ML on EOS-M2

Started by Palpatine, September 22, 2015, 02:48:23 PM

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nikfreak

I remember this "dirty" pixels and this is what fixed it for me on early stages of 100D porting:

https://bitbucket.org/hudson/magic-lantern/pull-requests/757/adding-support-for-the-eos-100d-sl1/diff#Lsrc/bmp.cT81

Check bmp.c:

Quote.....// This fixes "dirty" LCD output for 100D
[size=8pt]70D.112 & 100D.101[/size]

dfort

Having one of those days. Realized that one of my files wasn't saved as I was cleaning up so I saved, recompiled and got a much smaller log in photo mode:

https://pastebin.com/3y5zcwRt

This was before your reply came in so I went ahead and did a second attempt turning off the bottom bar hack. Couldn't get into the ML menus in photo mode so I did this one in movie mode. Somewhat different but at least that error isn't showing up.

https://pastebin.com/w78M6RYH

Yeah, ouch. Thanks nikfreak - I remember seeing those pixels on DeafEyeJedi's camera with an early 100D build. Thanks for the tip.

a1ex


0.027.660         Evf:ff2c6f58:MMIO : [0xC0F06800] <- 0x00010013
0.027.661         Evf:ff2c6f58:MMIO : [0xC0F06804] <- 0x02D801D7


These values are OK, both set from engio_write. I could not find other instances. What happened to the shadow memory, then?!

Generally, ENGIO registers cannot be read back directly (with very few exceptions), so Canon code also writes their value into RAM (possibly to read them back later, or for debugging). On M2, this shadow memory is at 0x9696C -> 0x412a0000, and a register is written there like this:

*reg = value;
*(reg & 0x3FFFF | shadow_addr) = value;


In other words, the value written into register 0xC0F06800 would be also written to memory at 0x412a6800.

We've got a problem: 0x412a0000 & 0x3FFFF is not 0. The value written to 0xC0F26800 (EDMAC channel 0x18) will be also written to the same memory address, at 0x412a6800. When reading this back, we'll get whatever was written last (of these two registers).

It's the first model I'm aware of with this problem. 5D3 has the shadow memory at 0x29C04 -> 0x41700000. 700D: 0x31708 -> 0x41400000. For other models, the value can be found in gdb+qemu; I didn't even think about it until now, since it just worked.

Can these registers be read directly from hardware? (answer: no - they won't crash, but they will return just 0 or 1)

BTW, this probably means the ENGIO register range is from 0xC0F00000 to 0xC0F3FFFF ("only" 65536 registers?) and the other ranges are not meant to be written with these routines (engio_write / EngDrvOut). I should enforce this in the code.




Stack trace to see where this shadow memory is allocated:

0x35F20(6109f0 &"StageClass", 35f20, 19980218, 19980218)                         at [ShootCapture:ca14:19dfc8] (pc:sp)
0xFF0D38C0(406108e8 &"ShootCapture", 0, ff0c5724, 40000)                        at [ShootCapture:35f7c:19dfa0] (pc:sp)
  0x3637C(61096c &"StateObject", 406108e8 &"ShootCapture", 0, ff0c5724)          at [ShootCapture:ff0d38ec:19df88] (pc:sp)
   0x363B4(61096c &"StateObject", 406108e8 &"ShootCapture", 0, ff0c5724)         at [ShootCapture:363ac:19df78] (pc:sp)
    0xFF1567B4(406108e8 &"ShootCapture", ff0c5724, 40000, ff1567b4)              at [ShootCapture:36434:19df58] (pc:sp)
     0xFF23398C(412a0000, 44000, 1, ff1567b4)                                    at [ShootCapture:ff156810:19df20] (pc:sp)
      0xFF4ADB84(412a0000, 44000, 1, 0)                                          at [ShootCapture:ff2339cc:19dee0] (pc:sp)
       0xFF2C6BE8(412a0000, 44000, 1, 0)                                         at [ShootCapture:ff4adb8c:19ded8] (pc:sp)


Size appears hardcoded to 0x44000 (so, 412a0000 - 0x412e4000). Doesn't help much. Can be found on the RscMgr memory map as well:

ENGINE_MIRROR           0x412A0000 0x00044000 278528


We might be able to find another buffer for this.

dfort

Figures I'd pick the problem camera. Let me know what tests to run.

@nikfreak -- Your tip worked. No more dirty pixels!

a1ex

We have 3 ways to proceed:

1) hardcode the resolutions (and get bitten by this Canon bug in other parts of the code)
2) reallocate this buffer from somewhere else (where?)
3) patch ENGIO routines to use ADD instead of ORR, to make them able to work on unaligned buffers

I'd try the last route first. These addresses are:

FF2C6C40 (in EngDrvOut)
FF2C6CD8 (in EngDrvIn)
FF2C6D30 (in EngDrvBits)
FF2C6D3C not
FF2C6DA4 (in EngDrvOuts)
FF2C6F64 ORRNE (in engio_write)
FF2C6F94 (in EngDrvOut_mirror)
FF2C6FC4 (in EngDrvBits_mirror)
FF2C6FD0 not
FF2C6FF4 (in engio_memcpy_maybe)


Example:

FF2C6C40 02 00 80 E1                 ORR     R0, R0, R2


should be changed to:

FF2C6C40 02 00 80 E0                 ADD     R0, R0, R2


With the patch manager (patchmgr) merged:

patch_instruction(0xFF2C6C40, 0xE1800002, 0xE0800002, "engio");


The other instructions should be changed in the same way, and tested in QEMU first.

dfort

Merged patchmgr and created this block of code:

#if defined(CONFIG_EOSM2)
// patch ENGIO routines to use ADD instead of ORR, to make them able to work on unaligned buffers
// https://www.magiclantern.fm/forum/index.php?topic=15895.msg197682#msg197682
#include "patch.h" // if not already included
patch_instruction(0xFF2C6C40, 0xE1800002, 0xE0800002, "engio");
patch_instruction(0xFF2C6CD8, 0xE1800001, 0xE0800001, "engio");
patch_instruction(0xFF2C6D30, 0xE1822001, 0xE0822001, "engio");
patch_instruction(0xFF2C6D3C, 0xE1811005, 0xE0811005, "engio");
patch_instruction(0xFF2C6DA4, 0xE1807001, 0xE0807001, "engio");
patch_instruction(0xFF2C6F64, 0x1181100C, 0x1081100C, "engio");
patch_instruction(0xFF2C6F94, 0xE1800002, 0xE0800002, "engio");
patch_instruction(0xFF2C6FC4, 0xE1811002, 0xE0811002, "engio");
patch_instruction(0xFF2C6FD0, 0xE1822004, 0xE0822004, "engio");
patch_instruction(0xFF2C6FF4, 0xE1800003, 0xE0800003, "engio");
#endif


Not sure where this goes or if I did it right. If this is inserted in let's say lv-img-engio.c errors like this come up when compiling:

../../src/lv-img-engio.c:23:24: error: expected declaration specifiers or '...' before numeric constant
patch_instruction(0xFF2C6C40, 0xE1800002, 0xE0800002, "engio");
                  ^


Since this is a camera specific patch wouldn't it be best to figure out a way to put this in the platform/EOSM2.103 directory? This may be the first camera that requires such patching but maybe there will be others?

Speaking of checking this in QEMU, I still can't get into the ML menu. Has this been committed yet?

Quote from: a1ex on January 30, 2018, 09:25:12 PM
...that's the entire point of this patch, to allow you to open ML menu before entering LiveView (for example, while you are on Canon menu). Will commit it, as I don't expect LiveView emulation anytime soon.

a1ex

It probably needs to go in boot-hack.c before init_task - that way, it will affect all the ENGIO calls. However, for testing, you may want to try from "don't click me" first (it would take effect after a LiveView refresh). Might also work as an INIT_FUNC, though if these happen to run during LiveView, you may require to refresh LiveView before things start working.

Commit 90f702c (you have already used it).

dfort

Hum, that would be quite a senior moment if I already used it on the EOSM2. Those screenshots I posted were done in camera. In any case, I'm using it in QEMU now.



Problem is, in QEMU "Don't click me!" just goes to a grey screen. In fact almost anything will send QEMU into a grey screen and it refuses to come out of it.

