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Ramblings and progress with the RK3399


pbies

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On 12/30/2018 at 12:56 AM, NicoD said:

I tried downloading your LibreElec image for the Edge. Got this message 'Произошла ошибка'. I don't have an Edge, but still wanted to let you know.

What dtb was used ? Have you tried the "combined" startup option (write the same image to the SD card and USB flash drive, connect the SD and USB media at the same time, and turn on the power) ?

 

 

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7 hours ago, balbes150 said:

What dtb was used ? Have you tried the "combined" startup option (write the same image to the SD card and USB flash drive, connect the SD and USB media at the same time, and turn on the power) ?

I can not download the image from Yandjeks. The .img.gz file gives "Ой, что-то сломалось…" when I click on it. And I can't login to yandjeks either for the other file.

I just downloaded the LibreElec from the Khadas Edge download page. I thought it's also yours they're using. It didn't have the other .dtb files. I had an older Armbian image of you for the RK3399, I installed that on an sd, copied all the .dtb files. There's none for the NanoPi M4, so I choose RockPro64.
Seems to work great. Sound ok, 4K plays well. So great job. Thank you.

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13 hours ago, NicoD said:

I just downloaded the LibreElec from the Khadas Edge download page. I thought it's also yours they're using. It didn't have the other .dtb files. I had an older Armbian image of you for the RK3399, I installed that on an sd, copied all the .dtb files. There's none for the NanoPi M4, so I choose RockPro64.

On the download page Khadas version of arm, I build aarch64, so this is a different version. Perhaps it is built from the official git Libreelec or GIT Kwiboo.

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4 hours ago, Arinze Izukanne said:

Were you able to load armbian and boot from eMMC?

Yes !

4 hours ago, Arinze Izukanne said:

Do the onboard sensors Hall, Gyro, Compass etc work with the NanoPC-T4 4.19.y image?

No needs of NanoPC-T4, since I've created an OrangePi-RK3399 template, so you can build an image for that.

Sensors are appearing on /dev/i2c-4, so you simply need to get proper software/library to use them.

4 hours ago, Arinze Izukanne said:

How stable is the board?

Pretty stable !

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Which recipe is working for Orange RK3399? Legacy kernel. I tried to build from what we have. It stops here:
 

