Author Topic: Canon EOS 1300D / Rebel T6  (Read 137434 times)

Walter Schulz

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Re: Canon EOS 1300D / Rebel T6
« Reply #400 on: August 31, 2020, 04:09:03 PM »
ML project has no timeline, milestones to reach, release dates to match. None.
It's done by highly skilled people in their spare time stolen from family, friends and other hobbies.

critix

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Re: Canon EOS 1300D / Rebel T6
« Reply #401 on: September 02, 2020, 11:04:11 AM »
Ok, I did some tests with selftest and benchmark modules. The results are as follows:








The stubtest log is:
Code: [Select]
[Pass] is_play_mode() => 0x1
[INFO] Camera model: Canon EOS 1300D 1.1.0 (0x80000404 1300D)
[Pass] is_camera("DIGIC", "*") => 0x1
[Pass] is_camera(__camera_model_short, firmware_version) => 0x1
[Pass] src = fio_malloc(size) => 0x423880f0
[Pass] dst = fio_malloc(size) => 0x42b8c0fc
[Pass] memcmp(dst, src, 4097) => 0xffffff26
[Pass] edmac_memcpy(dst, src, 4097) => 0x42b8c0fc
[Pass] memcmp(dst, src, 4097) => 0x0
[Pass] edmac_memcpy(dst, src, 4097) => 0x42b8c0fc
[Pass] memcmp(dst, src, size) => 0xffffff12
[Pass] edmac_memcpy(dst, src, size) => 0x42b8c0fc
[Pass] memcmp(dst, src, size) => 0x0
[Pass] memcmp(dst, src, size) => 0xd6
[Pass] edmac_memcpy_start(dst, src, size) => 0x42b8c0fc
       dt => 0x0
[Pass] copied => 0x800000
[Pass] copied => 0x800000
[Pass] copied => 0x800000
[Pass] memcmp(dst, src, copied) => 0x0
[FAIL] memcmp(dst, src, copied + 16) => 0x0
       edmac_memcpy_finish()
       free(src)
       free(dst)
Cache test A (EDMAC on BMP buffer)...
[Pass] bmp = bmp_load("ML/CROPMKS/CINESCO2.BMP", 1) => 0xa1056c
[Pass] old => 0x0
[Pass] irq => 0xc0
[FAIL] differences => 0x0
[Pass] old => 0x0
[Pass] irq => 0xc0
[Pass] differences => 0x0
Cache test B (FIO on 8K buffer)...
[Pass] tries[0] => 0xf4
[Pass] tries[1] => 0x103
[Pass] tries[2] => 0x10e
[Pass] tries[3] => 0xe3
[FAIL] failr[0] => 0x0
[FAIL] failw[0] => 0x0
[FAIL] failr[1] => 0x0
[Pass] failw[1] => 0x0
[Pass] failr[2] => 0x0
[FAIL] failw[2] => 0x0
[Pass] failr[3] => 0x0
[Pass] failw[3] => 0x0
       times[0] / tries[0] => 0x4
       times[1] / tries[1] => 0x4
       times[2] / tries[2] => 0x4
       times[3] / tries[3] => 0x4
Cache tests finished.