So, let's brick a camera:



Just kidding, it worked perfectly. I'm still having problems figuring out exactly where to put this in boot-hack.c and how to code it. Seems this needs to be in a function to work? The way I listed it in Reply #280 doesn't cut the mustard.

dfort

Found a place to put the patch code:

boot-hack.c
    #elif defined(CONFIG_EOSM2)
    /* R0: 0x44C000 (start address, easier to patch, change to 0x4E0000 => reserve 592K for ML) */
    /* R1: 0xD3C000 [6D, 700D] / 0xC3C000 [100D] / 0xD6C000 [EOSM] / 0xC2A000 [EOSM2] (end address, unchanged) */
    addr_AllocMem_end[1] = MOV_R0_0x4E0000_INSTR;
    ml_reserved_mem = 0x4E0000 - RESTARTSTART;
    patch_instruction(0xFF2C6C40, 0xE1800002, 0xE0800002, "engio");
    patch_instruction(0xFF2C6CD8, 0xE1800001, 0xE0800001, "engio");
    patch_instruction(0xFF2C6D30, 0xE1822001, 0xE0822001, "engio");
    patch_instruction(0xFF2C6D3C, 0xE1811005, 0xE0811005, "engio");
    patch_instruction(0xFF2C6DA4, 0xE1807001, 0xE0807001, "engio");
    patch_instruction(0xFF2C6F64, 0x1181100C, 0x1081100C, "engio");
    patch_instruction(0xFF2C6F94, 0xE1800002, 0xE0800002, "engio");
    patch_instruction(0xFF2C6FC4, 0xE1811002, 0xE0811002, "engio");
    patch_instruction(0xFF2C6FD0, 0xE1822004, 0xE0822004, "engio");
    patch_instruction(0xFF2C6FF4, 0xE1800003, 0xE0800003, "engio");


Things that didn't work are starting to work now, but not enough to put up a build for testers. The LiveView screen keeps freezing, Global Draw overlays disappear when going into and out of ML menus, shooting a CR2 will still result in "Raw error, falling back to YUV overlays" and VU meters aren't working. There's probably more but you get the picture. Speaking of, silent picture is working -- sometimes. I didn't save any DNG's but as expected the focus pixels look pretty much like the 100D.

The EOSM2.103_wip branch has so many other branches merged into it that I'm thinking of making a clean start with the crop_rec_4k branch--or is crop_rec_4k_mlv_lite_snd the branch du jour? When I started this project I made a "fake" pull request to track the changes made to the unified branch and there may be too many changes to consider merging the EOSM2 into unified.

https://bitbucket.org/daniel_fort/magic-lantern/pull-requests/4/eosm2103-wip/diff

[EDIT] Here you go, a simple silent DNG using the default mv720 (5x3) raw buffer on the EOSM2 with a ton of focus pixels to deal with.



[EDIT2] Running selftest - API stubs test. Can't get through stub_test_malloc_n_allocmem, stub_test_exmem and consistently fails 4 times on these:

[FAIL] MENU_MODE => 0x0
[FAIL] PLAY_MODE => 0x1
[Pass] dialog->type => 'DIALOG'
       GUI_Control(BGMT_MENU, 0, 0, 0); msleep(500);
[Pass] MENU_MODE => 0x0
[FAIL] PLAY_MODE => 0x1
       SW1(1,100)
[Pass] HALFSHUTTER_PRESSED => 0x1
       SW1(0,100)
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] is_play_mode() => 0x1
[FAIL] is_pure_play_photo_mode() => 0x0


dfort

Started applying only the EOSM2 specific changes to the crop_rec_4k branch and already the Stubs API test from the selftest module is working better. At least it is getting through all of the tests and marking the problem areas:

[Pass] is_play_mode() => 0x1
[Pass] src = fio_malloc(size) => 0x4de1a084
[Pass] dst = fio_malloc(size) => 0x4e61e090
[Pass] memcmp(dst, src, 4097) => 0x10
[Pass] edmac_memcpy(dst, src, 4097) => 0x4e61e090
[Pass] memcmp(dst, src, 4097) => 0x0
[Pass] edmac_memcpy(dst, src, 4097) => 0x4e61e090
[Pass] memcmp(dst, src, size) => 0x84
[Pass] edmac_memcpy(dst, src, size) => 0x4e61e090
[Pass] memcmp(dst, src, size) => 0x0
[Pass] memcmp(dst, src, size) => 0x19
[Pass] edmac_memcpy_start(dst, src, size) => 0x4e61e090
       dt => 0x296f
[Pass] copied => 0x400b70
[Pass] copied => 0x400b70
[Pass] copied => 0x400b70
[Pass] memcmp(dst, src, copied) => 0x0
[Pass] memcmp(dst, src, copied + 16) => 0xfffffff3
       edmac_memcpy_finish()
       free(src)
       free(dst)
Cache test A (EDMAC on BMP buffer)...
[Pass] bmp = bmp_load("ML/CROPMKS/CINESCO2.BMP", 1) => 0xa9f4a4
[Pass] old => 0x0
[Pass] irq => 0xc0
[Pass] differences => 0x80f
[Pass] old => 0x0
[Pass] irq => 0xc0
[Pass] differences => 0x0
Cache test B (FIO on 8K buffer)...
[Pass] tries[0] => 0xef
[Pass] tries[1] => 0x103
[Pass] tries[2] => 0xfc
[Pass] tries[3] => 0xfa
[Pass] failr[0] => 0x47
[Pass] failw[0] => 0x88
[Pass] failr[1] => 0x4b
[Pass] failw[1] => 0x0
[Pass] failr[2] => 0x0
[Pass] failw[2] => 0x8c
[Pass] failr[3] => 0x0
[Pass] failw[3] => 0x0
       times[0] / tries[0] => 0x1d
       times[1] / tries[1] => 0x1f
       times[2] / tries[2] => 0x1e
       times[3] / tries[3] => 0x20
Cache tests finished.