Spoiler

DDR Version 1.07 20161103
In
Channel 0: DDR3, 666MHz
Bus Width=32 Col=10 Bank=8 Row=15 CS=1 Die Bus-Width=16 Size=1024MB
Channel 1: DDR3, 666MHz
Bus Width=32 Col=10 Bank=8 Row=15 CS=1 Die Bus-Width=16 Size=1024MB
256B stride
ch 0 ddrconfig = 0x101, ddrsize = 0x20
ch 1 ddrconfig = 0x101, ddrsize = 0x20
pmugrf_os_reg[2] = 0x32817281, stride = 0x9
OUT
Boot1: 2016-07-29, version: 1.05
CPUId = 0x0
ChipType = 10 1842
SdmmcInit=2 0
BootCapSize=100000
UserCapSize=14910MB
FwPartOffset=2000 , 100000
SdmmcInit=0 0
BootCapSize=0
UserCapSize=30528MB
FwPartOffset=2000 , 0
StorageInit ok = 242066
LoadTrustBL
No find bl30.bin
No find bl32.bin
theLoader 200000 315112
LoaderFlag2: 0x0
Unhandled Exception in EL3.
x30 =           0x0000000000034804
x0 =            0x0f1e2d3c4b5a6978
x1 =            0x0000000000030080
x2 =            0x0000000000000018
x3 =            0x0000000000000018
x4 =            0x0000000000000018
x5 =            0x0000000000000000
x6 =            0x0000000000000000
x7 =            0x0000000000000000
x8 =            0x0000000003011908
x9 =            0x0000000000010080
x10 =           0x000000000001ffa8
x11 =           0x0000000000000000
x12 =           0x000000000000000a
x13 =           0x0000000000000001
x14 =           0x0000000000000002
x15 =           0x0000000000000004
x16 =           0x0000000000000000
x17 =           0x0000000000000000
x18 =           0x0000000000800000
x19 =           0x0f1e2d3c4b5a6978
x20 =           0x0000000000038210
x21 =           0x0f1e2d3c4b5a6978
x22 =           0x000000000003168d
x23 =           0x0000000000038220
x24 =           0x0000000000012000
x25 =           0x0000000000000001
x26 =           0x00000000ff8c2000
x27 =           0x0000000000000110
x28 =           0x0000000000000110
x29 =           0x00000000000358c0
scr_el3 =               0x0000000000000238
sctlr_el3 =             0x0000000000c5383a
cptr_el3 =              0x0000000000000000
tcr_el3 =               0x0000000000000000
daif =          0x00000000000003c0
mair_el3 =              0x44e048e000098aa4
spsr_el3 =              0x00000000600002cc
elr_el3 =               0x0000000000011724
ttbr0_el3 =             0x00128104060c2001
esr_el3 =               0x0000000096000000
far_el3 =               0x0f1e2d3c4b5a6978
spsr_el1 =              0x00000000080404fc
elr_el1 =               0x00407d2944003000
spsr_abt =              0x0000000022110518
spsr_und =              0x0000000086142804
spsr_irq =              0x0000000008095000
spsr_fiq =              0x0000000000180001
sctlr_el1 =             0x0000000000c52838
actlr_el1 =             0x0000000000000000
cpacr_el1 =             0x0000000000000000
csselr_el1 =            0x0000000000000000
sp_el1 =                0x91224080010c1b00
esr_el1 =               0x0000000021d209c8
ttbr0_el1 =             0x2004d00809072318
ttbr1_el1 =             0x5448180880450400
mair_el1 =              0x44e048e000098aa4
amair_el1 =             0x0000000000000000
tcr_el1 =               0x0000000000000000
tpidr_el1 =             0x1109000030000208
tpidr_el0 =             0x3080101260800100
tpidrro_el0 =           0x0002801251008161
dacr32_el2 =            0x0000000080020472
ifsr32_el2 =            0x0000000000000020
par_el1 =               0xd600000040c01004
mpidr_el1 =             0x0000000080000000
afsr0_el1 =             0x0000000000000000
afsr1_el1 =             0x0000000000000000
contextidr_el1 =                0x0000000000000000
vbar_el1 =              0x0000000000000000
cntp_ctl_el0 =          0x0000000000000000
cntp_cval_el0 =         0x0109000800001221
cntv_ctl_el0 =          0x0000000000000000
cntv_cval_el0 =         0x0188004440051000
cntkctl_el1 =           0x0000000000000000
fpexc32_el2 =           0x0000000000000700
sp_el0 =                0x00000000000358c0
isr_el1 =               0x0000000000000000
cpuectlr_el1 =          0x0000000000000040
cpumerrsr_el1 =         0x0000000000000000
l2merrsr_el1 =          0x0000000000000000
gicc_hppir =            0x0000000000000000
gicc_ahppir =           0x0000000000000000
gicc_ctlr =             0x0000000014000082
gicd_ispendr regs (Offsets 0x200 - 0x278)
0000000000000200:               0x0000001800000000
0000000000000208:               0x0000000000000000
0000000000000210:               0x0000000000000010
0000000000000218:               0x0000000000000000
0000000000000220:               0x0000000000000000
0000000000000228:               0x0000000000000000
0000000000000230:               0x0000000000000000
0000000000000238:               0x0000000000000000
0000000000000240:               0x0000000000000000
0000000000000248:               0x0000000000000000
0000000000000250:               0x0000000000000000
0000000000000258:               0x0000000000000000
0000000000000260:               0x0000000000000000
0000000000000268:               0x0000000000000000
0000000000000270:               0x0000000000000000
0000000000000278:               0x0000000000000000
cci_snoop_ctrl_cluster0 =               0x00000000c0000000
cci_snoop_ctrl_cluster1 =               0x00000000c0000000

 


Do I need to 

 

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5 minutes ago, martinayotte said:

Did you have shorted the TP50265 test point to GND ?


