRY_VOID(msleep(20)); TEST_TRY_FUNC_CHECK(timer_func, == 3); /* ta0 + 210000 => next_tick_cbr should be called by now */ /* and it will setup timer_cbr via SetHPTimerNextTick */ TEST_TRY_VOID(msleep(80)); TEST_TRY_FUNC_CHECK(timer_func, == 3); /* ta0 + 290000 => timer_cbr should not be called yet */ TEST_TRY_VOID(msleep(20)); TEST_TRY_FUNC_CHECK(timer_func, == 1); /* ta0 + 310000 => timer_cbr should be called by now */ TEST_TRY_FUNC_CHECK(ABS(DeltaT(timer_time, t0) - 300000), <= 1000); TEST_TRY_FUNC_CHECK(ABS(DeltaT(timer_arg, ta0) - 300000), <= 1000); TEST_TRY_FUNC_CHECK(ABS((get_us_clock_value() - t0) - 310000), <= 1000); } /* CancelDateTimer - not sure how to test, so will check the stub directly */ extern thunk CancelDateTimer; TEST_TRY_FUNC_CHECK(MEM(&CancelDateTimer), == (int)0xe92d4010); /* push {r4, lr} on all cameras so far */ //~ char* CancelDateTimer_name = asm_guess_func_name_from_string((uint32_t)&CancelDateTimer); /* requires asm.o */ //~ TEST_TRY_FUNC_CHECK(streq(CancelDateTimer_name, "CancelDateTimer") || streq(CancelDateTimer_name, "StopDateTimer"), != 0); /* uncomment to test only the timers */ //~ continue; // strlen TEST_TRY_FUNC_CHECK(strlen("abc"), == 3); TEST_TRY_FUNC_CHECK(strlen("qwertyuiop"), == 10); TEST_TRY_FUNC_CHECK(strlen(""), == 0); // strcpy char msg[10]; TEST_TRY_FUNC_CHECK(strcpy(msg, "hi there"), == (int)msg); TEST_TRY_FUNC_CHECK_STR(msg, "hi there"); // strcmp, snprintf // gcc will optimize strcmp calls with constant arguments, so use snprintf to force gcc to call strcmp char a[50]; char b[50]; TEST_TRY_FUNC_CHECK(snprintf(a, sizeof(a), "foo"), == 3); TEST_TRY_FUNC_CHECK(snprintf(b, sizeof(b), "foo"), == 3); TEST_TRY_FUNC_CHECK(strcmp(a, b), == 0); TEST_TRY_FUNC_CHECK(snprintf(a, sizeof(a), "bar"), == 3); TEST_TRY_FUNC_CHECK(snprintf(b, sizeof(b), "baz"), == 3); TEST_TRY_FUNC_CHECK(strcmp(a, b), < 0); TEST_TRY_FUNC_CHECK(snprintf(a, sizeof(a), "Display"), == 7); TEST_TRY_FUNC_CHECK(snprintf(b, sizeof(b), "Defishing"), == 9); TEST_TRY_FUNC_CHECK(strcmp(a, b), > 0); // vsnprintf (called by snprintf) char buf[4]; TEST_TRY_FUNC_CHECK(snprintf(buf, 3, "%d", 1234), == 2); TEST_TRY_FUNC_CHECK_STR(buf, "12"); // memcpy, memset, bzero32 char foo[] __attribute__((aligned(32))) = "qwertyuiop"; char bar[] __attribute__((aligned(32))) = "asdfghjkl;"; TEST_TRY_FUNC_CHECK(memcpy(foo, bar, 6), == (int)foo); TEST_TRY_FUNC_CHECK_STR(foo, "asdfghuiop"); TEST_TRY_FUNC_CHECK(memset(bar, '*', 5), == (int)bar); TEST_TRY_FUNC_CHECK_STR(bar, "*****hjkl;"); TEST_TRY_VOID(bzero32(bar + 5, 5)); TEST_TRY_FUNC_CHECK_STR(bar, "****"); // digic clock, msleep int t0, t1; TEST_TRY_FUNC(t0 = *(uint32_t*)0xC0242014); TEST_TRY_VOID(msleep(250)); TEST_TRY_FUNC(t1 = *(uint32_t*)0xC0242014); TEST_TRY_FUNC_CHECK(ABS(MOD(t1-t0, 1048576)/1000 - 250), < 30); // calendar struct tm now; int s0, s1; TEST_TRY_VOID(LoadCalendarFromRTC( &now )); TEST_TRY_FUNC(s0 = now.tm_sec); TEST_MSG( " Date/time: %04d/%02d/%02d %02d:%02d:%02d\n", now.tm_year + 1900, now.tm_mon + 1, now.tm_mday, now.tm_hour, now.tm_min, now.tm_sec ); TEST_TRY_VOID(msleep(1500)); TEST_TRY_VOID(LoadCalendarFromRTC( &now )); TEST_TRY_FUNC(s1 = now.tm_sec); TEST_TRY_FUNC_CHECK(MOD(s1-s0, 60), >= 1); TEST_TRY_FUNC_CHECK(MOD(s1-s0, 60), <= 2); // mallocs // bypass the memory backend and use low-level calls only for these tests // run this test 200 times to check for memory leaks for (int i = 0; i < 200; i++) { int silence = (i > 0); int m0, m1, m2; void* p; TEST_TRY_FUNC(m0 = MALLOC_FREE_MEMORY); TEST_TRY_FUNC_CHECK(p = (void*)_malloc(50*1024), != 0); TEST_TRY_FUNC_CHECK(CACHEABLE(p), == (int)p); TEST_TRY_FUNC(m1 = MALLOC_FREE_MEMORY); TEST_TRY_VOID(_free(p)); TEST_TRY_FUNC(m2 = MALLOC_FREE_MEMORY); TEST_TRY_FUNC_CHECK(ABS((m0-m1) - 50*1024), < 2048); TEST_TRY_FUNC_CHECK(ABS(m0-m2), < 2048); TEST_TRY_FUNC(m0 = GetFreeMemForAllocateMemory()); TEST_TRY_FUNC_CHECK(p = (void*)_AllocateMemory(256*1024), != 0); TEST_TRY_FUNC_CHECK(CACHEABLE(p), == (int)p); TEST_TRY_FUNC(m1 = GetFreeMemForAllocateMemory()); TEST_TRY_VOID(_FreeMemory(p)); TEST_TRY_FUNC(m2 = GetFreeMemForAllocateMemory()); TEST_TRY_FUNC_CHECK(ABS((m0-m1) - 256*1024), < 2048); TEST_TRY_FUNC_CHECK(ABS(m0-m2), < 2048); // these buffers may be from different memory pools, just check for leaks in main pools int m01, m02, m11, m12; TEST_TRY_FUNC(m01 = MALLOC_FREE_MEMORY); TEST_TRY_FUNC(m02 = GetFreeMemForAllocateMemory()); TEST_TRY_FUNC_CHECK(p = (void*)_alloc_dma_memory(256*1024), != 0); TEST_TRY_FUNC_CHECK(UNCACHEABLE(p), == (int)p); TEST_TRY_FUNC_CHECK(CACHEABLE(p), != (int)p); TEST_TRY_FUNC_CHECK(UNCACHEABLE(CACHEABLE(p)), == (int)p); TEST_TRY_VOID(_free_dma_memory(p)); TEST_TRY_FUNC_CHECK(p = (void*)_shoot_malloc(24*1024*1024), != 0); TEST_TRY_FUNC_CHECK(UNCACHEABLE(p), == (int)p); TEST_TRY_VOID(_shoot_free(p)); TEST_TRY_FUNC(m11 = MALLOC_FREE_MEMORY); TEST_TRY_FUNC(m12 = GetFreeMemForAllocateMemory()); TEST_TRY_FUNC_CHECK(ABS(m01-m11), < 2048); TEST_TRY_FUNC_CHECK(ABS(m02-m12), < 2048); } // exmem // run this test 20 times to check for memory leaks for (int i = 0; i < 20; i++) { int silence = (i > 0); struct memSuite * suite = 0; struct memChunk * chunk = 0; void* p = 0; int total = 0; // contiguous allocation TEST_TRY_FUNC_CHECK(suite = shoot_malloc_suite_contig(24*1024*1024), != 0); TEST_TRY_FUNC_CHECK_STR(suite->signature, "MemSuite"); TEST_TRY_FUNC_CHECK(suite->num_chunks, == 1); TEST_TRY_FUNC_CHECK(suite->size, == 24*1024*1024); TEST_TRY_FUNC_CHECK(chunk = GetFirstChunkFromSuite(suite), != 0); TEST_TRY_FUNC_CHECK_STR(chunk->signature, "MemChunk"); TEST_TRY_FUNC_CHECK(chunk->size, == 24*1024*1024); TEST_TRY_FUNC_CHECK(p = GetMemoryAddressOfMemoryChunk(chunk), != 0); TEST_TRY_FUNC_CHECK(UNCACHEABLE(p), == (int)p); TEST_TRY_VOID(shoot_free_suite(suite); suite = 0; chunk = 0;); // contiguous allocation, largest block TEST_TRY_FUNC_CHECK(suite = shoot_malloc_suite_contig(0), != 0); TEST_TRY_FUNC_CHECK_STR(suite->signature, "MemSuite"); TEST_TRY_FUNC_CHECK(suite->num_chunks, == 1); TEST_TRY_FUNC_CHECK(suite->size, > 24*1024*1024); TEST_TRY_FUNC_CHECK(chunk = GetFirstChunkFromSuite(suite), != 0); TEST_TRY_FUNC_CHECK_STR(chunk->signature, "MemChunk"); TEST_TRY_FUNC_CHECK(chunk->size, == suite->size); TEST_TRY_FUNC_CHECK(p = GetMemoryAddressOfMemoryChunk(chunk), != 0); TEST_TRY_FUNC_CHECK(UNCACHEABLE(p), == (int)p); TEST_TRY_VOID(shoot_free_suite(suite); suite = 0; chunk = 0;); // fragmented allocation TEST_TRY_FUNC_CHECK(suite = shoot_malloc_suite(64*1024*1024), != 0); TEST_TRY_FUNC_CHECK_STR(suite->signature, "MemSuite"); TEST_TRY_FUNC_CHECK(suite->num_chunks, > 1); TEST_TRY_FUNC_CHECK(suite->size, == 64*1024*1024); // iterating through chunks total = 0; TEST_TRY_FUNC_CHECK(chunk = GetFirstChunkFromSuite(suite), != 0); while(chunk) { TEST_TRY_FUNC_CHECK_STR(chunk->signature, "MemChunk"); TEST_TRY_FUNC_CHECK(total += chunk->size, <= 64*1024*1024); TEST_TRY_FUNC_CHECK(p = GetMemoryAddressOfMemoryChunk(chunk), != 0); TEST_TRY_FUNC_CHECK(UNCACHEABLE(p), == (int)p); TEST_TRY_FUNC(chunk = GetNextMemoryChunk(suite, chunk)); } TEST_TRY_FUNC_CHECK(total, == 64*1024*1024); TEST_TRY_VOID(shoot_free_suite(suite); suite = 0; chunk = 0; ); // fragmented allocation, max size TEST_TRY_FUNC_CHECK(suite = shoot_malloc_suite(0), != 0); TEST_TRY_FUNC_CHECK_STR(suite->signature, "MemSuite"); TEST_TRY_FUNC_CHECK(suite->num_chunks, > 1); TEST_TRY_FUNC_CHECK(suite->size, > 64*1024*1024); // iterating through chunks