[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x1
[Pass] lv_focus_status => 0x3
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x1
[Pass] lv_focus_status => 0x3
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x1
[Pass] lv_focus_status => 0x3
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x1
[Pass] lv_focus_status => 0x3
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x1
[Pass] lv_focus_status => 0x3
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x1
[Pass] lv_focus_status => 0x3
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x1
[Pass] lv_focus_status => 0x3
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x1
[Pass] lv_focus_status => 0x3
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x1
[Pass] lv_focus_status => 0x3
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x1
[Pass] lv_focus_status => 0x3
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x2
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x2
[Pass] f = FIO_CreateFile("test.dat") => 0x5
[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) => 0x40aa121c
[Pass] f = FIO_OpenFile("test.dat", O_RDONLY | O_SYNC) => 0x5
[Pass] FIO_ReadFile(f, p, 0x20000) => 0x20000
       FIO_CloseFile(f)
       _free_dma_memory(p)
[Pass] count => 0x3a98
[Pass] buf = fio_malloc(0x1000000) => 0x4de1a084
[Pass] FIO_GetFileSize_direct("test.dat") => 0x82000000
[Pass] f = FIO_OpenFile("test.dat", O_RDWR | O_SYNC) => 0x5
[Pass] FIO_SeekSkipFile(f, 0, SEEK_END) => 0x82000000
[Pass] FIO_WriteFile(f, buf, 0x10) => 0x10
[Pass] FIO_SeekSkipFile(f, -0x20, SEEK_END) => 0x81fffff0
[Pass] FIO_WriteFile(f, buf, 0x30) => 0x30
[Pass] FIO_SeekSkipFile(f, 0x20, SEEK_SET) => 0x20
[Pass] FIO_SeekSkipFile(f, 0x30, SEEK_CUR) => 0x50
[Pass] FIO_SeekSkipFile(f, -0x20, SEEK_CUR) => 0x30
[Pass] FIO_GetFileSize_direct("test.dat") => 0x82000020
[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) => 0x8c78
       msleep(900)
[Pass] timer_func => 0x0
       msleep(200)
[Pass] timer_func => 0x1
[Pass] ABS((timer_time/1000 - t0) - 1000) => 0x6
[Pass] ABS((timer_arg - ta0) - 1000) => 0xa
[Pass] timer = SetTimerAfter(1000, timer_cbr, overrun_cbr, 0) => 0x8ca6
       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) => 0x330dc
       msleep(90)
[Pass] timer_func => 0x0
       msleep(20)
[Pass] timer_func => 0x1
[Pass] ABS(DeltaT(timer_time, t0) - 100000) => 0x11a
[Pass] ABS(DeltaT(timer_arg, ta0) - 100000) => 0xff
[Pass] ABS((get_us_clock() - t0) - 110000) => 0x15b
[Pass] SetHPTimerAfterNow(90000, next_tick_cbr, overrun_cbr, 0) => 0x330de
       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) => 0x1ea
[Pass] ABS(DeltaT(timer_arg, ta0) - 300000) => 0x1d0
[Pass] ABS((get_us_clock() - t0) - 310000) => 0x145
       t0 = GET_DIGIC_TIMER() => 0x27d7f
       msleep(250)
       t1 = GET_DIGIC_TIMER() => 0x641e7
[Pass] ABS(MOD(t1-t0, 1048576)/1000 - 250) => 0x4
       LoadCalendarFromRTC( &now )
       s0 = now.tm_sec => 0x4
       Date/time: 2018/02/25 10:54:04
       msleep(1500)
       LoadCalendarFromRTC( &now )
       s1 = now.tm_sec => 0x6
[Pass] MOD(s1-s0, 60) => 0x2
[Pass] MOD(s1-s0, 60) => 0x2
       m0 = MALLOC_FREE_MEMORY => 0x60448
[Pass] p = (void*)_malloc(50*1024) => 0x11e768
[Pass] CACHEABLE(p) => 0x11e768
       m1 = MALLOC_FREE_MEMORY => 0x53c38
       _free(p)
       m2 = MALLOC_FREE_MEMORY => 0x60448
[Pass] ABS((m0-m1) - 50*1024) => 0x10
[Pass] ABS(m0-m2) => 0x0
       m0 = GetFreeMemForAllocateMemory() => 0x1ee0e8
[Pass] p = (void*)_AllocateMemory(128*1024) => 0xaa11dc
[Pass] CACHEABLE(p) => 0xaa11dc
       m1 = GetFreeMemForAllocateMemory() => 0x1ce0dc
       _FreeMemory(p)
       m2 = GetFreeMemForAllocateMemory() => 0x1ee0e8
[Pass] ABS((m0-m1) - 128*1024) => 0xc
[Pass] ABS(m0-m2) => 0x0
       m01 = MALLOC_FREE_MEMORY => 0x60448
       m02 = GetFreeMemForAllocateMemory() => 0x1ee0e8
[Pass] p = (void*)_alloc_dma_memory(128*1024) => 0x40aa121c
[Pass] UNCACHEABLE(p) => 0x40aa121c
[Pass] CACHEABLE(p) => 0xaa121c
[Pass] UNCACHEABLE(CACHEABLE(p)) => 0x40aa121c
       _free_dma_memory(p)
[Pass] p = (void*)_shoot_malloc(16*1024*1024) => 0x4de1a074
[Pass] UNCACHEABLE(p) => 0x4de1a074
       _shoot_free(p)
       m11 = MALLOC_FREE_MEMORY => 0x60448
       m12 = GetFreeMemForAllocateMemory() => 0x1ee0e8
[Pass] ABS(m01-m11) => 0x0
[Pass] ABS(m02-m12) => 0x0
[Pass] suite = shoot_malloc_suite_contig(16*1024*1024) => 0x102390
[Pass] suite->signature => 'MemSuite'
[Pass] suite->num_chunks => 0x1
[Pass] suite->size => 0x1000000
[Pass] chunk = GetFirstChunkFromSuite(suite) => 0x1023b8
[Pass] chunk->signature => 'MemChunk'
[Pass] chunk->size => 0x1000000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x4de1a070
[Pass] UNCACHEABLE(p) => 0x4de1a070
       shoot_free_suite(suite); suite = 0; chunk = 0;
[Pass] suite = shoot_malloc_suite_contig(0) => 0x102390
[Pass] suite->signature => 'MemSuite'
[Pass] suite->num_chunks => 0x1
[Pass] suite->size => 0x14b4000
[Pass] chunk = GetFirstChunkFromSuite(suite) => 0x1023b8
[Pass] chunk->signature => 'MemChunk'
[Pass] chunk->size => 0x14b4000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x4de1a070
[Pass] UNCACHEABLE(p) => 0x4de1a070
       largest_shoot_block = suite->size => 0x14b4000
[INFO] largest_shoot_block: 21MB
       shoot_free_suite(suite); suite = 0; chunk = 0;
[Pass] suite = shoot_malloc_suite(largest_shoot_block + 1024*1024) => 0x102390
[Pass] suite->signature => 'MemSuite'
[FAIL] suite->num_chunks => 0x1
[Pass] suite->size => 0x15b4000
[Pass] chunk = GetFirstChunkFromSuite(suite) => 0x1023b8
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x15b4000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x4de1a070
[Pass] UNCACHEABLE(p) => 0x4de1a070
       chunk = GetNextMemoryChunk(suite, chunk) => 0x0
[Pass] total => 0x15b4000
       shoot_free_suite(suite); suite = 0; chunk = 0;
[Pass] suite = shoot_malloc_suite(0) => 0x102390
[Pass] suite->signature => 'MemSuite'
[Pass] suite->num_chunks => 0x3
[Pass] suite->size => 0x1700000
[Pass] chunk = GetFirstChunkFromSuite(suite) => 0x1023b8
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x15b4000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x4de1a070
[Pass] UNCACHEABLE(p) => 0x4de1a070
       chunk = GetNextMemoryChunk(suite, chunk) => 0x1023f0
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x169c000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x4ae00064
[Pass] UNCACHEABLE(p) => 0x4ae00064
       chunk = GetNextMemoryChunk(suite, chunk) => 0x117458
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x1700000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x45f240e4
[Pass] UNCACHEABLE(p) => 0x45f240e4
       chunk = GetNextMemoryChunk(suite, chunk) => 0x0
[Pass] total => 0x1700000
       shoot_free_suite(suite); suite = 0; chunk = 0;
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[Pass] strlen("abc") => 0x3
[Pass] strlen("qwertyuiop") => 0xa
[Pass] strlen("") => 0x0
[Pass] strcpy(msg, "hi there") => 0x205a8c
[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
[Pass] snprintf(buf, 3, "%d", 1234) => 0x2
[Pass] buf => '12'
[Pass] memcpy(foo, bar, 6) => 0x205a60
[Pass] foo => 'asdfghuiop'
[Pass] memset(bar, '*', 5) => 0x205a40
[Pass] bar => '*****hjkl;'
       bzero32(bar + 5, 5)
[Pass] 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) => 0xdb2e00ea
[Pass] test_task_created => 0x1
[Pass] get_current_task_name() => 'run_test'
[Pass] get_task_name_from_id(current_task->taskId) => 'run_test'
[Pass] task_max => 0x84
[Pass] task_max => 0x84
[Pass] mq = mq ? mq : (void*)msg_queue_create("test", 5) => 0xdb3000ba
[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) => 0xdb320088
[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) => 0xdb3400fe
[Pass] AcquireRecursiveLock(rlock, 500) => 0x0
[Pass] AcquireRecursiveLock(rlock, 500) => 0x0
[Pass] ReleaseRecursiveLock(rlock) => 0x0
[Pass] ReleaseRecursiveLock(rlock) => 0x0
[Pass] ReleaseRecursiveLock(rlock) => 0xf
       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
[Pass] display_idle() => 0x1
       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);
[FAIL] MENU_MODE => 0x0
[FAIL] PLAY_MODE => 0x1
[Pass] dialog->type => 'DIALOG'
       GUI_Control(BGMT_MENU, 0, 0, 0); msleep(500);
[Pass] MENU_MODE => 0x0
[FAIL] PLAY_MODE => 0x1
       SW1(1,100)
[Pass] HALFSHUTTER_PRESSED => 0x1
       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
[Pass] is_pure_play_movie_mode() => 0x1
[Pass] is_play_mode() => 0x1
[Pass] is_pure_play_photo_mode() => 0x0
[Pass] is_pure_play_movie_mode() => 0x0
=========================================================
Test complete, 11366 passed, 24 failed.
.


LUA Script API Tests don't complete. Maybe there's a clue in here why?


===============================================================================
ML/SCRIPTS/API_TEST.LUA - 2018-2-25 11:18:02
===============================================================================

Strict mode tests...
Strict mode tests passed.