Yes. Then it stops here:

Spoiler

DDR Version 1.07 20161103
In
Channel 0: DDR3, 666MHz
Bus Width=32 Col=10 Bank=8 Row=15 CS=1 Die Bus-Width=16 Size=1024MB
Channel 1: DDR3, 666MHz
Bus Width=32 Col=10 Bank=8 Row=15 CS=1 Die Bus-Width=16 Size=1024MB
256B stride
ch 0 ddrconfig = 0x101, ddrsize = 0x20
ch 1 ddrconfig = 0x101, ddrsize = 0x20
pmugrf_os_reg[2] = 0x32817281, stride = 0x9
OUT
Boot1: 2016-07-29, version: 1.05
CPUId = 0x0
ChipType = 10 1846

 



 

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And continue this way: 

Spoiler

mmc: ERROR: SDHCI:Transfer data timeout
mmc: ERROR: SDHCI ERR:cmd:0x153a,stat:0x0
mmc: ERROR: Tuning procedure failed, falling back to fixed sampling clock
mmc: ERROR: tuning execution failed
emmc reinit
SdmmcInit=2 0
BootCapSize=100000
UserCapSize=14910MB
FwPartOffset=2000 , 100000
SdmmcInit=0 0
BootCapSize=0
UserCapSize=30528MB
FwPartOffset=2000 , 0
StorageInit ok = 12825500
LoadTrustBL
No find bl30.bin
No find bl32.bin
theLoader 200000 12898540
LoaderFlag2: 0x0
Unhandled Exception in EL3.

 

when I remove shorting.

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13 minutes ago, Igor said:

Yes. Then it stops here:

Strange ... did you kept the short long enough to see u-boot stage #2, the one that will display Armbian U-Boot ?

 

Here is what I'm getting on fresh boot, as you can see, stage #1 DDR doesn't match with your :

 

 


DDR Version 1.14 20180803
In
Channel 0: DDR3, 800MHz
Bus Width=32 Col=10 Bank=8 Row=15 CS=1 Die Bus-Width=16 Size=1024MB
Channel 1: DDR3, 800MHz
Bus Width=32 Col=10 Bank=8 Row=15 CS=1 Die Bus-Width=16 Size=1024MB
256B stride
ch 0 ddrconfig = 0x101, ddrsize = 0x20
ch 1 ddrconfig = 0x101, ddrsize = 0x20
pmugrf_os_reg[2] = 0x32817281, stride = 0x9
OUT
Boot1: 2018-08-06, version: 1.15
CPUId = 0x0
ChipType = 0x10, 214
SdmmcInit=2 0
BootCapSize=100000
UserCapSize=14910MB
FwPartOffset=2000 , 100000
mmc0:cmd8,20
mmc0:cmd5,20
mmc0:cmd55,20
mmc0:cmd1,20
mmc0:cmd8,20
mmc0:cmd5,20
mmc0:cmd55,20
mmc0:cmd1,20
mmc0:cmd8,20
mmc0:cmd5,20
mmc0:cmd55,20
mmc0:cmd1,20
SdmmcInit=0 1
StorageInit ok = 67017
SecureMode = 0
SecureInit read PBA: 0x4
SecureInit read PBA: 0x404
SecureInit read PBA: 0x804
SecureInit read PBA: 0xc04
SecureInit read PBA: 0x1004
SecureInit read PBA: 0x1404
SecureInit read PBA: 0x1804
SecureInit read PBA: 0x1c04
SecureInit ret = 0, SecureMode = 0
GPT 0x3190d20 signature is wrong
LoadTrust Addr:0x4000
No find bl30.bin
No find bl32.bin
Load uboot, ReadLba = 2000
Load OK, addr=0x200000, size=0x99bc0
RunBL31 0x10000
NOTICE:  BL31: v1.3(debug):f947c7e
NOTICE:  BL31: Built : 16:24:02, Aug 26 2018
NOTICE:  BL31: Rockchip release version: v1.1
INFO:    GICv3 with legacy support detected. ARM GICV3 driver initialized in EL3
INFO:    plat_rockchip_pmu_init(1089): pd status 3e
INFO:    BL31: Initializing runtime services
INFO:    BL31: Preparing for EL3 exit to normal world
INFO:    Entry point address = 0x200000
INFO:    SPSR = 0x3c9