total = 0; TEST_TRY_FUNC_CHECK(chunk = GetFirstChunkFromSuite(suite), != 0); while(chunk) { TEST_TRY_FUNC_CHECK_STR(chunk->signature, "MemChunk"); TEST_TRY_FUNC_CHECK(total += chunk->size, <= suite->size); TEST_TRY_FUNC_CHECK(p = GetMemoryAddressOfMemoryChunk(chunk), != 0); TEST_TRY_FUNC_CHECK(UNCACHEABLE(p), == (int)p); TEST_TRY_FUNC(chunk = GetNextMemoryChunk(suite, chunk)); } TEST_TRY_FUNC_CHECK(total, == suite->size); TEST_TRY_VOID(shoot_free_suite(suite); suite = 0; chunk = 0; ); } // engio TEST_TRY_VOID(EngDrvOut(LCD_Palette[0], 0x1234)); TEST_TRY_FUNC_CHECK(shamem_read(LCD_Palette[0]), == 0x1234); // call, DISPLAY_IS_ON TEST_TRY_VOID(call("TurnOnDisplay")); TEST_TRY_FUNC_CHECK(DISPLAY_IS_ON, != 0); TEST_TRY_VOID(call("TurnOffDisplay")); TEST_TRY_FUNC_CHECK(DISPLAY_IS_ON, == 0); TEST_TRY_VOID(call("TurnOnDisplay")); TEST_TRY_FUNC_CHECK(DISPLAY_IS_ON, != 0); // SetGUIRequestMode, CURRENT_DIALOG_MAYBE #ifdef GUIMODE_ML_MENU TEST_TRY_VOID(SetGUIRequestMode(1); msleep(1000);); TEST_TRY_FUNC_CHECK(CURRENT_DIALOG_MAYBE, == 1); TEST_TRY_VOID(SetGUIRequestMode(2); msleep(1000);); TEST_TRY_FUNC_CHECK(CURRENT_DIALOG_MAYBE, == 2); TEST_TRY_VOID(SetGUIRequestMode(0); msleep(1000);); TEST_TRY_FUNC_CHECK(CURRENT_DIALOG_MAYBE, == 0); TEST_TRY_FUNC_CHECK(display_idle(), != 0); #endif // GUI_Control TEST_TRY_VOID(GUI_Control(BGMT_PLAY, 0, 0, 0); msleep(500);); TEST_TRY_FUNC_CHECK(PLAY_MODE, != 0); TEST_TRY_FUNC_CHECK(MENU_MODE, == 0); TEST_TRY_VOID(GUI_Control(BGMT_MENU, 0, 0, 0); msleep(500);); TEST_TRY_FUNC_CHECK(MENU_MODE, != 0); TEST_TRY_FUNC_CHECK(PLAY_MODE, == 0); // also check DLG_SIGNATURE here, because display is on for sure struct gui_task * current = gui_task_list.current; struct dialog * dialog = current->priv; TEST_TRY_FUNC_CHECK(MEM(dialog->type), == DLG_SIGNATURE); TEST_TRY_VOID(GUI_Control(BGMT_MENU, 0, 0, 0); msleep(500);); TEST_TRY_FUNC_CHECK(MENU_MODE, == 0); TEST_TRY_FUNC_CHECK(PLAY_MODE, == 0); // task_create TEST_TRY_FUNC(task_create("test", 0x1c, 0x1000, test_task, 0)); msleep(100); TEST_TRY_FUNC_CHECK(test_task_created, == 1); TEST_TRY_FUNC_CHECK_STR(get_task_name_from_id(get_current_task()), "run_test"); // mq static struct msg_queue * mq = 0; int m = 0; uint32_t mqcount = 0; TEST_TRY_FUNC_CHECK(mq = mq ? mq : (void*)msg_queue_create("test", 2), != 0); /* queue with max. 2 items */ TEST_TRY_FUNC_CHECK(msg_queue_count(mq, &mqcount), + mqcount == 0); /* return value should be always 0 */ TEST_TRY_FUNC_CHECK(msg_queue_post(mq, 0x1234567), == 0); TEST_TRY_FUNC_CHECK(msg_queue_count(mq, &mqcount), + mqcount == 1); TEST_TRY_FUNC_CHECK(msg_queue_post(mq, 0xABCDEF0), == 0); TEST_TRY_FUNC_CHECK(msg_queue_count(mq, &mqcount), + mqcount == 2); TEST_TRY_FUNC_CHECK(msg_queue_post(mq, 0xBADCAFE), != 0); /* queue full, should return error */ TEST_TRY_FUNC_CHECK(msg_queue_count(mq, &mqcount), + mqcount == 2); TEST_TRY_FUNC_CHECK(msg_queue_receive(mq, (struct event **) &m, 500), == 0); TEST_TRY_FUNC_CHECK(msg_queue_count(mq, &mqcount), + mqcount == 1); TEST_TRY_FUNC_CHECK(m, == 0x1234567); TEST_TRY_FUNC_CHECK(msg_queue_receive(mq, (struct event **) &m, 500), == 0); TEST_TRY_FUNC_CHECK(msg_queue_count(mq, &mqcount), + mqcount == 0); TEST_TRY_FUNC_CHECK(m, == 0xABCDEF0); TEST_TRY_FUNC_CHECK(msg_queue_receive(mq, (struct event **) &m, 500), != 0); /* queue empty, should return error */ TEST_TRY_FUNC_CHECK(msg_queue_count(mq, &mqcount), + mqcount == 0); TEST_TRY_FUNC_CHECK(msg_queue_count((void*)1, &mqcount), != 0); /* invalid call, should return error */ // sem static struct semaphore * sem = 0; TEST_TRY_FUNC_CHECK(sem = sem ? sem : create_named_semaphore("test", 1), != 0); TEST_TRY_FUNC_CHECK(take_semaphore(sem, 500), == 0); TEST_TRY_FUNC_CHECK(take_semaphore(sem, 500), != 0); TEST_TRY_FUNC_CHECK(give_semaphore(sem), == 0); TEST_TRY_FUNC_CHECK(take_semaphore(sem, 500), == 0); TEST_TRY_FUNC_CHECK(give_semaphore(sem), == 0); // recursive lock static void * rlock = 0; TEST_TRY_FUNC_CHECK(rlock = rlock ? rlock : CreateRecursiveLock(0), != 0); TEST_TRY_FUNC_CHECK(AcquireRecursiveLock(rlock, 500), == 0); TEST_TRY_FUNC_CHECK(AcquireRecursiveLock(rlock, 500), == 0); TEST_TRY_FUNC_CHECK(ReleaseRecursiveLock(rlock), == 0); TEST_TRY_FUNC_CHECK(ReleaseRecursiveLock(rlock), == 0); TEST_TRY_FUNC_CHECK(ReleaseRecursiveLock(rlock), != 0); // sw1 TEST_TRY_VOID(SW1(1,100)); TEST_TRY_FUNC_CHECK(HALFSHUTTER_PRESSED, == 1); TEST_TRY_VOID(SW1(0,100)); TEST_TRY_FUNC_CHECK(HALFSHUTTER_PRESSED, == 0); beep(); } FILE* log = FIO_CreateFile( "stubtest.log" ); if (log) { FIO_WriteFile(log, log_buf, log_len); FIO_CloseFile(log); } fio_free(log_buf); printf( "=========================================================\n" "Test complete, %d passed, %d failed.\n.", passed_tests, failed_tests ); } #if defined(CONFIG_7D) static void rpc_test_task(void* unused) { uint32_t loops = 0; ml_rpc_verbose(1); while(1) { msleep(50); ml_rpc_send(ML_RPC_PING, *(volatile uint32_t *)0xC0242014, 0, 0, 1); loops++; } ml_rpc_verbose(0); } #endif static void stress_test_task(void* unused) { NotifyBox(10000, "Stability Test..."); msleep(2000); msleep(2000); #ifndef CONFIG_50D // taking pics while REC crashes with Canon firmware too #ifndef CONFIG_5DC // no movie mode :) ensure_movie_mode(); msleep(1000); for (int i = 0; i <= 5; i++) { NotifyBox(1000, "Pics while recording: %d", i); movie_start(); msleep(1000); lens_take_picture(64, 0); msleep(1000); lens_take_picture(64, 0); msleep(1000); lens_take_picture(64, 0); while (lens_info.job_state) msleep(100); while (!lv) msleep(100); msleep(1000); movie_end(); msleep(2000); } #endif #endif msleep(2000); extern struct semaphore * gui_sem; msleep(2000); for (int i = 0; i <= 1000; i++) { NotifyBox(1000, "ML menu toggle: %d", i); if (i == 250) { msleep(2000); gui_stop_menu(); msleep(500); if (!lv) force_liveview(); } if (i == 500) { msleep(2000); gui_stop_menu(); msleep(500); ensure_movie_mode(); movie_start(); } if (i == 750) { msleep(2000); gui_stop_menu(); msleep(500); movie_end(); msleep(2000); fake_simple_button(BGMT_PLAY); msleep(1000); } give_semaphore(gui_sem); msleep(rand()%100); info_led_blink(1,50,50); } msleep(2000); gui_stop_menu(); msleep(1000); if (!lv) force_liveview(); msleep(2000); #ifndef CONFIG_5DC // no cropmarks implemented NotifyBox(1000, "Cropmarks preview..."); select_menu_by_name("Overlay", "Cropmarks"); give_semaphore( gui_sem ); msleep(500); menu_open_submenu(); msleep(100); for (int i = 0; i <= 100; i++) { fake_simple_button(BGMT_WHEEL_RIGHT); msleep(rand()%500); } gui_stop_menu(); msleep(2000); #endif NotifyBox(1000, "ML menu scroll..."); give_semaphore(gui_sem); msleep(1000); for (int i = 0; i <= 5000; i++) { static int dir = 0; switch(dir) { case 0: fake_simple_button(BGMT_WHEEL_LEFT); break; case 1: fake_simple_button(BGMT_WHEEL_RIGHT); break; case 2: fake_simple_button(BGMT_WHEEL_UP); break; case 3: fake_simple_button(BGMT_WHEEL_DOWN); break; case 4: fake_simple_button(BGMT_INFO); break; case 5: fake_simple_button(BGMT_MENU); break; //~ case 6: fake_simple_button(BGMT_PRESS_ZOOMIN_MAYBE); break; } dir = MOD(dir + rand()%3 - 1, 7); msleep(MIN_MSLEEP); } gui_stop_menu(); msleep(2000); #ifdef FEATURE_PLAY_COMPARE_IMAGES beep(); fake_simple_button(BGMT_PLAY); msleep(1000); for (int i = 0; i < 100; i++) { NotifyBox(1000, "PLAY: image compare: %d", i); playback_compare_images_task(1); } get_out_of_play_mode(500); msleep(2000); #endif #ifdef FEATURE_PLAY_EXPOSURE_FUSION fake_simple_button(BGMT_PLAY); msleep(1000); for (int i = 0; i < 10; i++) { NotifyBox(1000, "PLAY: exposure fusion: %d", i); expfuse_preview_update_task(1); } get_out_of_play_mode(500); msleep(2000); #endif fake_simple_button(BGMT_PLAY); msleep(1000); for (int i = 0; i < 50; i++) { NotifyBox(1000, "PLAY scrolling: %d", i); next_image_in_play_mode(1); } extern int timelapse_playback; timelapse_playback = 1; for (int i = 0; i < 50; i++) { NotifyBox(1000, "PLAY scrolling: %d", i+50); msleep(200); } timelapse_playback = 0; get_out_of_play_mode(500); msleep(2000); if (!lv) force_liveview(); #ifdef CONFIG_LIVEVIEW for (int i = 0; i <= 100; i++) { int r = rand()%3; set_lv_zoom(r == 0 ? 