Generic tests...
arg = table:
  [0] = "API_TEST.LUA"
camera = table:
  shutter = table:
    raw = 96
    apex = 5.
    ms = 31
    value = 0.03125
  aperture = table:
    raw = 24
    apex = 2.
    value = 2.
    min = table:
      raw = 24
      apex = 2.
      value = 2.
    max = table:
      raw = 80
      apex = 9.
      value = 22.6
  iso = table:
    raw = 88
    apex = 7.
    value = 400
  ec = table:
    raw = 0
    value = 0
  flash_ec = table:
    raw = 0
    value = 0
  kelvin = 6500
  mode = 3
  metering_mode = 3
  drive_mode = 0
  model = "Canon EOS M2"
  model_short = "EOSM2"
  firmware = "1.0.3"
  temperature = 211
  gui = table:
    menu = false
    play = false
    play_photo = false
    play_movie = false
    qr = false
    idle = false
  bulb = function: p
  reboot = function: p
  burst = function: p
  wait = function: p
  shoot = function: p
event = table:
  pre_shoot = nil
  post_shoot = nil
  shoot_task = nil
  seconds_clock = nil
  keypress = nil
  custom_picture_taking = nil
  intervalometer = nil
  config_save = nil
console = table:
  hide = function: p
  show = function: p
  clear = function: p
  write = function: p
lv = table:
  enabled = true
  paused = false
  running = true
  zoom = 1
  overlays = false
  pause = function: p
  start = function: p
  resume = function: p
  info = function: p
  wait = function: p
  stop = function: p
lens = table:
  name = "EF-M22mm f/2 STM"
  focal_length = 22
  focus_distance = 210
  hyperfocal = 12780
  dof_near = 207
  dof_far = 212
  af = true
  af_mode = 0
  focus = function: p
  autofocus = function: p
display = table:
  idle = nil
  height = 480
  width = 720
  circle = function: p
  rect = function: p
  screenshot = function: p
  notify_box = function: p
  off = function: p
  draw = function: p
  line = function: p
  print = function: p
  on = function: p
  pixel = function: p
  clear = function: p
  load = function: p
key = table:
  last = 10
  press = function: p
  wait = function: p
menu = table:
  visible = false
  new = function: p
  close = function: p
  set = function: p
  block = function: p
  select = function: p
  open = function: p
  get = function: p
movie = table:
  recording = false
  start = function: p
  stop = function: p
dryos = table:
  clock = 76
  ms_clock = 76256
  image_prefix = "IMG_"
  dcim_dir = table:
    exists = true
    create = function: p
    children = function: p
    files = function: p
    parent = table:
      exists = true
      create = function: p
      children = function: p
      files = function: p
      parent = table:
        exists = true
        create = function: p
        children = function: p
        files = function: p
        parent = nil
        path = "B:/"
      path = "B:/DCIM/"
    path = "B:/DCIM/100CANON/"
  config_dir = table:
    exists = true
    create = function: p
    children = function: p
    files = function: p
    parent = table:
      exists = true
      create = function: p
      children = function: p
      files = function: p
      parent = table:
        exists = true
        create = function: p
        children = function: p
        files = function: p
        parent = nil
        path = "B:/"
      path = "ML/"
    path = "ML/SETTINGS/"
  ml_card = table:
    cluster_size = 32768
    drive_letter = "B"
    file_number = 7263
    folder_number = 100
    free_space = 31064288
    type = "SD"
    path = "B:/"
    _card_ptr = userdata
  shooting_card = table:
    cluster_size = 32768
    drive_letter = "B"
    file_number = 7263
    folder_number = 100
    free_space = 31064288
    type = "SD"
    path = "B:/"
    _card_ptr = userdata
  date = table:
    wday = 1
    day = 25
    min = 18
    hour = 11
    isdst = false
    sec = 3
    year = 2018
    yday = 56
    month = 2
  rename = function: p
  directory = function: p
  call = function: p
  remove = function: p
interval = table:
  time = 10
  count = 0
  running = false
  stop = function: p
battery = table:
function not available on this camera
stack traceback:
[C]: in ?
[C]: in for iterator 'for iterator'
ML/SCRIPTS/LIB/logger.lua:125: in function 'logger.serialize'
ML/SCRIPTS/API_TEST.LUA:36: in function <ML/SCRIPTS/API_TEST.LUA:35>
[C]: in function 'xpcall'
ML/SCRIPTS/API_TEST.LUA:35: in function 'print_table'
ML/SCRIPTS/API_TEST.LUA:81: in function 'generic_tests'
ML/SCRIPTS/API_TEST.LUA:1338: in function 'api_tests'
ML/SCRIPTS/API_TEST.LUA:1364: in main chunktask = table:
  yield = function: p
  create = function: p
property = table:
Generic tests completed.

Module tests...
Testing file I/O...
Copy test: autoexec.bin -> tmp.bin
Copy test OK
Append test: tmp.txt
Append test OK
Rename test: apple.txt -> banana.txt
Rename test OK
Rename test: apple.txt -> ML/banana.txt
Rename test OK
File I/O tests completed.

Testing Canon GUI functions...
Enter MENU mode...
Exit MENU mode...
Enter MENU mode...
Enter PLAY mode...
Enter MENU mode...
Exit MENU mode...
Enter MENU mode...
Exit MENU mode...
Pause LiveView...
Enter MENU mode...
Exit MENU mode...
Pause LiveView...
Resume LiveView...
Enter PLAY mode...
Enter MENU mode...
Enter PLAY mode...
Enter PLAY mode...
Enter PLAY mode...
Enter MENU mode...
Enter MENU mode...
Enter PLAY mode...
Enter PLAY mode...
Enter PLAY mode...
Enter PLAY mode...
Enter PLAY mode...
Enter PLAY mode...
Enter PLAY mode...
Exit PLAY mode...

dfort

Seems like everything about the EOSM2 is a bit quirky. For example, the crop_rec module is pretty much the same on all the APS-C Digic 5 cameras:

    else if (is_camera("EOSM", "2.0.2"))
    {
        CMOS_WRITE = 0x2998C;
        MEM_CMOS_WRITE = 0xE92D41F0;
       
        ADTG_WRITE = 0x2986C;
        MEM_ADTG_WRITE = 0xE92D43F8;


The CMOS_WRITE and ADTG_WRITE are easy to find in either the disassembly or the adtg_gui module code. The 100D/700D/EOSM all share the same MEM_CMOS_WRITE and MEM_ADTG_WRITE so I assumed the EOSM2 would follow suit--but you know what happens when you assume.

MEM_CMOS_WRITE looked just like the others - look at the green numbers at the bottom:



However, MEM_ADTG_WRITE is different:



So for the EOSM2, this is what works for the crop_rec module:

    else if (is_camera("EOSM2", "1.0.3"))
    {
        CMOS_WRITE = 0x432A4;
        MEM_CMOS_WRITE = 0xE92D41F0;
       
        ADTG_WRITE = 0x42E34;
        MEM_ADTG_WRITE = 0xE51F7224;


Haven't gotten mlv_lite/mlv_rec working yet but crop_rec works in H.264.



Just the basic 720p/60 3x3 video mode but that's all the original EOSM can do for now too.

dfort

More log files. This time I setup an EOSM alongside the EOSM2 running the crop_rec_4k branch. Although not much seems to be working properly on the EOSM2, these test results surprised me.

EOSM2 - selftest module STUBTEST.LOG
[Pass] is_play_mode() => 0x1
[Pass] src = fio_malloc(size) => 0x4de3609c
[Pass] dst = fio_malloc(size) => 0x4e63a0a8
[Pass] memcmp(dst, src, 4097) => 0xffffffd5
[Pass] edmac_memcpy(dst, src, 4097) => 0x4e63a0a8
[Pass] memcmp(dst, src, 4097) => 0x0
[Pass] edmac_memcpy(dst, src, 4097) => 0x4e63a0a8
[Pass] memcmp(dst, src, size) => 0x61
[Pass] edmac_memcpy(dst, src, size) => 0x4e63a0a8
[Pass] memcmp(dst, src, size) => 0x0
[Pass] memcmp(dst, src, size) => 0xffffffee
[Pass] edmac_memcpy_start(dst, src, size) => 0x4e63a0a8
       dt => 0x2946
[Pass] copied => 0x400358
[Pass] copied => 0x400358
[Pass] copied => 0x400358
[Pass] memcmp(dst, src, copied) => 0x0
[Pass] memcmp(dst, src, copied + 16) => 0xffffffe1
       edmac_memcpy_finish()
       free(src)
       free(dst)
Cache test A (EDMAC on BMP buffer)...
[Pass] bmp = bmp_load("ML/CROPMKS/CINESCO2.BMP", 1) => 0xaa0708
[Pass] old => 0x0
[Pass] irq => 0xc0
[Pass] differences => 0x7bf
[Pass] old => 0x0
[Pass] irq => 0xc0
[Pass] differences => 0x0
Cache test B (FIO on 8K buffer)...
[Pass] tries[0] => 0xe3
[Pass] tries[1] => 0xf5
[Pass] tries[2] => 0x109
[Pass] tries[3] => 0x107
[Pass] failr[0] => 0x44
[Pass] failw[0] => 0x8e
[Pass] failr[1] => 0x41
[Pass] failw[1] => 0x0
[Pass] failr[2] => 0x0
[Pass] failw[2] => 0xaa
[Pass] failr[3] => 0x0
[Pass] failw[3] => 0x0
       times[0] / tries[0] => 0x1e
       times[1] / tries[1] => 0x1d
       times[2] / tries[2] => 0x1e
       times[3] / tries[3] => 0x1e
Cache tests finished.