U-Boot 2018.11-armbian (Jan 17 2019 - 12:07:21 -0500)

Model: OrangePi boards based on Rockchip RK3399
DRAM:  2 GiB
MMC:   dwmmc@fe310000: 2, dwmmc@fe320000: 1, sdhci@fe330000: 0
Loading Environment from EXT4... ** File not found /boot/boot.env **

** Unable to read "/boot/boot.env" from mmc0:1 **
In:    serial@ff1a0000
Out:   serial@ff1a0000
Err:   serial@ff1a0000
Model: OrangePi boards based on Rockchip RK3399
rockchip_dnl_key_pressed: adc_channel_single_shot fail!
Net:   
Error: ethernet@fe300000 address not set.
eth-1: ethernet@fe300000
Hit any key to stop autoboot:  0
switch to partitions #0, OK
mmc0(part 0) is current device
Scanning mmc 0:1...
Found U-Boot script /boot/boot.scr
2958 bytes read in 6 ms (481.4 KiB/s)
## Executing script at 00500000
Boot script loaded from mmc 0
203 bytes read in 3 ms (65.4 KiB/s)
5033491 bytes read in 536 ms (9 MiB/s)
13437440 bytes read in 1410 ms (9.1 MiB/s)
74945 bytes read in 25 ms (2.9 MiB/s)
232 bytes read in 7 ms (32.2 KiB/s)
Applying kernel provided DT fixup script (rockchip-fixup.scr)
## Executing script at 39000000
## Loading init Ramdisk from Legacy Image at 04000000 ...
   Image Name:   uInitrd
   Image Type:   AArch64 Linux RAMDisk Image (gzip compressed)
   Data Size:    5033427 Bytes = 4.8 MiB
   Load Address: 00000000
   Entry Point:  00000000
   Verifying Checksum ... OK
## Flattened Device Tree blob at 01f00000
   Booting using the fdt blob at 0x1f00000
   Loading Ramdisk to 7da51000, end 7df1ddd3 ... OK
   reserving fdt memory region: addr=1f00000 size=78000
   Loading Device Tree to 000000007d9d6000, end 000000007da50fff ... OK

Starting kernel ...

 
 

 

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24 minutes ago, Igor said:

DDR Version 1.07 20161103

I've looked at the original backup of the factory android image I did, it is the same version as your output !

So, maybe your shortening wasn't good enough and was still booting from eMMC ...

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12 minutes ago, Igor said:

It works. My shorting procedure was not good enough :)

Right ! I've used a tweezers between the 2 pads, but I had to press hard on it to avoid moving it while doing the power recycling with my other hand !

At some point, I though even to add solder blob to make it easier, but I finally succeeded without ...

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3 minutes ago, chwe said:

let's hope you guys don't have to repeat this often otherwise the pad might be gone.. :ph34r:

No worries : it is only when the board is "virgin from factory" with their Android u-boot. So, I did it only once ... ;)

After that, the workaround is to stop at u-boot prompt and use "setenv devnum X" followed by "run mmc_boot" ...

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Hi @martinayotte,

 

Nice work on your builds. I am following the progress!  I built a 16GB A1 Sandisk SD card with Armbian_5.73.190127_Orangepi-rk3399_Debian_stretch_dev_4.20.0.img. 