1 : r == 1 ? 5 : 10); NotifyBox(1000, "LV zoom test: %d", i); msleep(rand()%200); } set_lv_zoom(1); msleep(2000); #ifdef CONFIG_EXPSIM for (int i = 0; i <= 100; i++) { set_expsim(i%3); NotifyBox(1000, "ExpSim toggle: %d", i/10); msleep(rand()%100); } msleep(2000); #endif #ifdef FEATURE_EXPO_OVERRIDE for (int i = 0; i <= 100; i++) { bv_toggle(0, 1); NotifyBox(1000, "Exp.Override toggle: %d", i/10); msleep(rand()%100); } msleep(2000); #endif #endif /* for (int i = 0; i < 100; i++) { NotifyBox(1000, "Disabling Canon GUI (%d)...", i); canon_gui_disable(); msleep(rand()%300); canon_gui_enable(); msleep(rand()%300); } */ msleep(2000); NotifyBox(10000, "LCD backlight..."); int old_backlight_level = backlight_level; for (int i = 0; i < 5; i++) { for (int k = 1; k <= 7; k++) { set_backlight_level(k); msleep(50); } for (int k = 7; k >= 1; k--) { set_backlight_level(k); msleep(50); } } set_backlight_level(old_backlight_level); #ifndef CONFIG_5DC // no LV if (!lv) force_liveview(); for (int k = 0; k < 10; k++) { NotifyBox(1000, "LiveView / Playback (%d)...", k*10); fake_simple_button(BGMT_PLAY); msleep(rand() % 1000); SW1(1, rand()%100); SW1(0, rand()%100); msleep(rand() % 1000); } if (!lv) force_liveview(); msleep(2000); lens_set_rawiso(0); for (int k = 0; k < 5; k++) { NotifyBox(1000, "LiveView gain test: %d", k*20); for (int i = 0; i <= 16; i++) { set_display_gain_equiv(1<= 0; i--) { set_display_gain_equiv(1< 0 ? BGMT_WHEEL_RIGHT : BGMT_WHEEL_LEFT); msleep(200); for (int i = 0; i < ABS(dy); i++) fake_simple_button(dy > 0 ? BGMT_WHEEL_UP : BGMT_WHEEL_DOWN); msleep(200); fake_simple_button(BGMT_PRESS_SET); msleep(200); give_semaphore( gui_sem ); msleep(200); return; } static void stress_test_random_action() { switch (rand() % 50) { case 0: lens_take_picture(64, rand() % 2); return; case 1: fake_simple_button(BGMT_LV); return; case 2: fake_simple_button(BGMT_PLAY); return; case 3: fake_simple_button(BGMT_MENU); return; default: stress_test_toggle_random_menu_item(); } } static void stress_test_random_task(void* unused) { config_autosave = 0; // this will make many changes in menu, don't save them TASK_LOOP { stress_test_random_action(); //~ stress_test_toggle_menu_item("Play", "Zoom in PLAY mode"); msleep(rand() % 1000); } } /*static void stress_test_random_action_simple() { { switch (rand() % 4) { case 0: { stress_test_toggle_menu_item("Overlay", "Global Draw"); return; } case 1: fake_simple_button(BGMT_PLAY); return; case 2: fake_simple_button(BGMT_MENU); return; case 3: fake_simple_button(BGMT_INFO); return; } } } */ static void stress_test_menu_dlg_api_task(void* unused) { msleep(2000); info_led_blink(5,50,50); extern struct semaphore * gui_sem; TASK_LOOP { give_semaphore(gui_sem); msleep(20); } } static void excessive_redraws_task() { info_led_blink(5,50,1000); while(1) { if (gui_menu_shown()) menu_redraw(); else redraw(); msleep(10); } } static void bmp_fill_test_task() { msleep(2000); while(1) { int x1 = rand() % 720; int x2 = rand() % 720; int y1 = rand() % 480; int y2 = rand() % 480; int xm = MIN(x1,x2); int xM = MAX(x1,x2); int ym = MIN(y1,y2); int yM = MAX(y1,y2); int w = xM-xm; int h = yM-ym; int c = rand() % 255; bmp_fill(c, xm, ym, w, h); msleep(20); } } extern void menu_self_test(); #endif // CONFIG_STRESS_TEST #if CONFIG_DEBUGMSG static void dbg_draw_props(int changed); static unsigned dbg_last_changed_propindex = 0; void memfilt(void* m, void* M, int value) { int k = 0; bmp_printf(FONT_SMALL, 0, 0, "%8x", value); for (void* i = m; i < M; i ++) { if ((*(uint8_t*)i) == value) { int x = 10 + 4 * 22 * (k % 8); int y = 10 + 12 * (k / 8); bmp_printf(FONT_SMALL, x, y, "%8x", i); k = (k + 1) % 240; } } int x = 10 + 4 * 22 * (k % 8); int y = 10 + 12 * (k / 8); bmp_printf(FONT_SMALL, x, y, " "); } #endif static int screenshot_sec = 0; #ifdef CONFIG_HEXDUMP CONFIG_INT("hexdump", hexdump_addr, 0x24298); int hexdump_enabled = 0; static MENU_UPDATE_FUNC (hexdump_print_value_hex) { MENU_SET_VALUE("0x%x", MEMX(hexdump_addr) ); } static MENU_UPDATE_FUNC (hexdump_print_value_int32) { MENU_SET_VALUE( "%d", MEMX(hexdump_addr) ); } static MENU_UPDATE_FUNC (hexdump_print_value_int16) { int value = MEMX(hexdump_addr); MENU_SET_VALUE( "%d %d", value & 0xFFFF, (value>>16) & 0xFFFF ); } static MENU_UPDATE_FUNC (hexdump_print_value_int8) { int value = MEMX(hexdump_addr); MENU_SET_VALUE( "%d %d %d %d", (int8_t)( value & 0xFF), (int8_t)((value>>8 ) & 0xFF), (int8_t)((value>>16) & 0xFF), (int8_t)((value>>24) & 0xFF) ); } static MENU_UPDATE_FUNC (hexdump_print_value_str) { if (hexdump_addr & 0xF0000000) return; MENU_SET_VALUE( "%s", (char*)hexdump_addr ); } static void hexdump_toggle_value_int32(void * priv, int delta) { MEM(hexdump_addr) += delta; } static void hexdump_toggle_value_int16(void * priv, int delta) { (*(int16_t*)(hexdump_addr+2)) += delta; } int hexdump_prev = 0; void hexdump_back(void* priv, int dir) { hexdump_addr = hexdump_prev; } void hexdump_deref(void* priv, int dir) { if (dir < 0) hexdump_back(priv, dir); hexdump_prev = hexdump_addr; hexdump_addr = MEMX(hexdump_addr); } #endif static int crash_log_requested = 0; void request_crash_log(int type) { crash_log_requested = type; } static int core_dump_requested = 0; static int core_dump_req_from = 0; static int core_dump_req_size = 0; void request_core_dump(int from, int size) { core_dump_req_from = from; core_dump_req_size = size; core_dump_requested = 1; } extern int GetFreeMemForAllocateMemory(); #ifdef CONFIG_CRASH_LOG static void save_crash_log() { static char log_filename[100]; int log_number = 0; for (log_number = 0; log_number < 100; log_number++) { snprintf(log_filename, sizeof(log_filename), crash_log_requested == 1 ? "CRASH%02d.LOG" : "ASSERT%02d.LOG", log_number); uint32_t size; if( FIO_GetFileSize( log_filename, &size ) != 0 ) break; if (size == 0) break; } FILE* f = FIO_CreateFile(log_filename); if (f) { my_fprintf(f, "%s\n\n", get_assert_msg()); my_fprintf(f, "Magic Lantern version : %s\n" "Mercurial changeset : %s\n" "Built on %s by %s.\n", build_version, build_id, build_date, build_user); int M = GetFreeMemForAllocateMemory(); int m = MALLOC_FREE_MEMORY; my_fprintf(f, "Free Memory : %dK + %dK\n", m/1024, M/1024 ); FIO_CloseFile(f); } msleep(1000); if (crash_log_requested == 1) { NotifyBox(5000, "Crash detected - log file saved.\n" "Pls send CRASH%02d.LOG to ML devs.\n" "\n" "%s", log_number, get_assert_msg()); } else { printf("%s\n", get_assert_msg()); console_show(); } } static void crash_log_step() { static int dmlog_saved = 0; if (crash_log_requested) { //~ beep(); save_crash_log(); crash_log_requested = 0; msleep(2000); } if (core_dump_requested) { NotifyBox(100000, "Saving core dump, please wait...\n"); dump_seg((void*)core_dump_req_from, core_dump_req_from + core_dump_req_size, "COREDUMP.DAT"); NotifyBox(10000, "Pls send COREDUMP.DAT to ML devs.