[Pass] f = FIO_CreateFile("test.dat") => 0x3
[Pass] FIO_WriteFile(f, (void*)0xFF000000, 0x10000) => 0x10000
[Pass] FIO_WriteFile(f, (void*)0xFF000000, 0x10000) => 0x10000
       FIO_CloseFile(f)
[Pass] FIO_GetFileSize("test.dat", &size) => 0x0
[Pass] size => 0x20000
[Pass] p = (void*)_alloc_dma_memory(0x20000) => 0x40c18700
[Pass] f = FIO_OpenFile("test.dat", O_RDONLY | O_SYNC) => 0x3
[Pass] FIO_ReadFile(f, p, 0x20000) => 0x20000
       FIO_CloseFile(f)
       _free_dma_memory(p)
[Pass] count => 0x3a98
[Pass] buf = fio_malloc(0x1000000) => 0x423880f0
[FAIL] FIO_GetFileSize_direct("test.dat") => 0xcc34000
[Pass] f = FIO_OpenFile("test.dat", O_RDWR | O_SYNC) => 0x3
[FAIL] FIO_SeekSkipFile(f, 0, SEEK_END) => 0xcc34000
[FAIL] FIO_WriteFile(f, buf, 0x10) => 0xffffffff
[FAIL] FIO_SeekSkipFile(f, -0x20, SEEK_END) => 0xcc33fe0
[FAIL] FIO_WriteFile(f, buf, 0x30) => 0xffffffff
[Pass] FIO_SeekSkipFile(f, 0x20, SEEK_SET) => 0x20
[Pass] FIO_SeekSkipFile(f, 0x30, SEEK_CUR) => 0x50
[Pass] FIO_SeekSkipFile(f, -0x20, SEEK_CUR) => 0x30
[FAIL] FIO_GetFileSize_direct("test.dat") => 0xcc34000
[Pass] is_file("test.dat") => 0x1
[Pass] FIO_RemoveFile("test.dat") => 0x0
[Pass] is_file("test.dat") => 0x0
[Pass] SetTimerAfter(0, timer_cbr, overrun_cbr, 0) => 0x15
[Pass] timer_func => 0x2
[Pass] SetTimerAfter(1000, timer_cbr, overrun_cbr, 0) => 0x5b74
       msleep(900)
[Pass] timer_func => 0x0
       msleep(200)
[Pass] timer_func => 0x1
[FAIL] ABS((timer_time/1000 - t0) - 1000) => 0x15
[Pass] ABS((timer_arg - ta0) - 1000) => 0xa
[Pass] timer = SetTimerAfter(1000, timer_cbr, overrun_cbr, 0) => 0x5b9c
       msleep(400)
       CancelTimer(timer)
[Pass] timer_func => 0x0
       msleep(1500)
[Pass] timer_func => 0x0
[Pass] SetHPTimerAfterNow(0, timer_cbr, overrun_cbr, 0) => 0x15
[Pass] timer_func => 0x2
[Pass] SetHPTimerAfterNow(100000, timer_cbr, overrun_cbr, 0) => 0x3fc
       msleep(90)
[Pass] timer_func => 0x0
       msleep(20)
[Pass] timer_func => 0x1
[Pass] ABS(DeltaT(timer_time, t0) - 100000) => 0x260
[Pass] ABS(DeltaT(timer_arg, ta0) - 100000) => 0x200
[Pass] ABS((get_us_clock() - t0) - 110000) => 0xfffff850
[Pass] SetHPTimerAfterNow(90000, next_tick_cbr, overrun_cbr, 0) => 0x3fe
       msleep(80)
[Pass] timer_func => 0x0
       msleep(20)
[Pass] timer_func => 0x3
       msleep(80)
[Pass] timer_func => 0x3
       msleep(20)
[Pass] timer_func => 0x1
[Pass] ABS(DeltaT(timer_time, t0) - 300000) => 0x5e0
[Pass] ABS(DeltaT(timer_arg, ta0) - 300000) => 0x6b0
[Pass] ABS((get_us_clock() - t0) - 310000) => 0xffffe210
       t0 = GET_DIGIC_TIMER() => 0x35600
       msleep(250)
       t1 = GET_DIGIC_TIMER() => 0x6f900
[Pass] ABS(MOD(t1-t0, 1048576)/1000 - 250) => 0xc
       LoadCalendarFromRTC( &now )
       s0 = now.tm_sec => 0x0
       Date/time: 2017/09/30 15:15:00
       msleep(1500)
       LoadCalendarFromRTC( &now )
       s1 = now.tm_sec => 0x0
[FAIL] MOD(s1-s0, 60) => 0x0
[Pass] MOD(s1-s0, 60) => 0x0
       m0 = MALLOC_FREE_MEMORY => 0x40370
[Pass] p = (void*)_malloc(50*1024) => 0x1017a0
[Pass] CACHEABLE(p) => 0x1017a0
       m1 = MALLOC_FREE_MEMORY => 0x33b60
       _free(p)
       m2 = MALLOC_FREE_MEMORY => 0x40370
[Pass] ABS((m0-m1) - 50*1024) => 0x10
[Pass] ABS(m0-m2) => 0x0
       m0 = GetFreeMemForAllocateMemory() => 0x9cb74
[Pass] p = (void*)_AllocateMemory(128*1024) => 0xc186f0
[Pass] CACHEABLE(p) => 0xc186f0
       m1 = GetFreeMemForAllocateMemory() => 0x7cb68
       _FreeMemory(p)
       m2 = GetFreeMemForAllocateMemory() => 0x9cb74
[Pass] ABS((m0-m1) - 128*1024) => 0xc
[Pass] ABS(m0-m2) => 0x0
       m01 = MALLOC_FREE_MEMORY => 0x40370
       m02 = GetFreeMemForAllocateMemory() => 0x9cb74
[Pass] p = (void*)_alloc_dma_memory(128*1024) => 0x40c18700