[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] f = FIO_CreateFile("test.dat") => 0x5
[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) => 0x40aa2480
[Pass] f = FIO_OpenFile("test.dat", O_RDONLY | O_SYNC) => 0x5
[Pass] FIO_ReadFile(f, p, 0x20000) => 0x20000
       FIO_CloseFile(f)
       _free_dma_memory(p)
[Pass] count => 0x3a98
[Pass] buf = fio_malloc(0x1000000) => 0x4de3609c
[Pass] FIO_GetFileSize_direct("test.dat") => 0x82000000
[Pass] f = FIO_OpenFile("test.dat", O_RDWR | O_SYNC) => 0x5
[Pass] FIO_SeekSkipFile(f, 0, SEEK_END) => 0x82000000
[Pass] FIO_WriteFile(f, buf, 0x10) => 0x10
[Pass] FIO_SeekSkipFile(f, -0x20, SEEK_END) => 0x81fffff0
[Pass] FIO_WriteFile(f, buf, 0x30) => 0x30
[Pass] FIO_SeekSkipFile(f, 0x20, SEEK_SET) => 0x20
[Pass] FIO_SeekSkipFile(f, 0x30, SEEK_CUR) => 0x50
[Pass] FIO_SeekSkipFile(f, -0x20, SEEK_CUR) => 0x30
[Pass] FIO_GetFileSize_direct("test.dat") => 0x82000020
[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) => 0x8738
       msleep(900)
[Pass] timer_func => 0x0
       msleep(200)
[Pass] timer_func => 0x1
[Pass] ABS((timer_time/1000 - t0) - 1000) => 0x2
[Pass] ABS((timer_arg - ta0) - 1000) => 0xa
[Pass] timer = SetTimerAfter(1000, timer_cbr, overrun_cbr, 0) => 0x875c
       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) => 0x31aae
       msleep(90)
[Pass] timer_func => 0x0
       msleep(20)
[Pass] timer_func => 0x1
[Pass] ABS(DeltaT(timer_time, t0) - 100000) => 0x117
[Pass] ABS(DeltaT(timer_arg, ta0) - 100000) => 0xf9
[Pass] ABS((get_us_clock() - t0) - 110000) => 0x29e
[Pass] SetHPTimerAfterNow(90000, next_tick_cbr, overrun_cbr, 0) => 0x31ab0
       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) => 0x32d
[Pass] ABS(DeltaT(timer_arg, ta0) - 300000) => 0x312
[Pass] ABS((get_us_clock() - t0) - 310000) => 0x285
       t0 = GET_DIGIC_TIMER() => 0xd4406
       msleep(250)
       t1 = GET_DIGIC_TIMER() => 0x106ac
[Pass] ABS(MOD(t1-t0, 1048576)/1000 - 250) => 0x4
       LoadCalendarFromRTC( &now )
       s0 = now.tm_sec => 0xa
       Date/time: 2018/02/27 02:57:10
       msleep(1500)
       LoadCalendarFromRTC( &now )
       s1 = now.tm_sec => 0xb
[Pass] MOD(s1-s0, 60) => 0x1
[Pass] MOD(s1-s0, 60) => 0x1
       m0 = MALLOC_FREE_MEMORY => 0x602f8
[Pass] p = (void*)_malloc(50*1024) => 0x11e798
[Pass] CACHEABLE(p) => 0x11e798
       m1 = MALLOC_FREE_MEMORY => 0x53ae8
       _free(p)
       m2 = MALLOC_FREE_MEMORY => 0x602f8
[Pass] ABS((m0-m1) - 50*1024) => 0x10
[Pass] ABS(m0-m2) => 0x0
       m0 = GetFreeMemForAllocateMemory() => 0x1edb64
[Pass] p = (void*)_AllocateMemory(128*1024) => 0xaa2440
[Pass] CACHEABLE(p) => 0xaa2440
       m1 = GetFreeMemForAllocateMemory() => 0x1cdb58
       _FreeMemory(p)
       m2 = GetFreeMemForAllocateMemory() => 0x1edb64
[Pass] ABS((m0-m1) - 128*1024) => 0xc
[Pass] ABS(m0-m2) => 0x0
       m01 = MALLOC_FREE_MEMORY => 0x602f8
       m02 = GetFreeMemForAllocateMemory() => 0x1edb64
[Pass] p = (void*)_alloc_dma_memory(128*1024) => 0x40aa2480
[Pass] UNCACHEABLE(p) => 0x40aa2480
[Pass] CACHEABLE(p) => 0xaa2480
[Pass] UNCACHEABLE(CACHEABLE(p)) => 0x40aa2480
       _free_dma_memory(p)
[Pass] p = (void*)_shoot_malloc(16*1024*1024) => 0x4de3608c
[Pass] UNCACHEABLE(p) => 0x4de3608c
       _shoot_free(p)
       m11 = MALLOC_FREE_MEMORY => 0x602f8
       m12 = GetFreeMemForAllocateMemory() => 0x1edb64
[Pass] ABS(m01-m11) => 0x0
[Pass] ABS(m02-m12) => 0x0
[Pass] suite = shoot_malloc_suite_contig(16*1024*1024) => 0x11e798
[Pass] suite->signature => 'MemSuite'
[Pass] suite->num_chunks => 0x1
[Pass] suite->size => 0x1000000
[Pass] chunk = GetFirstChunkFromSuite(suite) => 0x11e7c0
[Pass] chunk->signature => 'MemChunk'
[Pass] chunk->size => 0x1000000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x4de36088
[Pass] UNCACHEABLE(p) => 0x4de36088
       shoot_free_suite(suite); suite = 0; chunk = 0;
[Pass] suite = shoot_malloc_suite_contig(0) => 0x117380
[Pass] suite->signature => 'MemSuite'
[Pass] suite->num_chunks => 0x1
[Pass] suite->size => 0x1498000
[Pass] chunk = GetFirstChunkFromSuite(suite) => 0x1173a8
[Pass] chunk->signature => 'MemChunk'
[Pass] chunk->size => 0x1498000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x4de1a070
[Pass] UNCACHEABLE(p) => 0x4de1a070
       largest_shoot_block = suite->size => 0x1498000
[INFO] largest_shoot_block: 21MB
       shoot_free_suite(suite); suite = 0; chunk = 0;
[Pass] suite = shoot_malloc_suite(largest_shoot_block + 1024*1024) => 0x117380
[Pass] suite->signature => 'MemSuite'
[FAIL] suite->num_chunks => 0x1
[Pass] suite->size => 0x1598000
[Pass] chunk = GetFirstChunkFromSuite(suite) => 0x1173a8
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x1598000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x4de1a070
[Pass] UNCACHEABLE(p) => 0x4de1a070
       chunk = GetNextMemoryChunk(suite, chunk) => 0x0
[Pass] total => 0x1598000
       shoot_free_suite(suite); suite = 0; chunk = 0;
[Pass] suite = shoot_malloc_suite(0) => 0x117380
[Pass] suite->signature => 'MemSuite'
[Pass] suite->num_chunks => 0x3
[Pass] suite->size => 0x1700000
[Pass] chunk = GetFirstChunkFromSuite(suite) => 0x1173a8
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x15b4000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x4de1a070
[Pass] UNCACHEABLE(p) => 0x4de1a070
       chunk = GetNextMemoryChunk(suite, chunk) => 0x1173e0
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x169c000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x4ae00064
[Pass] UNCACHEABLE(p) => 0x4ae00064
       chunk = GetNextMemoryChunk(suite, chunk) => 0x117418
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x1700000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x45f240e4
[Pass] UNCACHEABLE(p) => 0x45f240e4
       chunk = GetNextMemoryChunk(suite, chunk) => 0x0
[Pass] total => 0x1700000
       shoot_free_suite(suite); suite = 0; chunk = 0;
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[Pass] strlen("abc") => 0x3
[Pass] strlen("qwertyuiop") => 0xa
[Pass] strlen("") => 0x0
[Pass] strcpy(msg, "hi there") => 0x233714
[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
[Pass] snprintf(buf, 3, "%d", 1234) => 0x2
[Pass] buf => '12'
[Pass] memcpy(foo, bar, 6) => 0x2336e0
[Pass] foo => 'asdfghuiop'
[Pass] memset(bar, '*', 5) => 0x2336c0
[Pass] bar => '*****hjkl;'
       bzero32(bar + 5, 5)
[Pass] 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) => 0xec2400ea
[Pass] test_task_created => 0x1
[Pass] get_current_task_name() => 'run_test'
[Pass] get_task_name_from_id(current_task->taskId) => 'run_test'
[Pass] task_max => 0x84
[Pass] task_max => 0x84
[Pass] mq = mq ? mq : (void*)msg_queue_create("test", 5) => 0xec2600ba
[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) => 0xec280252
[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) => 0xec2a004c
[Pass] AcquireRecursiveLock(rlock, 500) => 0x0
[Pass] AcquireRecursiveLock(rlock, 500) => 0x0
[Pass] ReleaseRecursiveLock(rlock) => 0x0
[Pass] ReleaseRecursiveLock(rlock) => 0x0
[Pass] ReleaseRecursiveLock(rlock) => 0xf
       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
[Pass] display_idle() => 0x1
       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);
[FAIL] MENU_MODE => 0x0
[FAIL] PLAY_MODE => 0x1
[Pass] dialog->type => 'DIALOG'
       GUI_Control(BGMT_MENU, 0, 0, 0); msleep(500);
[Pass] MENU_MODE => 0x0
[FAIL] PLAY_MODE => 0x1
       SW1(1,100)
[Pass] HALFSHUTTER_PRESSED => 0x1
       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
[Pass] is_pure_play_movie_mode() => 0x1
[Pass] is_play_mode() => 0x1
[Pass] is_pure_play_photo_mode() => 0x0
[Pass] is_pure_play_movie_mode() => 0x0
=========================================================
Test complete, 11346 passed, 44 failed.
.