 

"Of course, to be able to boot from SDCard, we need to short the eMMC clock using the test point TP50265 :" 

 

I  have tried this for a couple of seconds on powerup, and released,  but dont see any new DHCP address assigned by my other router.  I only have HDMI, Ethernet, and 12v power connected to the OPI RK3399. Did you have to do something else to get his board working with SD card?

 

Thank you, and well done on your work so far. 

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1 hour ago, R2fan said:

I  have tried this for a couple of seconds on powerup, and released


I had many troubles (check few posts back) to properly close this test point, before I could boot the board. Use image from the download section. That one almost certainly works.

Serial console would be recommended at this stage. You see at once if booting goes from SD card ... and for the future if you want to boot from a SD card. You need to get into u-boot.

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OK, thanks both. 

FYI, raspberry PI3b+ UART never displayed serial comms correctly. The closest I got was with "sudo minicom -D /dev/ttyS0 -b 1500000" , then selecting Ctrl+A, Z , P - select Space parity (P), but this is unusable:

130|s(%ll@2+3399_mi$_or!.gep):/ $
130|s(ell2k3399_m)$_o2!nge0):/ $
130<sh%,,@rk3399-id_/ran'%pi:/ $
 

However, FTDI232 USB->UART from a windows laptop and putty (baud 1500000, 8, none) does show serial comms OK.

 

I tried both Ubuntu and Debian images from the download section, and with the SD card now inserted, I get not identical, but very similar results if I short TP50265 (held for 1, 5,or 20 seconds), or not, and there is no user interaction at the end..

I tried both shorting to the GND pin next to it, and also with your trick Igor, by connecting to a GND on the GPIO header. 

 

 

with shorting:

DDR Version 1.07 20161103
In
Channel 0: DDR3, 666MHz
Bus Width=32 Col=10 Bank=8 Row=15 CS=1 Die Bus-Width=16 Size=1024MB
Channel 1: DDR3, 666MHz
Bus Width=32 Col=10 Bank=8 Row=15 CS=1 Die Bus-Width=16 Size=1024MB
256B stride
ch 0 ddrconfig = 0x101, ddrsize = 0x20
ch 1 ddrconfig = 0x101, ddrsize = 0x20
pmugrf_os_reg[2] = 0x32817281, stride = 0x9
OUT
Boot1: 2016-07-29, version: 1.05
CPUId = 0x0
ChipType = 10 1844
mmc: ERROR: SDHCI:Transfer data timeout
mmc: ERROR: SDHCI ERR:cmd:0x153a,stat:0x0
mmc: ERROR: Tuning procedure failed, falling back to fixed sampling clock
mmc: ERROR: tuning execution failed
emmc reinit
SdmmcInit=2 0
BootCapSize=100000
UserCapSize=14910MB
FwPartOffset=2000 , 100000
SdmmcInit=0 0
BootCapSize=0
UserCapSize=15193MB
FwPartOffset=2000 , 0
StorageInit ok = 12938472
LoadTrustBL
No find bl30.bin
No find bl32.bin
theLoader 200000 13011111
LoaderFlag2: 0x0
Unhandled Exception in EL3.
x30 =           0x0000000000034804
x0 =            0x0f1e2d3c4b5a6978
x1 =            0x0000000000030080
x2 =            0x0000000000000018
x3 =            0x0000000000000018
x4 =            0x0000000000000018
x5 =            0x0000000000000000
x6 =            0x0000000000000000
x7 =            0x0000000000000000
x8 =            0x0000000003011908
x9 =            0x0000000000010080
x10 =           0x000000000001ffa8
x11 =           0x0000000000000000
x12 =           0x000000000000000a
x13 =           0x0000000000000001
x14 =           0x0000000000000002
x15 =           0x0000000000000004
x16 =           0x0000000000000000
x17 =           0x0000000000000000
x18 =           0x0000000000800000
x19 =           0x0f1e2d3c4b5a6978
x20 =           0x0000000000038210
x21 =           0x0f1e2d3c4b5a6978
x22 =           0x000000000003168d
x23 =           0x0000000000038220
x24 =           0x0000000000012000
x25 =           0x0000000000000001
x26 =           0x00000000ff8c2000
x27 =           0x0000000000000110
x28 =           0x0000000000000110
x29 =           0x00000000000358c0
scr_el3 =               0x0000000000000238
sctlr_el3 =             0x0000000000c5383a
cptr_el3 =              0x0000000000000000
tcr_el3 =               0x0000000000000000
daif =          0x00000000000003c0
mair_el3 =              0x44e048e000098aa4
spsr_el3 =              0x00000000600002cc
elr_el3 =               0x0000000000011724
ttbr0_el3 =             0x0010011920043020
esr_el3 =               0x0000000096000000
far_el3 =               0x0f1e2d3c4b5a6978
spsr_el1 =              0x00000000300c0088
elr_el1 =               0x2a14c6406338102d
spsr_abt =              0x000000000000000a
spsr_und =              0x0000000000030056
spsr_irq =              0x0000000036002060
spsr_fiq =              0x0000000018011018
sctlr_el1 =             0x0000000000c52838
actlr_el1 =             0x0000000000000000
cpacr_el1 =             0x0000000000000000
csselr_el1 =            0x0000000000000000
sp_el1 =                0x06038283c2208000
esr_el1 =               0x00000000e2ca20f1
ttbr0_el1 =             0x000e20d65110a020
ttbr1_el1 =             0x00a2046712000511
mair_el1 =              0x44e048e000098aa4
amair_el1 =             0x0000000000000000
tcr_el1 =               0x0000000000000000
tpidr_el1 =             0x8024080400110900
tpidr_el0 =             0x80001908a6a00050
tpidrro_el0 =           0x40020200d8002029
dacr32_el2 =            0x000000008088c024
ifsr32_el2 =            0x0000000000000020
par_el1 =               0x0500000070620d60
mpidr_el1 =             0x0000000080000000
afsr0_el1 =             0x0000000000000000
afsr1_el1 =             0x0000000000000000
contextidr_el1 =                0x0000000000000000
vbar_el1 =              0x0000000000000000
cntp_ctl_el0 =          0x0000000000000002
cntp_cval_el0 =         0x2ff648404721a82d
cntv_ctl_el0 =          0x0000000000000000
cntv_cval_el0 =         0x00000020c2700238
cntkctl_el1 =           0x0000000000000000
fpexc32_el2 =           0x0000000000000700
sp_el0 =                0x00000000000358c0
isr_el1 =               0x0000000000000000
cpuectlr_el1 =          0x0000000000000040
cpumerrsr_el1 =         0x0000000000000000
l2merrsr_el1 =          0x0000000000000000
gicc_hppir =            0x0000000000000000
gicc_ahppir =           0x0000000000000000
gicc_ctlr =             0x0000000014000082
gicd_ispendr regs (Offsets 0x200 - 0x278)
0000000000000200:               0x0000001800000000
0000000000000208:               0x0000000000000000
0000000000000210:               0x0000000000000010
0000000000000218:               0x0000000000000000
0000000000000220:               0x0000000000000000
0000000000000228:               0x0000000000000000
0000000000000230:               0x0000000000000000
0000000000000238:               0x0000000000000000
0000000000000240:               0x0000000000000000
0000000000000248:               0x0000000000000000
0000000000000250:               0x0000000000000000
0000000000000258:               0x0000000000000000
0000000000000260:               0x0000000000000000
0000000000000268:               0x0000000000000000
0000000000000270:               0x0000000000000000
0000000000000278:               0x0000000000000000
cci_snoop_ctrl_cluster0 =               0x00000000c0000000
cci_snoop_ctrl_cluster1 =               0x00000000c0000000

 

 

without shorting:

DDR Version 1.07 20161103
In
Channel 0: DDR3, 666MHz
Bus Width=32 Col=10 Bank=8 Row=15 CS=1 Die Bus-Width=16 Size=1024MB
Channel 1: DDR3, 666MHz
Bus Width=32 Col=10 Bank=8 Row=15 CS=1 Die Bus-Width=16 Size=1024MB
256B stride
ch 0 ddrconfig = 0x101, ddrsize = 0x20
ch 1 ddrconfig = 0x101, ddrsize = 0x20
pmugrf_os_reg[2] = 0x32817281, stride = 0x9
OUT
Boot1: 2016-07-29, version: 1.05
CPUId = 0x0
ChipType = 10 1844
SdmmcInit=2 0
BootCapSize=100000
UserCapSize=14910MB
FwPartOffset=2000 , 100000
SdmmcInit=0 0
BootCapSize=0
UserCapSize=15193MB
FwPartOffset=2000 , 0
StorageInit ok = 182057
LoadTrustBL
No find bl30.bin
No find bl32.bin
theLoader 200000 254667
LoaderFlag2: 0x0
Unhandled Exception in EL3.
x30 =           0x0000000000034804
x0 =            0x0f1e2d3c4b5a6978
x1 =            0x0000000000030080
x2 =            0x0000000000000018
x3 =            0x0000000000000018
x4 =            0x0000000000000018
x5 =            0x0000000000000000
x6 =            0x0000000000000000
x7 =            0x0000000000000000
x8 =            0x0000000003011908
x9 =            0x0000000000010080
x10 =           0x000000000001ffa8
x11 =           0x0000000000000000
x12 =           0x000000000000000a
x13 =           0x0000000000000001
x14 =           0x0000000000000002
x15 =           0x0000000000000004
x16 =           0x0000000000000000
x17 =           0x0000000000000000
x18 =           0x0000000000800000
x19 =           0x0f1e2d3c4b5a6978
x20 =           0x0000000000038210
x21 =           0x0f1e2d3c4b5a6978
x22 =           0x000000000003168d
x23 =           0x0000000000038220
x24 =           0x0000000000012000
x25 =           0x0000000000000001
x26 =           0x00000000ff8c2000
x27 =           0x0000000000000110
x28 =           0x0000000000000110
x29 =           0x00000000000358c0
scr_el3 =               0x0000000000000238
sctlr_el3 =             0x0000000000c5383a
cptr_el3 =              0x0000000000000000
tcr_el3 =               0x0000000000000000
daif =          0x00000000000003c0
mair_el3 =              0x44e048e000098aa4
spsr_el3 =              0x00000000600002cc
elr_el3 =               0x0000000000011724
ttbr0_el3 =             0x0050011900043060
esr_el3 =               0x0000000096000000
far_el3 =               0x0f1e2d3c4b5a6978
spsr_el1 =              0x00000000300c0088
elr_el1 =               0x2a14c6406b38102d
spsr_abt =              0x000000000000000a
spsr_und =              0x0000000000030056
spsr_irq =              0x0000000034000060
spsr_fiq =              0x000000001801111a
sctlr_el1 =             0x0000000000c52838
actlr_el1 =             0x0000000000000000
cpacr_el1 =             0x0000000000000000
csselr_el1 =            0x0000000000000000
sp_el1 =                0x0e038203c0008000
esr_el1 =               0x00000000428820f1
ttbr0_el1 =             0x000820d65111a020
ttbr1_el1 =             0x00a2006592000711
mair_el1 =              0x44e048e000098aa4
amair_el1 =             0x0000000000000000
tcr_el1 =               0x0000000000000000
tpidr_el1 =             0x0024080400110900
tpidr_el0 =             0x80000908a6a00050
tpidrro_el0 =           0x4002020098002029
dacr32_el2 =            0x000000008080c024
ifsr32_el2 =            0x0000000000000020
par_el1 =               0x0500000070620860
mpidr_el1 =             0x0000000080000000
afsr0_el1 =             0x0000000000000000
afsr1_el1 =             0x0000000000000000
contextidr_el1 =                0x0000000000000000
vbar_el1 =              0x0000000000000000
cntp_ctl_el0 =          0x0000000000000002
cntp_cval_el0 =         0x2ff44841c721a82d
cntv_ctl_el0 =          0x0000000000000000
cntv_cval_el0 =         0x00002020c2720238
cntkctl_el1 =           0x0000000000000000
fpexc32_el2 =           0x0000000000000700
sp_el0 =                0x00000000000358c0
isr_el1 =               0x0000000000000000
cpuectlr_el1 =          0x0000000000000040
cpumerrsr_el1 =         0x0000000000000000
l2merrsr_el1 =          0x0000000000000000
gicc_hppir =            0x0000000000000000
gicc_ahppir =           0x0000000000000000
gicc_ctlr =             0x0000000014000082
gicd_ispendr regs (Offsets 0x200 - 0x278)
0000000000000200:               0x0000001800000000
0000000000000208:               0x0000000000000000
0000000000000210:               0x0000000000000010
0000000000000218:               0x0000000000000000
0000000000000220:               0x0000000000000000
0000000000000228:               0x0000000000000000
0000000000000230:               0x0000000000000000
0000000000000238:               0x0000000000000000
0000000000000240:               0x0000000000000000
0000000000000248:               0x0000000000000000
0000000000000250:               0x0000000000000000
0000000000000258:               0x0000000000000000
0000000000000260:               0x0000000000000000
0000000000000268:               0x0000000000000000
0000000000000270:               0x0000000000000000
0000000000000278:               0x0000000000000000
cci_snoop_ctrl_cluster0 =               0x00000000c0000000
cci_snoop_ctrl_cluster1 =               0x00000000c0000000