[Pass] UNCACHEABLE(p) => 0x40c18700
[Pass] CACHEABLE(p) => 0xc18700
[Pass] UNCACHEABLE(CACHEABLE(p)) => 0x40c18700
       _free_dma_memory(p)
[Pass] p = (void*)_shoot_malloc(16*1024*1024) => 0x423880e0
[Pass] UNCACHEABLE(p) => 0x423880e0
       _shoot_free(p)
       m11 = MALLOC_FREE_MEMORY => 0x40370
       m12 = GetFreeMemForAllocateMemory() => 0x9cb74
[Pass] ABS(m01-m11) => 0x0
[Pass] ABS(m02-m12) => 0x0
[Pass] suite = shoot_malloc_suite_contig(16*1024*1024) => 0x1017a0
[Pass] suite->signature => 'MemSuite'
[Pass] suite->num_chunks => 0x1
[Pass] suite->size => 0x1000000
[Pass] chunk = GetFirstChunkFromSuite(suite) => 0x1017c8
[Pass] chunk->signature => 'MemChunk'
[Pass] chunk->size => 0x1000000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x423880dc
[Pass] UNCACHEABLE(p) => 0x423880dc
       shoot_free_suite(suite); suite = 0; chunk = 0;
[Pass] suite = shoot_malloc_suite_contig(0) => 0x1017a0
[Pass] suite->signature => 'MemSuite'
[Pass] suite->num_chunks => 0x1
[Pass] suite->size => 0x1f68000
[Pass] chunk = GetFirstChunkFromSuite(suite) => 0x1017c8
[Pass] chunk->signature => 'MemChunk'
[Pass] chunk->size => 0x1f68000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x4a000064
[Pass] UNCACHEABLE(p) => 0x4a000064
       largest_shoot_block = suite->size => 0x1f68000
[INFO] largest_shoot_block: 31MB
       shoot_free_suite(suite); suite = 0; chunk = 0;
[Pass] suite = shoot_malloc_suite(largest_shoot_block + 1024*1024) => 0x1017a0
[Pass] suite->signature => 'MemSuite'
[Pass] suite->num_chunks => 0x3
[Pass] suite->size => 0x2068000
[Pass] chunk = GetFirstChunkFromSuite(suite) => 0x1017c8
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x1c74000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x423880dc
[Pass] UNCACHEABLE(p) => 0x423880dc
       chunk = GetNextMemoryChunk(suite, chunk) => 0x101828
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x1d9c000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x42100064
[Pass] UNCACHEABLE(p) => 0x42100064
       chunk = GetNextMemoryChunk(suite, chunk) => 0x101860
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x2068000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x41878064
[Pass] UNCACHEABLE(p) => 0x41878064
       chunk = GetNextMemoryChunk(suite, chunk) => 0x0
[Pass] total => 0x2068000
       shoot_free_suite(suite); suite = 0; chunk = 0;
[Pass] suite = shoot_malloc_suite(0) => 0x1017a0
[Pass] suite->signature => 'MemSuite'
[Pass] suite->num_chunks => 0x4
[Pass] suite->size => 0x4300000
[Pass] chunk = GetFirstChunkFromSuite(suite) => 0x1017c8
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x1c74000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x423880dc
[Pass] UNCACHEABLE(p) => 0x423880dc
       chunk = GetNextMemoryChunk(suite, chunk) => 0x101828
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x1d9c000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x42100064
[Pass] UNCACHEABLE(p) => 0x42100064
       chunk = GetNextMemoryChunk(suite, chunk) => 0x101860
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x3d04000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x4a000064
[Pass] UNCACHEABLE(p) => 0x4a000064
       chunk = GetNextMemoryChunk(suite, chunk) => 0x101898
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x4300000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x41878064
[Pass] UNCACHEABLE(p) => 0x41878064
       chunk = GetNextMemoryChunk(suite, chunk) => 0x0
[Pass] total => 0x4300000
       shoot_free_suite(suite); suite = 0; chunk = 0;
[Pass] strlen("abc") => 0x3
[Pass] strlen("qwertyuiop") => 0xa
[Pass] strlen("") => 0x0
[Pass] strcpy(msg, "hi there") => 0x1ad7e4