\n"); core_dump_requested = 0; } //~ bmp_printf(FONT_MED, 100, 100, "%x ", get_current_dialog_handler()); extern thunk ErrForCamera_handler; if (get_current_dialog_handler() == &ErrForCamera_handler) { if (!dmlog_saved) { beep(); NotifyBox(10000, "Saving debug log..."); call("dumpf"); } dmlog_saved = 1; } else dmlog_saved = 0; } #endif static void debug_loop_task( void* unused ) // screenshot, draw_prop { TASK_LOOP { #ifdef CONFIG_HEXDUMP if (hexdump_enabled) bmp_hexdump(FONT_SMALL, 0, 480-120, (void*) hexdump_addr, 32*10); #endif #ifdef FEATURE_SCREENSHOT if (screenshot_sec) { info_led_blink(1, 20, 1000-20-200); screenshot_sec--; if (!screenshot_sec) take_screenshot(SCREENSHOT_FILENAME_AUTO, SCREENSHOT_BMP | SCREENSHOT_YUV); } #endif #ifdef CONFIG_RESTORE_AFTER_FORMAT if (MENU_MODE) { HijackFormatDialogBox_main(); } #endif #if CONFIG_DEBUGMSG if (draw_prop) { dbg_draw_props(dbg_last_changed_propindex); continue; } #endif #ifdef CONFIG_CRASH_LOG crash_log_step(); #endif msleep(200); } } static void screenshot_start(void* priv, int delta) { screenshot_sec = 10; } static int draw_event = 0; #ifdef FEATURE_SHOW_IMAGE_BUFFERS_INFO static MENU_UPDATE_FUNC(image_buf_display) { MENU_SET_VALUE( "%dx%d, %dx%d", vram_lv.width, vram_lv.height, vram_hd.width, vram_hd.height ); } #endif #ifdef FEATURE_SHOW_SHUTTER_COUNT static MENU_UPDATE_FUNC(shuttercount_display) { MENU_SET_VALUE( "%dK = %d+%d", (shutter_count_plus_lv_actuations + 500) / 1000, shutter_count, shutter_count_plus_lv_actuations - shutter_count ); if (shutter_count_plus_lv_actuations > CANON_SHUTTER_RATING*2) { MENU_SET_WARNING(MENU_WARN_ADVICE, "Lets break Guiness World Records (rated lifespan %d).", CANON_SHUTTER_RATING); } else if (shutter_count_plus_lv_actuations > CANON_SHUTTER_RATING) { MENU_SET_WARNING(MENU_WARN_INFO, "Lifespans are for wimps (rated lifespan %d).", CANON_SHUTTER_RATING); } else if (shutter_count_plus_lv_actuations > CANON_SHUTTER_RATING/2) { MENU_SET_WARNING(MENU_WARN_INFO, "I hope I get to rated lifespan (rated lifespan %d).", CANON_SHUTTER_RATING); } else { MENU_SET_WARNING(MENU_WARN_INFO, "You may get around %d.", CANON_SHUTTER_RATING); } } #endif #ifdef FEATURE_SHOW_CMOS_TEMPERATURE #ifdef EFIC_CELSIUS #define FAHRENHEIT (EFIC_CELSIUS * 9 / 5 + 32) static MENU_UPDATE_FUNC(efictemp_display) { MENU_SET_VALUE( "%d C, %d F, %d raw", EFIC_CELSIUS, FAHRENHEIT, efic_temp ); } #else static MENU_UPDATE_FUNC(efictemp_display) { MENU_SET_VALUE( "%d raw (help needed)", efic_temp ); } #endif #endif #if 0 // CONFIG_5D2 static void ambient_display( void * priv, int x, int y, int selected ) { extern int lightsensor_raw_value; int ev = gain_to_ev_scaled(lightsensor_raw_value, 10); bmp_printf( selected ? MENU_FONT_SEL : MENU_FONT, x, y, "Ambient light: %d.%d EV", ev/10, ev%10 ); menu_draw_icon(x, y, MNI_ON, 0); } #endif #ifdef FEATURE_DEBUG_PROP_DISPLAY static CONFIG_INT("prop.i", prop_i, 0); static CONFIG_INT("prop.j", prop_j, 0); static CONFIG_INT("prop.k", prop_k, 0); static MENU_UPDATE_FUNC (prop_display) { unsigned prop = (prop_i << 24) | (prop_j << 16) | (prop_k); int* data = 0; size_t len = 0; int err = prop_get_value(prop, (void **) &data, &len); MENU_SET_VALUE( "%8x: %d: %x %x %x %x\n" "'%s' ", prop, len, len > 0x00 ? data[0] : 0, len > 0x04 ? data[1] : 0, len > 0x08 ? data[2] : 0, len > 0x0c ? data[3] : 0, strlen((const char *) data) < 100 ? (const char *) data : "" ); } void prop_dump() { FILE* f = FIO_CreateFile("ML/LOGS/PROP.LOG"); if (!f) { return; } FILE* g = FIO_CreateFile("ML/LOGS/PROP-STR.LOG"); if (!g) { FIO_CloseFile(f); return; } unsigned i, j, k; for( i=0 ; i<256 ; i++ ) { if (i > 0x10 && i != 0x80) continue; for( j=0 ; j<=0xA ; j++ ) { for( k=0 ; k<0x50 ; k++ ) { unsigned prop = 0 | (i << 24) | (j << 16) | (k << 0); bmp_printf(FONT_LARGE, 0, 0, "PROP %x...", prop); int* data = 0; size_t len = 0; int err = prop_get_value(prop, (void **) &data, &len); if (!err) { my_fprintf(f, "\nPROP %8x: %5d:", prop, len ); my_fprintf(g, "\nPROP %8x: %5d:", prop, len ); for (unsigned int i = 0; i < (MIN(len,40)+3)/4; i++) { my_fprintf(f, "%8x ", data[i]); } if (strlen((const char *) data) < 100) my_fprintf(g, "'%s'", data); } } } } FIO_CloseFile(f); FIO_CloseFile(g); beep(); redraw(); } static void prop_toggle_i(void* priv, int unused) {prop_i = prop_i < 5 ? prop_i + 1 : prop_i == 5 ? 0xE : prop_i == 0xE ? 0x80 : 0; } static void prop_toggle_j(void* priv, int unused) {prop_j = MOD(prop_j + 1, 0x10); } static void prop_toggle_k(void* priv, int dir) {if (dir < 0) prop_toggle_j(priv, dir); prop_k = MOD(prop_k + 1, 0x51); } #endif #ifdef CONFIG_KILL_FLICKER void menu_kill_flicker() { gui_stop_menu(); canon_gui_disable_front_buffer(); } #endif #ifdef FEATURE_SHOW_EDMAC_INFO static int edmac_selection; static void edmac_display_page(int i0, int x0, int y0) { bmp_printf( FONT_MONO_20, x0, y0, "EDM# Address Size\n" ); y0 += fontspec_font(FONT_MONO_20)->height * 2; for (int i = 0; i < 16; i++) { char msg[100]; int ch = i0 + i; uint32_t addr = edmac_get_address(ch); union edmac_size_t { struct { short x, y; } size; uint32_t raw; }; union edmac_size_t size = (union edmac_size_t) edmac_get_length(ch); int state = edmac_get_state(ch); if (addr && size.size.x > 0 && size.size.y > 0) { snprintf(msg, sizeof(msg), "[%2d] %8x: %dx%d", ch, addr, size.size.x, size.size.y); } else { snprintf(msg, sizeof(msg), "[%2d] %8x: %x", ch, addr, size.raw); } if (state != 0 && state != 1) STR_APPEND(msg, " (%x)", state); uint32_t dir = edmac_get_dir(ch); uint32_t conn_w = edmac_get_connection(ch, EDMAC_DIR_WRITE); uint32_t conn_r = edmac_get_connection(ch, EDMAC_DIR_READ); if (conn_w != 0 && conn_r != 0xFF) { /* should be unreachable */ STR_APPEND(msg, " <%x,%x>", conn_w, conn_r); } else if (dir == EDMAC_DIR_WRITE) { if (conn_w == 0) { STR_APPEND(msg, " "); } else { STR_APPEND(msg, " ", conn_w); } } else if (dir == EDMAC_DIR_READ) { if (conn_r == 0xFF) { STR_APPEND(msg, " "); } else { STR_APPEND(msg, " ", conn_r); } } int color = conn_r != 0xFF && dir != EDMAC_DIR_READ ? COLOR_RED : /* seems used for read, but dir is not read? */ conn_w != 0 && dir != EDMAC_DIR_WRITE ? COLOR_RED : /* seems used for write, but dir is not write? */ dir == EDMAC_DIR_UNUSED ? COLOR_GRAY(20) : /* unused? */ state == 0 ? COLOR_GRAY(50) : /* inactive? */ state == 1 ? COLOR_GREEN1 : /* active? */ COLOR_RED ; /* no idea */ bmp_printf( FONT(FONT_MONO_20, color, COLOR_BLACK), x0, y0 + i * fontspec_font(FONT_MONO_20)->height, msg ); } } static void edmac_display_detailed(int channel) { uint32_t base = edmac_get_base(channel); int x = 50; int y = 50; bmp_printf( FONT_LARGE, x, y, "EDMAC #%d - %x\n", channel, base ); y += font_large.height; /* http://magiclantern.wikia.com/wiki/Register_Map#EDMAC */ uint32_t state = edmac_get_state(channel); uint32_t flags = edmac_get_flags(channel); uint32_t addr = edmac_get_address(channel); union edmac_size_t { struct { short x, y; } size; uint32_t raw; }; union edmac_size_t size_n = (union edmac_size_t) shamem_read(base + 0x0C); union edmac_size_t size_b = (union edmac_size_t) shamem_read(base + 0x10); union edmac_size_t size_a = (union edmac_size_t) shamem_read(base + 0x14); uint32_t off1b = shamem_read(base + 0x18); uint32_t off2b = shamem_read(base + 0x1C); uint32_t off1a = shamem_read(base + 0x20); uint32_t off2a = shamem_read(base + 0x24); uint32_t off3 = shamem_read(base + 