EOSM - selftest module STUBTEST.LOG
[Pass] is_play_mode() => 0x1
[Pass] src = fio_malloc(size) => 0x4de1a084
[Pass] dst = fio_malloc(size) => 0x4e61e090
[Pass] memcmp(dst, src, 4097) => 0x75
[Pass] edmac_memcpy(dst, src, 4097) => 0x4e61e090
[Pass] memcmp(dst, src, 4097) => 0x0
[Pass] edmac_memcpy(dst, src, 4097) => 0x4e61e090
[Pass] memcmp(dst, src, size) => 0x63
[Pass] edmac_memcpy(dst, src, size) => 0x4e61e090
[Pass] memcmp(dst, src, size) => 0x0
[Pass] memcmp(dst, src, size) => 0x3e
[Pass] edmac_memcpy_start(dst, src, size) => 0x4e61e090
       dt => 0x294d
[Pass] copied => 0x400470
[Pass] copied => 0x400470
[Pass] copied => 0x400470
[Pass] memcmp(dst, src, copied) => 0x0
[Pass] memcmp(dst, src, copied + 16) => 0x17
       edmac_memcpy_finish()
       free(src)
       free(dst)
Cache test A (EDMAC on BMP buffer)...
[Pass] bmp = bmp_load("ML/CROPMKS/CINESCO2.BMP", 1) => 0x80ea18
[Pass] old => 0x0
[Pass] irq => 0xc0
[Pass] differences => 0xa00
[Pass] old => 0x0
[Pass] irq => 0xc0
[Pass] differences => 0x0
Cache test B (FIO on 8K buffer)...
[Pass] tries[0] => 0xfa
[Pass] tries[1] => 0xf9
[Pass] tries[2] => 0xfe
[Pass] tries[3] => 0xf7
[Pass] failr[0] => 0x72
[Pass] failw[0] => 0xe3
[Pass] failr[1] => 0x7b
[Pass] failw[1] => 0x0
[Pass] failr[2] => 0x0
[Pass] failw[2] => 0xe4
[Pass] failr[3] => 0x0
[Pass] failw[3] => 0x0
       times[0] / tries[0] => 0x1d
       times[1] / tries[1] => 0x1d
       times[2] / tries[2] => 0x1e
       times[3] / tries[3] => 0x1f
Cache tests finished.

[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x1
[FAIL] wait_focus_status(1000, 3) => 0x0
[FAIL] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] lv_focus_status => 0x1
[Pass] HALFSHUTTER_PRESSED => 0x1
[Pass] wait_focus_status(1000, 3) => 0x0
[Pass] HALFSHUTTER_PRESSED => 0x0
[Pass] lv_focus_status => 0x1
[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) => 0x40863270
[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) => 0x4de1a084
[Pass] FIO_GetFileSize_direct("test.dat") => 0x82000000
[Pass] f = FIO_OpenFile("test.dat", O_RDWR | O_SYNC) => 0x3
[Pass] FIO_SeekSkipFile(f, 0, SEEK_END) => 0x82000000
[Pass] FIO_WriteFile(f, buf, 0x10) => 0x10
[Pass] FIO_SeekSkipFile(f, -0x20, SEEK_END) => 0x81fffff0
[Pass] FIO_WriteFile(f, buf, 0x30) => 0x30
[Pass] FIO_SeekSkipFile(f, 0x20, SEEK_SET) => 0x20
[Pass] FIO_SeekSkipFile(f, 0x30, SEEK_CUR) => 0x50
[Pass] FIO_SeekSkipFile(f, -0x20, SEEK_CUR) => 0x30
[Pass] FIO_GetFileSize_direct("test.dat") => 0x82000020
[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) => 0xb51e
       msleep(900)
[Pass] timer_func => 0x0
       msleep(200)
[Pass] timer_func => 0x1
[Pass] ABS((timer_time/1000 - t0) - 1000) => 0xa
[Pass] ABS((timer_arg - ta0) - 1000) => 0x14
[Pass] timer = SetTimerAfter(1000, timer_cbr, overrun_cbr, 0) => 0xb58c
       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) => 0x32238
       msleep(90)
[Pass] timer_func => 0x0
       msleep(20)
[Pass] timer_func => 0x1
[Pass] ABS(DeltaT(timer_time, t0) - 100000) => 0x111
[Pass] ABS(DeltaT(timer_arg, ta0) - 100000) => 0xf0
[Pass] ABS((get_us_clock() - t0) - 110000) => 0xffffffd7
[Pass] SetHPTimerAfterNow(90000, next_tick_cbr, overrun_cbr, 0) => 0x3223a
       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) => 0x76
[Pass] ABS(DeltaT(timer_arg, ta0) - 300000) => 0x55
[Pass] ABS((get_us_clock() - t0) - 310000) => 0xffffffc0
       t0 = GET_DIGIC_TIMER() => 0xf5496
       msleep(250)
       t1 = GET_DIGIC_TIMER() => 0x31cfe
[Pass] ABS(MOD(t1-t0, 1048576)/1000 - 250) => 0x3
       LoadCalendarFromRTC( &now )
       s0 = now.tm_sec => 0x1f
       Date/time: 2018/02/27 14:09:31
       msleep(1500)
       LoadCalendarFromRTC( &now )
       s1 = now.tm_sec => 0x20
[Pass] MOD(s1-s0, 60) => 0x1
[Pass] MOD(s1-s0, 60) => 0x1
       m0 = MALLOC_FREE_MEMORY => 0x38a18
[Pass] p = (void*)_malloc(50*1024) => 0x136e30
[Pass] CACHEABLE(p) => 0x136e30
       m1 = MALLOC_FREE_MEMORY => 0x2c208
       _free(p)
       m2 = MALLOC_FREE_MEMORY => 0x38a18
[Pass] ABS((m0-m1) - 50*1024) => 0x10
[Pass] ABS(m0-m2) => 0x0
       m0 = GetFreeMemForAllocateMemory() => 0x335284
[Pass] p = (void*)_AllocateMemory(128*1024) => 0x863230
[Pass] CACHEABLE(p) => 0x863230
       m1 = GetFreeMemForAllocateMemory() => 0x315278
       _FreeMemory(p)
       m2 = GetFreeMemForAllocateMemory() => 0x335284
[Pass] ABS((m0-m1) - 128*1024) => 0xc
[Pass] ABS(m0-m2) => 0x0
       m01 = MALLOC_FREE_MEMORY => 0x38a18
       m02 = GetFreeMemForAllocateMemory() => 0x335284
[Pass] p = (void*)_alloc_dma_memory(128*1024) => 0x40863270
[Pass] UNCACHEABLE(p) => 0x40863270
[Pass] CACHEABLE(p) => 0x863270
[Pass] UNCACHEABLE(CACHEABLE(p)) => 0x40863270
       _free_dma_memory(p)
[Pass] p = (void*)_shoot_malloc(16*1024*1024) => 0x4de1a074
[Pass] UNCACHEABLE(p) => 0x4de1a074
       _shoot_free(p)
       m11 = MALLOC_FREE_MEMORY => 0x38a18
       m12 = GetFreeMemForAllocateMemory() => 0x335284
[Pass] ABS(m01-m11) => 0x0
[Pass] ABS(m02-m12) => 0x0
[Pass] suite = shoot_malloc_suite_contig(16*1024*1024) => 0x130648
[Pass] suite->signature => 'MemSuite'
[Pass] suite->num_chunks => 0x1
[Pass] suite->size => 0x1000000
[Pass] chunk = GetFirstChunkFromSuite(suite) => 0x130670
[Pass] chunk->signature => 'MemChunk'
[Pass] chunk->size => 0x1000000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x4de1a070
[Pass] UNCACHEABLE(p) => 0x4de1a070
       shoot_free_suite(suite); suite = 0; chunk = 0;
[Pass] suite = shoot_malloc_suite_contig(0) => 0x130648
[Pass] suite->signature => 'MemSuite'
[Pass] suite->num_chunks => 0x1
[Pass] suite->size => 0x12b4000
[Pass] chunk = GetFirstChunkFromSuite(suite) => 0x130670
[Pass] chunk->signature => 'MemChunk'
[Pass] chunk->size => 0x12b4000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x4de1a070
[Pass] UNCACHEABLE(p) => 0x4de1a070
       largest_shoot_block = suite->size => 0x12b4000
[INFO] largest_shoot_block: 19MB
       shoot_free_suite(suite); suite = 0; chunk = 0;
[Pass] suite = shoot_malloc_suite(largest_shoot_block + 1024*1024) => 0x130648
[Pass] suite->signature => 'MemSuite'
[FAIL] suite->num_chunks => 0x1
[Pass] suite->size => 0x13b4000
[Pass] chunk = GetFirstChunkFromSuite(suite) => 0x130670
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x13b4000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x4de1a070
[Pass] UNCACHEABLE(p) => 0x4de1a070
       chunk = GetNextMemoryChunk(suite, chunk) => 0x0
[Pass] total => 0x13b4000
       shoot_free_suite(suite); suite = 0; chunk = 0;
[Pass] suite = shoot_malloc_suite(0) => 0x130648
[Pass] suite->signature => 'MemSuite'
[Pass] suite->num_chunks => 0x3
[Pass] suite->size => 0x1700000
[Pass] chunk = GetFirstChunkFromSuite(suite) => 0x130670
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x13b4000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x4de1a070
[Pass] UNCACHEABLE(p) => 0x4de1a070
       chunk = GetNextMemoryChunk(suite, chunk) => 0x136e58
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x149c000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x4ae00064
[Pass] UNCACHEABLE(p) => 0x4ae00064
       chunk = GetNextMemoryChunk(suite, chunk) => 0x136e90
[Pass] chunk->signature => 'MemChunk'
[Pass] total += chunk->size => 0x1700000
[Pass] p = GetMemoryAddressOfMemoryChunk(chunk) => 0x419ff0a4
[Pass] UNCACHEABLE(p) => 0x419ff0a4
       chunk = GetNextMemoryChunk(suite, chunk) => 0x0
[Pass] total => 0x1700000
       shoot_free_suite(suite); suite = 0; chunk = 0;
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[FAIL] suite->num_chunks => 0x1
[Pass] strlen("abc") => 0x3
[Pass] strlen("qwertyuiop") => 0xa
[Pass] strlen("") => 0x0
[Pass] strcpy(msg, "hi there") => 0x213d3c
[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
[Pass] snprintf(buf, 3, "%d", 1234) => 0x2
[Pass] buf => '12'
[Pass] memcpy(foo, bar, 6) => 0x213d20
[Pass] foo => 'asdfghuiop'
[Pass] memset(bar, '*', 5) => 0x213d00
[Pass] bar => '*****hjkl;'
       bzero32(bar + 5, 5)
[Pass] 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) => 0xe96800ca
[Pass] test_task_created => 0x1
[Pass] get_current_task_name() => 'run_test'
[Pass] get_task_name_from_id(current_task->taskId) => 'run_test'
[Pass] task_max => 0x68
[Pass] task_max => 0x68
[Pass] mq = mq ? mq : (void*)msg_queue_create("test", 5) => 0xe96a00b6
[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) => 0xe96c0200
[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) => 0xe96e00c8
[Pass] AcquireRecursiveLock(rlock, 500) => 0x0
[Pass] AcquireRecursiveLock(rlock, 500) => 0x0
[Pass] ReleaseRecursiveLock(rlock) => 0x0
[Pass] ReleaseRecursiveLock(rlock) => 0x0
[Pass] ReleaseRecursiveLock(rlock) => 0xf
       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
[Pass] display_idle() => 0x1
       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)
[Pass] HALFSHUTTER_PRESSED => 0x1
       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
[Pass] is_pure_play_movie_mode() => 0x1
[Pass] is_play_mode() => 0x1
[Pass] is_pure_play_photo_mode() => 0x0
[Pass] is_pure_play_movie_mode() => 0x0
=========================================================
Test complete, 11349 passed, 41 failed.
.