[Pass] msg => 'hi there'
[Pass] snprintf(a, sizeof(a), "foo") => 0x3
[Pass] snprintf(b, sizeof(b), "foo") => 0x3
[Pass] strcmp(a, b) => 0x0
[Pass] snprintf(a, sizeof(a), "bar") => 0x3
[Pass] snprintf(b, sizeof(b), "baz") => 0x3
[Pass] strcmp(a, b) => 0xfffffff8
[Pass] snprintf(a, sizeof(a), "Display") => 0x7
[Pass] snprintf(b, sizeof(b), "Defishing") => 0x9
[Pass] strcmp(a, b) => 0x4
[FAIL] snprintf(buf, 3, "%d", 1234) => 0x4
[Pass] buf => '12'
[Pass] memcpy(foo, bar, 6) => 0x1ad880
[Pass] foo => 'asdfghuiop'
[Pass] memset(bar, '*', 5) => 0x1ad860
[Pass] bar => '*****hjkl;'
       bzero32(bar + 5, 5)
[FAIL] bar => '*****'
       EngDrvOut(LCD_Palette[0], 0x1234)
[Pass] shamem_read(LCD_Palette[0]) => 0x1234
       call("TurnOnDisplay")
[Pass] DISPLAY_IS_ON => 0x1
       call("TurnOffDisplay")
[Pass] DISPLAY_IS_ON => 0x0
       call("TurnOnDisplay")
[Pass] DISPLAY_IS_ON => 0x1
       task_create("test", 0x1c, 0x1000, test_task, 0) => 0x15ea00c8
[Pass] test_task_created => 0x1
[Pass] get_current_task_name() => 'run_test'
[FAIL] get_task_name_from_id(current_task->taskId) => '?'
[Pass] task_max => 0x88
[Pass] task_max => 0x88
[Pass] mq = mq ? mq : (void*)msg_queue_create("test", 5) => 0x15ec009c
[Pass] msg_queue_post(mq, 0x1234567) => 0x0
[Pass] msg_queue_receive(mq, (struct event **) &m, 500) => 0x0
[Pass] m => 0x1234567
[Pass] msg_queue_receive(mq, (struct event **) &m, 500) => 0x9
[Pass] sem = sem ? sem : create_named_semaphore("test", 1) => 0x15ee01c2
[Pass] take_semaphore(sem, 500) => 0x0
[Pass] take_semaphore(sem, 500) => 0x9
[Pass] give_semaphore(sem) => 0x0
[Pass] take_semaphore(sem, 500) => 0x0
[Pass] give_semaphore(sem) => 0x0
[Pass] rlock = rlock ? rlock : CreateRecursiveLock(0) => 0x15f000d8
[Pass] AcquireRecursiveLock(rlock, 500) => 0x0
[Pass] AcquireRecursiveLock(rlock, 500) => 0x0
[Pass] ReleaseRecursiveLock(rlock) => 0x0
[FAIL] ReleaseRecursiveLock(rlock) => 0x0
       SetGUIRequestMode(1); msleep(1000);
[Pass] CURRENT_GUI_MODE => 0x1
       SetGUIRequestMode(2); msleep(1000);
[Pass] CURRENT_GUI_MODE => 0x2
       SetGUIRequestMode(0); msleep(1000);
[Pass] CURRENT_GUI_MODE => 0x0
[FAIL] display_idle() => 0x0
       GUI_Control(BGMT_PLAY, 0, 0, 0); msleep(1000);
[Pass] PLAY_MODE => 0x1
[Pass] MENU_MODE => 0x0
       GUI_Control(BGMT_MENU, 0, 0, 0); msleep(1000);
[Pass] MENU_MODE => 0x1
[Pass] PLAY_MODE => 0x0
[Pass] dialog->type => 'DIALOG'
       GUI_Control(BGMT_MENU, 0, 0, 0); msleep(500);
[Pass] MENU_MODE => 0x0
[Pass] PLAY_MODE => 0x0
       SW1(1,100)
[FAIL] HALFSHUTTER_PRESSED => 0x0
       SW1(0,100)
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] is_play_mode() => 0x1
[FAIL] is_pure_play_photo_mode() => 0x0
[Pass] is_pure_play_movie_mode() => 0x0
[Pass] is_play_mode() => 0x1
[Pass] is_pure_play_photo_mode() => 0x0
[Pass] is_pure_play_movie_mode() => 0x0
[Pass] is_play_mode() => 0x1
[Pass] is_pure_play_photo_mode() => 0x0
[FAIL] is_pure_play_movie_mode() => 0x0
[Pass] is_play_mode() => 0x1
[Pass] is_pure_play_photo_mode() => 0x0
[Pass] is_pure_play_movie_mode() => 0x0
=========================================================
Test complete, 11499 passed, 22 failed.
.
Canon 1300D, 500D, EOS M, EOS M2

Walter Schulz

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Re: Canon EOS 1300D / Rebel T6
« Reply #402 on: September 02, 2020, 01:42:07 PM »
I saw such numbers in card benchmarks if card is full.

critix

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Re: Canon EOS 1300D / Rebel T6
« Reply #403 on: September 02, 2020, 02:09:53 PM »
Yes you are right...
OK, I did the card tests again, but this time I set sd.img default.
The results are:
Canon 1300D, 500D, EOS M, EOS M2