0x28); uint32_t dir = edmac_get_dir(channel); char* dir_s = dir == EDMAC_DIR_READ ? "read" : dir == EDMAC_DIR_WRITE ? "write" : "unused?"; uint32_t conn_w = edmac_get_connection(channel, EDMAC_DIR_WRITE); uint32_t conn_r = edmac_get_connection(channel, EDMAC_DIR_READ); int fh = fontspec_font(FONT_MONO_20)->height; bmp_printf(FONT_MONO_20, 50, y += fh, "Address : %8x ", addr); bmp_printf(FONT_MONO_20, 50, y += fh, "State : %8x ", state); bmp_printf(FONT_MONO_20, 50, y += fh, "Flags : %8x ", flags); y += fh; bmp_printf(FONT_MONO_20, 50, y += fh, "Size A : %8x (%d x %d) ", size_a.raw, size_a.size.x, size_a.size.y); bmp_printf(FONT_MONO_20, 50, y += fh, "Size B : %8x (%d x %d) ", size_b.raw, size_b.size.x, size_b.size.y); bmp_printf(FONT_MONO_20, 50, y += fh, "Size N : %8x (%d x %d) ", size_n.raw, size_n.size.x, size_n.size.y); y += fh; bmp_printf(FONT_MONO_20, 50, y += fh, "off1a : %8x ", off1a); bmp_printf(FONT_MONO_20, 50, y += fh, "off1b : %8x ", off1b); bmp_printf(FONT_MONO_20, 50, y += fh, "off2a : %8x ", off2a); bmp_printf(FONT_MONO_20, 50, y += fh, "off2b : %8x ", off2b); bmp_printf(FONT_MONO_20, 50, y += fh, "off3 : %8x ", off3); y += fh; bmp_printf(FONT_MONO_20, 50, y += fh, "Connection : write=0x%x read=0x%x dir=%s", conn_w, conn_r, dir_s); #if defined(CONFIG_5D3) /** * ConnectReadEDmac(channel, conn) * RAM:edmac_register_interrupt(channel, cbr_handler, ...) * => *(8 + 32*arg0 + *0x12400) = arg1 * and also: *(12 + 32*arg0 + *0x12400) = arg1 */ uint32_t cbr1 = MEM(8 + 32*(channel) + MEM(0x12400)); uint32_t cbr2 = MEM(12 + 32*(channel) + MEM(0x12400)); bmp_printf(FONT_MONO_20, 50, y += fh, "CBR handler: %8x %s", cbr1, asm_guess_func_name_from_string(cbr1)); bmp_printf(FONT_MONO_20, 50, y += fh, "CBR abort : %8x %s", cbr2, asm_guess_func_name_from_string(cbr2)); #endif } static MENU_UPDATE_FUNC(edmac_display) { if (!info->can_custom_draw) return; info->custom_drawing = CUSTOM_DRAW_THIS_MENU; bmp_fill(COLOR_BLACK, 0, 0, 720, 480); if (edmac_selection == 0 || edmac_selection == 1) // overview { if (edmac_selection == 0) { edmac_display_page(0, 0, 30); edmac_display_page(16, 360, 30); } else { edmac_display_page(16, 0, 30); #ifdef CONFIG_DIGIC_V edmac_display_page(32, 360, 30); #endif } //~ int x = 20; bmp_printf( FONT_MONO_20, 20, 450, "EDMAC state: " ); bmp_printf( FONT(FONT_MONO_20, COLOR_GRAY(50), COLOR_BLACK), 20+200, 450, "inactive" ); bmp_printf( FONT(FONT_MONO_20, COLOR_GREEN1, COLOR_BLACK), 20+350, 450, "running" ); bmp_printf( FONT_MONO_20, 720 - fontspec_font(FONT_MONO_20)->width * 13, 450, "[Scrollwheel]" ); } else // detailed view { edmac_display_detailed(edmac_selection - 2); } } #endif extern void menu_open_submenu(); extern MENU_UPDATE_FUNC(tasks_print); extern MENU_UPDATE_FUNC(batt_display); extern MENU_SELECT_FUNC(tasks_toggle_flags); extern void peaking_benchmark(); extern void menu_benchmark(); extern int show_cpu_usage_flag; static struct menu_entry debug_menus[] = { MENU_PLACEHOLDER("File Manager"), #ifdef CONFIG_HEXDUMP { .name = "Memory Browser", .priv = &hexdump_enabled, .max = 1, .help = "Display memory contents in real-time (hexdump).", .children = (struct menu_entry[]) { { .name = "HexDump", .priv = &hexdump_addr, .max = 0x20000000, .unit = UNIT_HEX, .icon_type = IT_PERCENT, .help = "Address to be analyzed. Press Q to select the digit to edit." }, { .name = "Pointer dereference", .select = hexdump_deref, .help = "Changes address to *(int*)addr [SET] or goes back [PLAY]." }, { .name = "Val hex32", .update = hexdump_print_value_hex, .select = hexdump_toggle_value_int32, .help = "Value as hex." }, { .name = "Val int32", .update = hexdump_print_value_int32, .select = hexdump_toggle_value_int32, .help = "Value as int32." }, { .name = "Val int16", .update = hexdump_print_value_int16, .select = hexdump_toggle_value_int16, .help = "Value as 2 x int16. Toggle: changes second value." }, { .name = "Val int8", .update = hexdump_print_value_int8, .help = "Value as 4 x int8." }, { .name = "Val string", .update = hexdump_print_value_str, .help = "Value as string." }, MENU_EOL }, }, #endif /*{ .name = "Flashlight", .select = flashlight_lcd, .select_reverse = flashlight_frontled, .help = "Turn on the front LED [PLAY] or make display bright [SET]." },*/ #ifdef FEATURE_SCREENSHOT { .name = "Screenshot - 10s", .select = screenshot_start, .help = "Screenshot after 10 seconds => VRAMx.PPM.", .help2 = "The screenshot will contain BMP and YUV overlays." }, #endif /* { .name = "Menu screenshots", .select = (void (*)(void*,int))run_in_separate_task, .priv = screenshots_for_menu, .help = "Take a screenshot for each ML menu.", }, */ #if CONFIG_DEBUGMSG #if 0 { .name = "Draw palette", .select = bmp_draw_palette, .help = "Display a test pattern to see the color palette." }, #endif { .name = "Spy properties", .priv = &draw_prop, .max = 1, .help = "Show properties as they change." }, /* { .name = "Dialog test", .select = dlg_test, .help = "Dialog templates (up/dn) and color palettes (left/right)" },*/ #endif { .name = "Dump ROM and RAM", .priv = dump_rom_task, .select = run_in_separate_task, .help = "ROM0.BIN:F0000000, ROM1.BIN:F8000000, RAM4.BIN" }, { .name = "Dump image buffers", .priv = dump_img_task, .select = run_in_separate_task, .help = "Dump all image buffers (LV, HD, RAW) from current video mode." }, #ifdef FEATURE_DONT_CLICK_ME { .name = "Don't click me!", .priv = run_test, .select = run_in_separate_task, .help = "The camera may turn into a 1DX or it may explode." }, #endif #ifdef CONFIG_DEBUG_INTERCEPT { .name = "DM Log", .priv = j_debug_intercept, .select = run_in_separate_task, .help = "Log DebugMessages" }, { .name = "TryPostEvent Log", .priv = j_tp_intercept, .select = run_in_separate_task, .help = "Log TryPostEvents" }, #endif #ifdef CONFIG_STRESS_TEST { .name = "Burn-in tests", .select = menu_open_submenu, .help = "Tests to make sure Magic Lantern is stable and won't crash.", .submenu_width = 650, //.essential = FOR_MOVIE | FOR_PHOTO, .children = (struct menu_entry[]) { { .name = "Stubs API test", .select = run_in_separate_task, .priv = stub_test_task, .help = "Tests Canon functions called by ML. SET=once, PLAY=100x." }, #if defined(CONFIG_7D) { .name = "RPC reliability test (infinite)", .select = run_in_separate_task, .priv = rpc_test_task, .help = "Flood master with RPC requests and print delay. " }, #endif { .name = "Quick test (around 15 min)", .select = run_in_separate_task, .priv = stress_test_task, .help = "A quick test which covers basic functionality. " }, { .name = "Random tests (infinite loop)", .select = run_in_separate_task, .priv = stress_test_random_task, .help = "A thorough test which randomly enables functions from menu. " }, { .name = "Menu backend test (infinite)", .select = run_in_separate_task, .priv = stress_test_menu_dlg_api_task, .help = "Tests proper usage of Canon API calls in ML menu backend." }, { .name = "Redraw test (infinite)", .select = run_in_separate_task, .priv = excessive_redraws_task, .help = "Causes excessive redraws for testing the graphics backend", }, { .name = "Rectangle test (infinite)", .select = run_in_separate_task, .priv = bmp_fill_test_task, .help = "Stresses graphics bandwith. Run this while recording.", }, MENU_EOL, } }, #if 0 { .name = "Fault emulation...", .select = menu_open_submenu, .help = "Causes intentionally wrong behavior to see DryOS reaction.", //.essential = FOR_MOVIE | FOR_PHOTO, .children = (struct menu_entry[]) { { .name = "Create a stuck task", .select = run_in_separate_task, .priv = frozen_task, .help = "Creates a task which will become stuck in an infinite loop." }, { .name = "Freeze GUI task", .select = freeze_gui_task, .help = "Freezes main GUI task. Camera will stop reacting to buttons." }, { .name = "Division by zero", .select = run_in_separate_task, .priv = divzero_task, .help = "Performs some math operations which will divide by zero." }, { .name = "Allocate 1MB of RAM", .select = run_in_separate_task, .priv = alloc_1M_task, .help = "Allocates 1MB RAM from system memory, without freeing it." }, MENU_EOL, } }, #endif #endif #ifdef CONFIG_BENCHMARKS { .name = "Benchmarks", .select = menu_open_submenu, .help = "Check how fast is your camera. Card, CPU, graphics...", .submenu_width = 650, //.essential = FOR_MOVIE | FOR_PHOTO, .children = (struct menu_entry[]) { { .name = "Card R/W benchmark (5 min)", .select = run_in_separate_task, .priv = card_benchmark_task, .help = "Check card read/write speed. Uses a 1GB temporary file." }, { .name = "Card buffer benchmark (inf)", .select = run_in_separate_task, .priv = card_bufsize_benchmark_task, .help = "Experiment for finding optimal write buffer sizes.", .help2 = "Results saved in BENCH.LOG." }, #ifdef CONFIG_5D3 { .name = "CF+SD write benchmark (1 min)", .select = run_in_separate_task, .priv = twocard_benchmark_task, .help = "Write speed on both CF and SD cards at the same time." }, #endif { .name = "Memory benchmark (1 min)", .select = run_in_separate_task, .priv = mem_benchmark_task, .help = "Check memory read/write speed." }, #ifdef FEATURE_FOCUS_PEAK { .name = "Focus peaking benchmark (30s)", .select = run_in_separate_task, .priv = peaking_benchmark, .help = "Check how fast peaking runs in PLAY mode (1000 iterations)." }, #endif { .name = "Menu benchmark (10s)", .select = run_in_separate_task, .priv = menu_benchmark, .help = "Check speed of menu backend." }, MENU_EOL, } }, #endif MENU_PLACEHOLDER("Mem Protection"), // module mem_prot MENU_PLACEHOLDER("Show MRC regs"), // module mrc_dump #ifdef FEATURE_SHOW_TASKS { .name = "Show tasks", .select = menu_open_submenu, .help = "Displays the tasks started by Canon and Magic Lantern.", .children = (struct menu_entry[]) { { .name = "Task list", .update = tasks_print, .select = tasks_toggle_flags, #ifdef CONFIG_VXWORKS .help = "Task info: name, priority, stack memory usage.", #else .help = "Task info: ID, name, priority, wait_id, mem, state.", #endif }, MENU_EOL } }, #endif #ifdef FEATURE_SHOW_CPU_USAGE #ifdef CONFIG_TSKMON { .name = "Show CPU usage", .priv = &show_cpu_usage_flag, .max = 3, .choices = (const char *[]) {"OFF", "Percentage", "Busy tasks (ABS)", "Busy tasks (REL)"}, .help = "Display total CPU usage (percentage).", }, #endif #endif #ifdef FEATURE_SHOW_GUI_EVENTS { .name = "Show GUI evts", .priv = &draw_event, .max = 2, .choices = (const char *[]) {"OFF", "ON", "ON + delay 300ms"}, .help = "Display GUI events (button codes).", }, #endif #ifdef FEATURE_GUIMODE_TEST { .name = "Test GUI modes (DANGEROUS!!!)", .select = run_in_separate_task, .priv = guimode_test, .help = "Cycle through all GUI modes and take screenshots.", }, #endif #ifdef FEATURE_SHOW_EDMAC_INFO { .name = "Show EDMAC", .select = menu_open_submenu, .help = "Useful for finding image buffers.", .children = (struct menu_entry[]) { { .name = "EDMAC display", .priv = &edmac_selection, .max = 49, .update = edmac_display, }, MENU_EOL } }, #endif MENU_PLACEHOLDER("Free Memory"), #ifdef FEATURE_SHOW_IMAGE_BUFFERS_INFO { .name = "Image buffers", .update = image_buf_display, .icon_type = IT_ALWAYS_ON, .help = "Display the image buffer sizes (LiveView and Craw).", //.essential = 0, }, #endif #ifdef FEATURE_SHOW_SHUTTER_COUNT { .name = "Shutter Count", .update = shuttercount_display, .icon_type = IT_ALWAYS_ON, .help = "Number of pics taken + number of LiveView actuations", //.essential = FOR_MOVIE | FOR_PHOTO, }, #endif #ifdef FEATURE_SHOW_CMOS_TEMPERATURE { .name = "Internal Temp", .update = efictemp_display, .icon_type = IT_ALWAYS_ON, #ifdef EFIC_CELSIUS .help = "EFIC chip temperature (somewhere on the mainboard).", #else .help = "EFIC chip temperature (raw values).", .help2 = "http://www.magiclantern.fm/forum/index.php?topic=9673.0", #endif //.essential = FOR_MOVIE | FOR_PHOTO, }, #endif #if 0 // CONFIG_5D2 { .name = "Ambient light", //~.display = ambient_display, .help = "Ambient light from the sensor under LCD, in raw units.", //.essential = FOR_MOVIE | FOR_PHOTO, }, #endif #ifdef CONFIG_BATTERY_INFO { .name = "Battery level", .update = batt_display, .help = "Battery remaining. Wait for 2% discharge before reading.", .icon_type = IT_ALWAYS_ON, }, #endif #ifdef FEATURE_DEBUG_PROP_DISPLAY { .name = "PROP Display", .update = prop_display, .select = prop_toggle_k, // .select_reverse = prop_toggle_j, .select_Q = prop_toggle_i, .help = "Raw property display (read-only)", }, #endif }; #if CONFIG_DEBUGMSG static void * debug_token; static void debug_token_handler( void * token, void * arg1, void * arg2, void * arg3 ) { debug_token = token; DebugMsg( DM_MAGIC, 3, "token %08x arg=%08x %08x %08x", (unsigned) token, (unsigned) arg1, (unsigned) arg2, (unsigned) arg3 ); } //~ static int dbg_propn = 0; #define MAXPROP 30 static unsigned dbg_props[MAXPROP] = {0}; static unsigned dbg_props_len[MAXPROP] = {0}; static unsigned dbg_props_a[MAXPROP] = {0}; static unsigned dbg_props_b[MAXPROP] = {0}; static unsigned dbg_props_c[MAXPROP] = {0}; static unsigned dbg_props_d[MAXPROP] = {0}; static unsigned dbg_props_e[MAXPROP] = {0}; static unsigned dbg_props_f[MAXPROP] = {0}; static void dbg_draw_props(int changed) { dbg_last_changed_propindex = changed; int i; for (i = 0; i < dbg_propn; i++) { int x = 80; unsigned property = dbg_props[i]; unsigned len = dbg_props_len[i]; #ifdef CONFIG_VXWORKS uint32_t fnt = FONT_MONO_20; unsigned y = 15 + i * 20; #else uint32_t fnt = FONT_MONO_12; int y = 15 + i * 12; #endif if (i == changed) fnt = FONT(fnt, 5, COLOR_BG); char msg[100]; snprintf(msg, sizeof(msg), #ifdef CONFIG_VXWORKS "%08x %04x: %8lx %8lx %8lx %8lx", #else "%08x %04x: %8lx %8lx %8lx %8lx %8lx %8lx", #endif property, len, len > 0x00 ? dbg_props_a[i] : 0, len > 0x04 ? dbg_props_b[i] : 0, len > 0x08 ? dbg_props_c[i] : 0, len > 0x0c ? dbg_props_d[i] : 0 #ifndef CONFIG_VXWORKS ,len > 0x10 ? dbg_props_e[i] : 0, len > 0x14 ? dbg_props_f[i] : 0 #endif ); bmp_puts(fnt, &x, &y, msg); } } static void * debug_property_handler( unsigned property, void * UNUSED_ATTR( priv ), void * buf, unsigned len ) { const uint32_t * const addr = buf; /*printf("Prop %08x: %2x: %08x %08x %08x %08x\n", property, len, len > 0x00 ? addr[0] : 0, len > 0x04 ? addr[1] : 0, len > 0x08 ? addr[2] : 0, len > 0x0c ? addr[3] : 0 );*/ if( !draw_prop ) goto ack; // maybe the property is already in the array int i; for (i = 0; i < dbg_propn; i++) { if (dbg_props[i] == property) { dbg_props_len[i] = len; dbg_props_a[i] = addr[0]; dbg_props_b[i] = addr[1]; dbg_props_c[i] = addr[2]; dbg_props_d[i] = addr[3]; dbg_props_e[i] = addr[4]; dbg_props_f[i] = addr[5]; dbg_draw_props(i); goto ack; // return with cleanup } } // new property if (dbg_propn >= MAXPROP) dbg_propn = MAXPROP-1; // too much is bad :) dbg_props[dbg_propn] = property; dbg_props_len[dbg_propn] = len; dbg_props_a[dbg_propn] = addr[0]; dbg_props_b[dbg_propn] = addr[1]; dbg_props_c[dbg_propn] = addr[2]; dbg_props_d[dbg_propn] = addr[3]; dbg_props_e[dbg_propn] = addr[4]; dbg_props_f[dbg_propn] = addr[5]; dbg_propn++; dbg_draw_props(dbg_propn); ack: return (void*)_prop_cleanup( debug_token, property ); } #endif #if defined(CONFIG_500D) #define num_properties 2048 #elif defined(CONFIG_5DC) #define num_properties 202 #else #define num_properties 8192 #endif void debug_init( void ) { #if CONFIG_DEBUGMSG draw_prop = 0; static unsigned* property_list = 0; if (!property_list) property_list = malloc(num_properties * sizeof(unsigned)); if (!property_list) return; unsigned i, j, k; unsigned actual_num_properties = 0; unsigned is[] = {0x2, 0x80, 0xe, 0x5, 0x4, 0x1, 0x0}; for( i=0 ; i= num_properties ) goto thats_all; } } } thats_all: prop_register_slave( property_list, actual_num_properties, debug_property_handler, 0, 0 ); #endif } CONFIG_INT( "debug.timed-dump", timed_dump, 0 ); //~ CONFIG_INT( "debug.dump_prop", dump_prop, 0 ); //~ CONFIG_INT( "debug.dumpaddr", dump_addr, 0 ); //~ CONFIG_INT( "debug.dumplen", dump_len, 0 ); /* struct bmp_file_t * logo = (void*) -1; void load_logo() { if (logo == (void*) -1) logo = bmp_load("ML/DOC/logo.bmp",0); } void show_logo() { load_logo(); if ((int)logo > 0) { kill_flicker(); msleep(100); bmp_draw_scaled_ex(logo, 360 - logo->width/2, 240 - logo->height/2, logo->width, logo->height, 0, 0); } }*/ // initialization done AFTER reading the config file, // but BEFORE starting ML tasks void debug_init_stuff( void ) { //~ set_pic_quality(PICQ_RAW); #ifdef CONFIG_WB_WORKAROUND if (is_movie_mode()) { extern void restore_kelvin_wb(); /* movtweaks.c */ restore_kelvin_wb(); } #endif #ifdef CONFIG_5D3 _card_tweaks(); #endif } TASK_CREATE( "debug_task", debug_loop_task, 0, 0x1e, 0x2000 ); #ifdef CONFIG_INTERMEDIATE_ISO_INTERCEPT_SCROLLWHEEL #ifndef FEATURE_EXPO_ISO #error This requires FEATURE_EXPO_ISO. #endif int iso_intercept = 1; void iso_adj(int prev_iso, int sign) { if (sign) { lens_info.raw_iso = prev_iso; iso_intercept = 0; iso_toggle(0, sign); if (lens_info.iso > 6400) lens_set_rawiso(0); iso_intercept = 1; } } int iso_adj_flag = 0; int iso_adj_old = 0; int iso_adj_sign = 0; void iso_adj_task(void* unused) { TASK_LOOP { msleep(20); if (iso_adj_flag) { iso_adj_flag = 0; iso_adj(iso_adj_old, iso_adj_sign); lens_display_set_dirty(); } } } TASK_CREATE("iso_adj_task", iso_adj_task, 0, 0x1a, 0); PROP_HANDLER(PROP_ISO) { static unsigned int prev_iso = 0; if (!prev_iso) prev_iso = lens_info.raw_iso; if (iso_intercept && ISO_ADJUSTMENT_ACTIVE && lv && lv_disp_mode == 0 && is_movie_mode()) { if ((prev_iso && buf[0] && prev_iso < buf[0]) || // 100 -> 200 => + (prev_iso >= 112 && buf[0] == 0)) // 3200+ -> auto => + { //~ bmp_printf(FONT_LARGE, 50, 50, "[%d] ISO+", k++); iso_adj_old = prev_iso; iso_adj_sign = 1; iso_adj_flag = 1; } else if ((prev_iso && buf[0] && prev_iso > buf[0]) || // 200 -> 100 => - (prev_iso <= 88 && buf[0] == 0)) // 400- -> auto => - { //~ bmp_printf(FONT_LARGE, 50, 50, "[%d] ISO-", k++); iso_adj_old = prev_iso; iso_adj_sign = -1; iso_adj_flag = 1; } } prev_iso = buf[0]; } #endif #ifdef CONFIG_RESTORE_AFTER_FORMAT static int keep_ml_after_format = 1; static void HijackFormatDialogBox() { if (MEM(DIALOG_MnCardFormatBegin) == 0) return; struct gui_task * current = gui_task_list.current; struct dialog * dialog = current->priv; if (dialog && MEM(dialog->type) != DLG_SIGNATURE) return; if (keep_ml_after_format) dialog_set_property_str(dialog, 4, "Format card, keep ML " FORMAT_BTN_NAME); else dialog_set_property_str(dialog, 4, "Format card, remove ML " FORMAT_BTN_NAME); dialog_redraw(dialog); } static void HijackCurrentDialogBox(int string_id, char* msg) { struct gui_task * current = gui_task_list.current; struct dialog * dialog = current->priv; if (dialog && MEM(dialog->type) != DLG_SIGNATURE) return; dialog_set_property_str(dialog, string_id, msg); dialog_redraw(dialog); } int handle_keep_ml_after_format_toggle(struct event * event) { if (event->param == FORMAT_BTN && MENU_MODE && MEM(DIALOG_MnCardFormatBegin)) { keep_ml_after_format = !keep_ml_after_format; fake_simple_button(MLEV_HIJACK_FORMAT_DIALOG_BOX); return 0; } return 1; } /** * for testing dialogs and string IDs */ static void HijackDialogBox() { struct gui_task * current = gui_task_list.current; struct dialog * dialog = current->priv; if (dialog && MEM(dialog->type) != DLG_SIGNATURE) return; int i; for (i = 0; i<255; i++) { char s[30]; snprintf(s, sizeof(s), "%d", i); dialog_set_property_str(dialog, i, s); } dialog_redraw(dialog); } struct tmp_file { char name[50]; void* buf; int size; int sig; }; static struct tmp_file * tmp_files = 0; static int tmp_file_index = 0; static void* tmp_buffer = 0; static void* tmp_buffer_ptr = 0; #define TMP_MAX_BUF_SIZE 15000000 static int TmpMem_Init() { ASSERT(!tmp_buffer); ASSERT(!tmp_files); static int retries = 0; tmp_file_index = 0; if (!tmp_files) tmp_files = malloc(200 * sizeof(struct tmp_file)); if (!tmp_files) { retries++; HijackCurrentDialogBox(4, retries > 2 ? "Restart your camera (malloc error)." : "Format: malloc error :(" ); beep(); msleep(2000); return 0; } if (!tmp_buffer) tmp_buffer = (void*)fio_malloc(TMP_MAX_BUF_SIZE); if (!tmp_buffer) { retries++; HijackCurrentDialogBox(4, retries > 2 ? "Restart your camera (fio_malloc err)." : "Format: fio_malloc error, retrying..." ); beep(); msleep(2000); free(tmp_files); tmp_files = 0; return 0; } retries = 0; tmp_buffer_ptr = tmp_buffer; return 1; } static void TmpMem_Done() { free(tmp_files); tmp_files = 0; fio_free(tmp_buffer); tmp_buffer = 0; } static void TmpMem_UpdateSizeDisplay(int counting) { int size = tmp_buffer_ptr - tmp_buffer; int size_mb = size * 10 / 1024 / 1024; char msg[100]; snprintf(msg, sizeof(msg), "Format (ML size: %s%d.%d MB%s)", counting ? "> " : "", size_mb/10, size_mb%10, counting ? "..." : ""); HijackCurrentDialogBox(3, msg); } static void TmpMem_AddFile(char* filename) { if (!tmp_buffer) return; if (!tmp_buffer_ptr) return; int filesize = FIO_GetFileSize_direct(filename); if (filesize == -1) return; if (tmp_file_index >= 200) return; if (tmp_buffer_ptr + filesize + 10 >= tmp_buffer + TMP_MAX_BUF_SIZE) return; /* don't add the same file twice */ for (int i = 0; i < tmp_file_index; i++) if (streq(tmp_files[i].name, filename)) return; read_file(filename, tmp_buffer_ptr, filesize); snprintf(tmp_files[tmp_file_index].name, 50, "%s", filename); tmp_files[tmp_file_index].buf = tmp_buffer_ptr; tmp_files[tmp_file_index].size = filesize; tmp_files[tmp_file_index].sig = compute_signature(tmp_buffer_ptr, filesize/4); tmp_file_index++; tmp_buffer_ptr += ALIGN32SUP(filesize); /* no not update on every file, else it takes too long (90% of time updating display) */ static int aux = 0; if(should_run_polling_action(500, &aux)) { char msg[100]; snprintf(msg, sizeof(msg), "Reading %s...", filename, tmp_buffer_ptr); HijackCurrentDialogBox(4, msg); TmpMem_UpdateSizeDisplay(1); } } static void CopyMLDirectoryToRAM_BeforeFormat(char* dir, int (*is_valid_filename)(char*), int recursive_levels) { struct fio_file file; struct fio_dirent * dirent = FIO_FindFirstEx( dir, &file ); if( IS_ERROR(dirent) ) return; do { if (file.name[0] == '.' || file.name[0] == '_') continue; if (file.mode & ATTR_DIRECTORY) { if (recursive_levels > 0) { char new_dir[0x80]; snprintf(new_dir, sizeof(new_dir), "%s%s/", dir, file.name); CopyMLDirectoryToRAM_BeforeFormat(new_dir, is_valid_filename, recursive_levels-1); } continue; // is a directory } if (is_valid_filename && !is_valid_filename(file.name)) { continue; } char fn[0x80]; snprintf(fn, sizeof(fn), "%s%s", dir, file.name); TmpMem_AddFile(fn); } while( FIO_FindNextEx( dirent, &file ) == 0); FIO_FindClose(dirent); } static int is_valid_fir_filename(char* filename) { int n = strlen(filename); if ((n > 4) && (streq(filename + n - 4, ".FIR") || streq(filename + n - 4, ".fir"))) return 1; return 0; } static int is_valid_log_filename(char* filename) { int n = strlen(filename); if ((n > 4) && (streq(filename + n - 4, ".LOG") || streq(filename + n - 4, ".log"))) return 1; return 0; } static void CopyMLFilesToRAM_BeforeFormat() { /* this is the most important file, read it first */ TmpMem_AddFile("AUTOEXEC.BIN"); /* some important subdirectories from ML/ */ CopyMLDirectoryToRAM_BeforeFormat("ML/FONTS/", 0, 0); CopyMLDirectoryToRAM_BeforeFormat("ML/MODULES/", 0, 0); CopyMLDirectoryToRAM_BeforeFormat("ML/SETTINGS/", 0, 1); /* FIR files from root dir */ CopyMLDirectoryToRAM_BeforeFormat("", is_valid_fir_filename, 0); /* everything else from ML dir */ CopyMLDirectoryToRAM_BeforeFormat("ML/", 0, 2); /* and, if we still have free space, also keep the LOG files from root dir */ CopyMLDirectoryToRAM_BeforeFormat("", is_valid_log_filename, 0); /* restore Toshiba FlashAir files, if any */ /* (normally, formatting this card from camera disables wifi operation) */ /* (not sure which of those are strictly needed) */ CopyMLDirectoryToRAM_BeforeFormat("B:/SD_WLAN/", 0, 0); CopyMLDirectoryToRAM_BeforeFormat("B:/GUPIXINF/", 0, 1); TmpMem_AddFile("B:/DCIM/100__TSB/FA000001.JPG"); TmpMem_UpdateSizeDisplay(0); } // check if autoexec.bin is present on the card static int check_autoexec() { return is_file("AUTOEXEC.BIN"); } static void CopyMLFilesBack_AfterFormat() { int i; char msg[100]; int aux = 0; for (i = 0; i < tmp_file_index; i++) { if(should_run_polling_action(500, &aux)) { snprintf(msg, sizeof(msg), "Restoring %s...", tmp_files[i].name); HijackCurrentDialogBox(FORMAT_STR_LOC, msg); } dump_seg(tmp_files[i].buf, tmp_files[i].size, tmp_files[i].name); int sig = compute_signature(tmp_files[i].buf, tmp_files[i].size/4); if (sig != tmp_files[i].sig) { snprintf(msg, sizeof(msg), "Could not restore %s :(", tmp_files[i].name); HijackCurrentDialogBox(FORMAT_STR_LOC, msg); msleep(2000); FIO_RemoveFile(tmp_files[i].name); if (i <= 1) return; //else: if it copies AUTOEXEC.BIN and fonts, ignore the error, it's safe to run } } /* make sure we don't enable bootflag when there is no autoexec.bin (anymore) */ if(check_autoexec()) { HijackCurrentDialogBox(FORMAT_STR_LOC, "Writing bootflags..."); extern int bootflag_write_bootblock(void); if (!bootflag_write_bootblock()) { beep_times(3); NotifyBox(5000, "Bootflags not written, use EosCard"); } } HijackCurrentDialogBox(FORMAT_STR_LOC, "Magic Lantern restored :)"); msleep(1000); HijackCurrentDialogBox(FORMAT_STR_LOC, "Format"); } static void HijackFormatDialogBox_main() { if (!MENU_MODE) return; if (MEM(DIALOG_MnCardFormatBegin) == 0) return; // at this point, Format dialog box is active #ifdef CONFIG_DUAL_SLOT int ml_on_cf = (get_ml_card()->drive_letter[0] == 'A'); if (ml_on_cf != FORMATTING_CF_CARD) { /* we are not formatting the ML card, no need to restore anything */ return; } #endif // make sure we have something to restore :) if (!check_autoexec()) return; gui_uilock(UILOCK_EVERYTHING); while (!TmpMem_Init()) /* may fail because of not enough memory */ msleep(100); // before user attempts to do something, copy ML files to RAM CopyMLFilesToRAM_BeforeFormat(); gui_uilock(UILOCK_NONE); // all files copied, we can change the message in the format box and let the user know what's going on fake_simple_button(MLEV_HIJACK_FORMAT_DIALOG_BOX); // waiting to exit the format dialog somehow while (MEM(DIALOG_MnCardFormatBegin)) msleep(200); // and maybe to finish formatting the card while (MEM(DIALOG_MnCardFormatExecute)) msleep(50); // card was formatted (autoexec no longer there) => restore ML if (keep_ml_after_format && !check_autoexec()) { gui_uilock(UILOCK_EVERYTHING); CopyMLFilesBack_AfterFormat(); gui_uilock(UILOCK_NONE); } TmpMem_Done(); } #endif void debug_menu_init() { #ifdef FEATURE_LV_DISPLAY_PRESETS extern struct menu_entry livev_cfg_menus[]; menu_add( "Prefs", livev_cfg_menus, 1); #endif crop_factor_menu_init(); customize_menu_init(); menu_add( "Debug", debug_menus, COUNT(debug_menus) ); #ifdef FEATURE_SHOW_FREE_MEMORY mem_menu_init(); #endif movie_tweak_menu_init(); } void spy_event(struct event * event) { if (draw_event) { static int kev = 0; static int y = 250; kev++; bmp_printf(FONT_MONO_20, 0, y, "Ev%d: p=%8x *o=%8x/%8x/%8x a=%8x\n ", kev, event->param, event->obj ? ((int)event->obj & 0xf0000000 ? (int)event->obj : *(int*)(event->obj)) : 0, event->obj ? ((int)event->obj & 0xf0000000 ? (int)event->obj : *(int*)(event->obj + 4)) : 0, event->obj ? ((int)event->obj & 0xf0000000 ? (int)event->obj : *(int*)(event->obj + 8)) : 0, event->arg); y += 20; if (y > 350) y = 250; if (draw_event == 2) msleep(300); } } #ifdef CONFIG_5DC static int halfshutter_pressed; bool get_halfshutter_pressed() { return halfshutter_pressed; } #else bool get_halfshutter_pressed() { return HALFSHUTTER_PRESSED && !dofpreview; } #endif static int zoom_in_pressed = 0; static int zoom_out_pressed = 0; int get_zoom_out_pressed() { return zoom_out_pressed; } int handle_buttons_being_held(struct event * event) { // keep track of buttons being pressed #ifdef CONFIG_5DC if (event->param == BGMT_PRESS_HALFSHUTTER) halfshutter_pressed = 1; if (event->param == BGMT_UNPRESS_HALFSHUTTER) halfshutter_pressed = 0; #endif #ifdef BGMT_UNPRESS_ZOOMIN_MAYBE if (event->param == BGMT_PRESS_ZOOMIN_MAYBE) {zoom_in_pressed = 1; zoom_out_pressed = 0; } if (event->param == BGMT_UNPRESS_ZOOMIN_MAYBE) {zoom_in_pressed = 0; zoom_out_pressed = 0; } #endif #ifdef BGMT_PRESS_ZOOMOUT_MAYBE if (event->param == BGMT_PRESS_ZOOMOUT_MAYBE) { zoom_out_pressed = 1; zoom_in_pressed = 0; } if (event->param == BGMT_UNPRESS_ZOOMOUT_MAYBE) { zoom_out_pressed = 0; zoom_in_pressed = 0; } #endif (void)zoom_in_pressed; /* silence warning */ return 1; } // those functions seem not to be thread safe // calling them from gui_main_task seems to sync them with other Canon calls properly int handle_tricky_canon_calls(struct event * event) { // fake ML events are always negative numbers if (event->param >= 0) return 1; //~ static int k; k++; //~ bmp_printf(FONT_LARGE, 50, 50, "[%d] tricky call: %d ", k, event->param); msleep(1000); switch (event->param) { #ifdef CONFIG_RESTORE_AFTER_FORMAT case MLEV_HIJACK_FORMAT_DIALOG_BOX: HijackFormatDialogBox(); break; #endif case MLEV_TURN_ON_DISPLAY: if (!DISPLAY_IS_ON) call("TurnOnDisplay"); break; case MLEV_TURN_OFF_DISPLAY: if (DISPLAY_IS_ON) call("TurnOffDisplay"); break; /*case MLEV_ChangeHDMIOutputSizeToVGA: ChangeHDMIOutputSizeToVGA(); break;*/ case MLEV_LCD_SENSOR_START: #ifdef CONFIG_LCD_SENSOR DispSensorStart(); #endif break; case MLEV_REDRAW: _redraw_do(); /* todo: move in gui-common.c */ break; } return 1; } void display_on() { fake_simple_button(MLEV_TURN_ON_DISPLAY); } void display_off() { fake_simple_button(MLEV_TURN_OFF_DISPLAY); } // engio functions may fail and lock the camera void EngDrvOut(uint32_t reg, uint32_t value) { #ifdef CONFIG_QEMU if (!reg) return; /* fixme: LCD palette not initialized */ #endif if (ml_shutdown_requested) return; if (!(MEM(0xC0400008) & 0x2)) return; // this routine requires LCLK enabled _EngDrvOut(reg, value); }