 

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1 hour ago, R2fan said:

with shorting:

DDR Version 1.07 20161103

As I said to @Igor last Friday, this DDR Version signature is the one found in the factory android image !

So, maybe your shortening wasn't good enough and for sure was still booting from eMMC the old Android which then stop seeing that SDCard is inserted but not compatible ...

With the current build, or at least the one I did 2 weeks ago, you should get this DDR signature :

DDR Version 1.14 20180803
In
soft reset
SRX
Channel 0: DDR3, 800MHz
Bus Width=32 Col=10 Bank=8 Row=15 CS=1 Die Bus-Width=16 Size=1024MB
Channel 1: DDR3, 800MHz
Bus Width=32 Col=10 Bank=8 Row=15 CS=1 Die Bus-Width=16 Size=1024MB

 

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1 hour ago, R2fan said:

How long did you short the pins for?

It is only require 2 or 3 secs been shorted while pressing the "reset" push button SW2103 near the eMMC.

As I said to @Igor , those small pads, TP50265 and GND nearby are so small (yes, located on the top side), I took a tweezers and press hard to make sure contact was good, and then gently press "reset".

 

EDIT : I've tried to learn what those other pads on the bottom side are doing, I can't really tell, and the youtube clip is in chinese, which I'm not fluent with it (I don't know a single word) ... :lol:

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5 hours ago, martinayotte said:

It is only require 2 or 3 secs been shorted while pressing the "reset" push button SW2103 near the eMMC.

As I said to @Igor , those small pads, TP50265 and GND nearby are so small (yes, located on the top side), I took a tweezers and press hard to make sure contact was good, and then gently press "reset". 

 

EDIT : I've tried to learn what those other pads on the bottom side are doing, I can't really tell, and the youtube clip is in chinese, which I'm not fluent with it (I don't know a single word) ... :lol:

in youtube clip, he said: "short the emmc clk pin and ground".

 

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49 minutes ago, woodfe said:

short the emmc clk pin and ground


You could do that as well, but I guess it is even more tricky than by using test point. I wonder why they didn't simply install a switch? Or a jumper.

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