So there were just 3 more fails on the EOSM2 on what looked like menu switching tasks. Probably relatively minor issues.

EOSM2 - LUATEST.LOG

===============================================================================
ML/SCRIPTS/API_TEST.LUA - 2018-2-27 03:16:50
===============================================================================

Strict mode tests...
Strict mode tests passed.

Generic tests...
arg = table:
  [0] = "API_TEST.LUA"
camera = table:
  shutter = table:
    raw = 104
    apex = 6.
    ms = 16
    value = 0.015625
  aperture = table:
    raw = 24
    apex = 2.
    value = 2.
    min = table:
      raw = 24
      apex = 2.
      value = 2.
    max = table:
      raw = 80
      apex = 9.
      value = 22.6
  iso = table:
    raw = 72
    apex = 5.
    value = 100
  ec = table:
    raw = 0
    value = 0
  flash_ec = table:
    raw = 0
    value = 0
  kelvin = 3200
  mode = 20
  metering_mode = 5
  drive_mode = 0
  model = "Canon EOS M2"
  model_short = "EOSM2"
  firmware = "1.0.3"
  temperature = 208
  gui = table:
    menu = false
    play = false
    play_photo = false
    play_movie = false
    qr = false
    idle = false
  reboot = function: p
  bulb = function: p
  burst = function: p
  shoot = function: p
  wait = function: p
event = table:
  pre_shoot = nil
  post_shoot = nil
  shoot_task = nil
  seconds_clock = nil
  keypress = nil
  custom_picture_taking = nil
  intervalometer = nil
  config_save = nil
console = table:
  write = function: p
  show = function: p
  clear = function: p
  hide = function: p
lv = table:
  enabled = true
  paused = false
  running = true
  zoom = 1
  overlays = false
  resume = function: p
  start = function: p
  pause = function: p
  info = function: p
  stop = function: p
  wait = function: p
lens = table:
  name = "EF-M22mm f/2 STM"
  focal_length = 22
  focus_distance = 655350
  hyperfocal = 12780
  dof_near = 12537
  dof_far = 1000000
  af = true
  af_mode = 0
  autofocus = function: p
  focus = function: p
display = table:
  idle = nil
  height = 480
  width = 720
  on = function: p
  screenshot = function: p
  print = function: p
  load = function: p
  pixel = function: p
  clear = function: p
  notify_box = function: p
  line = function: p
  rect = function: p
  draw = function: p
  circle = function: p
  off = function: p
key = table:
  last = 10
  press = function: p
  wait = function: p
menu = table:
  visible = false
  set = function: p
  block = function: p
  new = function: p
  close = function: p
  open = function: p
  select = function: p
  get = function: p
movie = table:
  recording = false
  stop = function: p
  start = function: p
dryos = table:
  clock = 19
  ms_clock = 19541
  image_prefix = "IMG_"
  dcim_dir = table:
    exists = true
    create = function: p
    children = function: p
    files = function: p
    parent = table:
      exists = true
      create = function: p
      children = function: p
      files = function: p
      parent = table:
        exists = true
        create = function: p
        children = function: p
        files = function: p
        parent = nil
        path = "B:/"
      path = "B:/DCIM/"
    path = "B:/DCIM/100CANON/"
  config_dir = table:
    exists = true
    create = function: p
    children = function: p
    files = function: p
    parent = table:
      exists = true
      create = function: p
      children = function: p
      files = function: p
      parent = table:
        exists = true
        create = function: p
        children = function: p
        files = function: p
        parent = nil
        path = "B:/"
      path = "ML/"
    path = "ML/SETTINGS/"
  ml_card = table:
    cluster_size = 32768
    drive_letter = "B"
    file_number = 7274
    folder_number = 100
    free_space = 30936992
    type = "SD"
    path = "B:/"
    _card_ptr = userdata
  shooting_card = table:
    cluster_size = 32768
    drive_letter = "B"
    file_number = 7274
    folder_number = 100
    free_space = 30936992
    type = "SD"
    path = "B:/"
    _card_ptr = userdata
  date = table:
    year = 2018
    sec = 51
    min = 16
    wday = 3
    month = 2
    isdst = false
    hour = 3
    yday = 58
    day = 27
  rename = function: p
  remove = function: p
  directory = function: p
  call = function: p
interval = table:
  time = 10
  count = 0
  running = false
  stop = function: p
battery = table:
function not available on this camera
stack traceback:
[C]: in ?
[C]: in for iterator 'for iterator'
ML/SCRIPTS/LIB/logger.lua:125: in function 'logger.serialize'
ML/SCRIPTS/API_TEST.LUA:36: in function <ML/SCRIPTS/API_TEST.LUA:35>
[C]: in function 'xpcall'
ML/SCRIPTS/API_TEST.LUA:35: in function 'print_table'
ML/SCRIPTS/API_TEST.LUA:81: in function 'generic_tests'
ML/SCRIPTS/API_TEST.LUA:1338: in function 'api_tests'
ML/SCRIPTS/API_TEST.LUA:1364: in main chunktask = table:
  yield = function: p
  create = function: p
property = table:
Generic tests completed.

Module tests...
Testing file I/O...
Copy test: autoexec.bin -> tmp.bin
Copy test OK
Append test: tmp.txt
Append test OK
Rename test: apple.txt -> banana.txt
Rename test OK
Rename test: apple.txt -> ML/banana.txt
Rename test OK
File I/O tests completed.

Testing Canon GUI functions...
Enter MENU mode...
Enter PLAY mode...
Enter MENU mode...
Enter MENU mode...
Enter PLAY mode...
Enter PLAY mode...
Enter PLAY mode...
Enter PLAY mode...
Exit PLAY mode...


EOSM - LUATEST.LOG

===============================================================================
ML/SCRIPTS/API_TEST.LUA - 2018-2-27 14:22:39
===============================================================================

Strict mode tests...
Strict mode tests passed.

Generic tests...
arg = table:
  [0] = "API_TEST.LUA"
camera = table:
  shutter = table:
    raw = 104
    apex = 6.
    ms = 16
    value = 0.015625
  aperture = table:
    raw = 24
    apex = 2.
    value = 2.
    min = table:
      raw = 24
      apex = 2.
      value = 2.
    max = table:
      raw = 80
      apex = 9.
      value = 22.6
  iso = table:
    raw = 72
    apex = 5.
    value = 100
  ec = table:
    raw = 0
    value = 0
  flash_ec = table:
    raw = 0
    value = 0
  kelvin = 6500
  mode = 20
  metering_mode = 5
  drive_mode = 0
  model = "Canon EOS M"
  model_short = "EOSM"
  firmware = "2.0.2"
  temperature = 218
  gui = table:
    menu = false
    play = false
    play_photo = false
    play_movie = false
    qr = false
    idle = true
  wait = function: p
  bulb = function: p
  burst = function: p
  shoot = function: p
  reboot = function: p
event = table:
  pre_shoot = nil
  post_shoot = nil
  shoot_task = nil
  seconds_clock = nil
  keypress = nil
  custom_picture_taking = nil
  intervalometer = nil
  config_save = nil
console = table:
  write = function: p
  show = function: p
  clear = function: p
  hide = function: p
lv = table:
  enabled = true
  paused = false
  running = true
  zoom = 1
  overlays = 2
  pause = function: p
  stop = function: p
  info = function: p
  resume = function: p
  wait = function: p
  start = function: p
lens = table:
  name = "EF-M22mm f/2 STM"
  focal_length = 22
  focus_distance = 320
  hyperfocal = 12780
  dof_near = 314
  dof_far = 326
  af = true
  af_mode = 0
  focus = function: p
  autofocus = function: p
display = table:
  idle = nil
  height = 480
  width = 720
  pixel = function: p
  rect = function: p
  clear = function: p
  on = function: p
  draw = function: p
  off = function: p
  print = function: p
  circle = function: p
  screenshot = function: p
  line = function: p
  load = function: p
  notify_box = function: p
key = table:
  last = 9
  press = function: p
  wait = function: p
menu = table:
  visible = false
  block = function: p
  get = function: p
  new = function: p
  select = function: p
  set = function: p
  close = function: p
  open = function: p
movie = table:
  recording = false
  start = function: p
  stop = function: p
dryos = table:
  clock = 18
  ms_clock = 18171
  image_prefix = "IMG_"
  dcim_dir = table:
    exists = true
    create = function: p
    children = function: p
    files = function: p
    parent = table:
      exists = true
      create = function: p
      children = function: p
      files = function: p
      parent = table:
        exists = true
        create = function: p
        children = function: p
        files = function: p
        parent = nil
        path = "B:/"
      path = "B:/DCIM/"
    path = "B:/DCIM/100CANON/"
  config_dir = table:
    exists = true
    create = function: p
    children = function: p
    files = function: p
    parent = table:
      exists = true
      create = function: p
      children = function: p
      files = function: p
      parent = table:
        exists = true
        create = function: p
        children = function: p
        files = function: p
        parent = nil
        path = "B:/"
      path = "ML/"
    path = "ML/SETTINGS/"
  ml_card = table:
    cluster_size = 32768
    drive_letter = "B"
    file_number = 5922
    folder_number = 100
    free_space = 31071520
    type = "SD"
    path = "B:/"
    _card_ptr = userdata
  shooting_card = table:
    cluster_size = 32768
    drive_letter = "B"
    file_number = 5922
    folder_number = 100
    free_space = 31071520
    type = "SD"
    path = "B:/"
    _card_ptr = userdata
  date = table:
    sec = 41
    month = 2
    min = 22
    year = 2018
    hour = 14
    day = 27
    wday = 3
    isdst = false
    yday = 58
  directory = function: p
  remove = function: p
  call = function: p
  rename = function: p
interval = table:
  time = 10
  count = 0
  running = false
  stop = function: p
battery = table:
function not available on this camera
stack traceback:
[C]: in ?
[C]: in for iterator 'for iterator'
ML/SCRIPTS/LIB/logger.lua:125: in function 'logger.serialize'
ML/SCRIPTS/API_TEST.LUA:36: in function <ML/SCRIPTS/API_TEST.LUA:35>
[C]: in function 'globals.xpcall'
ML/SCRIPTS/API_TEST.LUA:35: in function 'globals.print_table'
ML/SCRIPTS/API_TEST.LUA:81: in function 'globals.generic_tests'
ML/SCRIPTS/API_TEST.LUA:1338: in function 'globals.api_tests'
ML/SCRIPTS/API_TEST.LUA:1364: in main chunktask = table:
  create = function: p
  yield = function: p
property = table:
Generic tests completed.

Module tests...
Testing file I/O...
Copy test: autoexec.bin -> tmp.bin
Copy test OK
Append test: tmp.txt
Append test OK
Rename test: apple.txt -> banana.txt
Rename test OK
Rename test: apple.txt -> ML/banana.txt
Rename test OK
File I/O tests completed.

Testing Canon GUI functions...
Pause LiveView...
Resume LiveView...
Enter MENU mode...
Enter PLAY mode...
Exit PLAY mode...


The cameras were sitting next to each other during these tests so it does look like there's something going on with the lens = table block but again, nothing major is standing out.

Comparing the test results against the original EOSM there aren't many issues that these tests are revealing that are issues unique to the EOSM2.

The benchmark tests are also working and it is showing that the EOSM2 is pretty much the same as the other ML supported APS-C Digic 5 cameras.


DeafEyeJedi

Better late than never... finally got the EOS-M2 back and you can definitely count me in for any crash course test you dare to throw upon per your request. I'll be keeping an eye on this thread exclusively from here on out, @dfort!
5D3.113 | 5D3.123 | EOSM.203 | 7D.203 | 70D.112 | 100D.101 | EOSM2.* | 50D.109

pureaxis

I'm ready to fire up my EOS M2 as well, just having peaking would be great! ;)

dfort

If you have an EOSM2 and want to jump on the Magic Lantern train, there's no secrets here. I haven't posted any test builds yet because I feel that it is not yet ready for user feedback. I mean the first time you shoot a picture with ML installed the screen will freeze, picture looks good though!

Ok, so this is how to get it. First set up your computer to compile Magic Lantern. Don't freak out, it is really easy if you follow either my Mac or Cygwin (for Windows) tutorials. If you are on Windows 10 you can set up a Linux subsystem and if you're on Linux, well then you probably don't need my help.

I use and recommend the Sourcetree app.

If you just want to get ML installed on your EOSM2 in a hurry, here's how to do it once you have your development environment working. You can copy and paste these commands into your terminal window:

# Making sure you are in the directory where you want to install the repository--
# This will install my repository in one named magic-lantern-dfort so it doesn't clobber
# magic-lantern repository you may already have:
hg clone https://bitbucket.org/daniel_fort/magic-lantern magic-lantern-dfort

# Now let's get to the EOSM2 branch and compile it
cd magic-lantern-dfort
hg update EOSM2.103_crop_rec_4k_wip
cd platform/EOSM2.103/
make

# All good? If you have a card reader you can install directly to the SD card like this:
make install

# If you want to make a zip file just like on the nightly downloads do this
make zip

# The file will be named magiclantern-Nightly with the date and camera information in the filename

# Once you are done clean up your mess
make clean


You'll want to make sure you have the latest changes. To pick them up do this:

hg pull
hg update


Got it?

dfort

Still stuck trying to figure out why the camera is locking up when shooting stills. Played around on QEMU and am seeing things I've never seen before--LiveView! Well, sort of:

ML LiveView


One of Canon LiveView screens


Never seen these menus show up on QEMU before:

chrissul13

Following for update.  Hopefully something soon? 

dfort

I've been doing some firmware updates on other cameras to see if maybe it serves as practice to solve the problems I ran into on the M2. Any help would be greatly appreciated.

pureaxis

Unfortunately I don't know enough about coding but I'd be happy to test builds compiled by others.

chrissul13

I would be so happy to just get focus peaking.  I have a lot of old M42 mount lenses and they are hard to focus quickly on the screen.  can't wait for a bit more progress here!  Thanks again!

dfort

I can't wait for more progress here either.

There has been no progress because I can't figure out how to track down the current issues. It is working quite well in QEMU but it crashes when shooting pictures or video. However, silent stills sort of works. In any case, I hesitantly just posted a test build of the crop_rec_4k branch which is the one that is almost working.

https://bitbucket.org/daniel_fort/magic-lantern/downloads/

BTW--Still welcoming anyone with an M2 willing to set up a development platform and help search for the last few pieces of the puzzle.

chrissul13

I would love to volunteer.  I'm going to try the test build as soon as i'm able today but i'm not sure i have much experience to help.  Here's hoping!  Thanks for all of your hard work

pureaxis

Quote from: dfort on April 26, 2018, 05:09:56 PM
I can't wait for more progress here either.

There has been no progress because I can't figure out how to track down the current issues. It is working quite well in QEMU but it crashes when shooting pictures or video. However, silent stills sort of works. In any case, I hesitantly just posted a test build of the crop_rec_4k branch which is the one that is almost working.

https://bitbucket.org/daniel_fort/magic-lantern/downloads/

BTW--Still welcoming anyone with an M2 willing to set up a development platform and help search for the last few pieces of the puzzle.

Tested on my camera, I seem to be only able to enter ML menu from C1 and not video mode. Could not get raw or crop mode working.

chrissul13

Found a refurbished 550D for $87 and couldn't turn it down..just for ML.  Now i'm really seeing what i wanted in the M2.  Here's hoping for some progress soon.

dfort

Quote from: chrissul13 on August 06, 2018, 05:41:07 AM
Here's hoping for some progress soon.

There has been some progress though nothing big to report--like ML is actually working properly on the M2. A few bad stubs were found by critix and I merged in the latest qemu branch to the work in progress code in order to make it easier to compile builds for either the camera or emulator.

For what its worth there's a new test build on my downloads page.