Difference between revisions of "CONFIG11 Registers"

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Line 8: Line 8:
 
|-
 
|-
 
| style="background: green" | Yes
 
| style="background: green" | Yes
| [[#CFG11_SHAREDWRAM_32K_DATA|CFG11_SHAREDWRAM_32K_DATA]]<0-7>
+
| [[#CFG11_SHAREDWRAM_32K_CODE|CFG11_SHAREDWRAM_32K_CODE]]<0-7>
 
| 0x10140000
 
| 0x10140000
 
| 1*8
 
| 1*8
Line 14: Line 14:
 
|-
 
|-
 
| style="background: green" | Yes
 
| style="background: green" | Yes
| [[#CFG11_SHAREDWRAM_32K_CODE|CFG11_SHAREDWRAM_32K_CODE]]<0-7>
+
| [[#CFG11_SHAREDWRAM_32K_DATA|CFG11_SHAREDWRAM_32K_DATA]]<0-7>
 
| 0x10140008
 
| 0x10140008
 
| 1*8
 
| 1*8
Line 32: Line 32:
 
|-
 
|-
 
| style="background: green" | Yes
 
| style="background: green" | Yes
| [[#CFG11_FIQ_CNT|CFG11_FIQ_CNT]]
+
| [[#CFG11_FIQ_MASK|CFG11_FIQ_MASK]]
 
| 0x10140104
 
| 0x10140104
 
| 1
 
| 1
Line 50: Line 50:
 
|-
 
|-
 
| style="background: green" | Yes
 
| style="background: green" | Yes
| Related to [[HID_Registers|HID_?]]
+
| [[#CFG11_CDMA_CNT|CFG_CDMA_CNT]]
 
| 0x1014010C
 
| 0x1014010C
 
| 2
 
| 2
Line 62: Line 62:
 
|-
 
|-
 
| style="background: green" | Yes
 
| style="background: green" | Yes
| [[#CFG11_WIFI_CNT|CFG11_WIFI_CNT]]
+
| [[#CFG11_WIFICNT|CFG11_WIFICNT]]
 
| 0x10140180
 
| 0x10140180
 
| 1
 
| 1
Line 70: Line 70:
 
| [[#CFG11_SPI_CNT|CFG11_SPI_CNT]]
 
| [[#CFG11_SPI_CNT|CFG11_SPI_CNT]]
 
| 0x101401C0
 
| 0x101401C0
| 4
+
| 2
 
| [[SPI Services]], TwlBg
 
| [[SPI Services]], TwlBg
 
|-
 
|-
Line 80: Line 80:
 
|-style="border-top: double"
 
|-style="border-top: double"
 
| style="background: red" | No
 
| style="background: red" | No
| Clock related?
+
| [[#CFG11_GPU_N3DS_CNT|CFG11_GPU_N3DS_CNT]]
 
| 0x10140400
 
| 0x10140400
 
| 1
 
| 1
Line 86: Line 86:
 
|-
 
|-
 
| style="background: red" | No
 
| style="background: red" | No
| Clock related?
+
| [[#CFG11_CDMA_PERIPHERALS|CFG11_CDMA_PERIPHERALS]]
 
| 0x10140410
 
| 0x10140410
 
| 4
 
| 4
Line 114: Line 114:
 
| 2
 
| 2
 
| Boot11, Kernel11
 
| Boot11, Kernel11
|-style="border-top: double"
 
| style="background: green" | Yes
 
| CFG11_GPU_STATUS?
 
| 0x10141000
 
| 4
 
| Kernel11, TwlBg
 
|-
 
| style="background: green" | Yes
 
| CFG11_PTM_0
 
| 0x10141008
 
| 4
 
| [[PTM Services]], [[PDN Services]]
 
|-
 
| style="background: green" | Yes
 
| CFG11_PTM_1
 
| 0x1014100C
 
| 4
 
| [[PTM Services]], TwlBg, [[PDN Services]]
 
|-style="border-top: double"
 
| style="background: green" | Yes
 
| [[#CFG11_TWLMODE_0|CFG11_TWLMODE_0]]
 
| 0x10141100
 
| 2
 
| TwlProcess9, TwlBg
 
|-
 
| style="background: green" | Yes
 
| [[#CFG11_TWLMODE_1|CFG11_TWLMODE_1]]
 
| 0x10141104
 
| 2
 
| TwlBg
 
|-
 
| style="background: green" | Yes
 
| [[#CFG11_TWLMODE_2|CFG11_TWLMODE_2]]
 
| 0x10141108
 
| 2
 
| TwlBg
 
|-
 
| style="background: green" | Yes
 
| [[#CFG11_TWLMODE_HID|CFG11_TWLMODE_HID]]
 
| 0x1014110A
 
| 2
 
| TwlBg
 
|-
 
| style="background: green" | Yes
 
| CFG11_WIFI?
 
| 0x1014110C
 
| 1
 
| [[NWM Services]]
 
|-
 
| style="background: green" | Yes
 
| ?
 
| 0x10141110
 
| 2
 
| TwlBg
 
|-
 
| style="background: green" | Yes
 
| ?
 
| 0x10141112
 
| 2
 
| TwlBg
 
|-
 
| style="background: green" | Yes
 
| [[#CFG11_CODEC|CFG11_CODEC_0]]
 
| 0x10141114
 
| 2
 
| [[CODEC Services]], TwlBg
 
|-
 
| style="background: green" | Yes
 
| [[#CFG11_CODEC|CFG11_CODEC_1]]
 
| 0x10141116
 
| 2
 
| [[CODEC Services]], TwlBg
 
|-
 
| style="background: green" | Yes
 
| ?
 
| 0x10141118
 
| 1
 
| TwlBg
 
|-
 
| style="background: green" | Yes
 
| ?
 
| 0x10141119
 
| 1
 
| TwlBg
 
|-
 
| style="background: green" | Yes
 
| ?
 
| 0x10141120
 
| 1
 
| TwlBg
 
|-
 
|-style="border-top: double"
 
| style="background: green" | Yes
 
| [[#CFG11_GPU_CNT|CFG11_GPU_CNT]]
 
| 0x10141200
 
| 4
 
| Boot11, Kernel11, [[PDN Services]]
 
|-
 
| style="background: green" | Yes
 
| [[#CFG11_GPU_CNT2|CFG11_GPU_CNT2]]
 
| 0x10141204
 
| 4
 
| Boot11, Kernel11
 
|-
 
| style="background: green" | Yes
 
| CFG11_GPU_CNT3
 
| 0x10141210
 
| 2
 
| Kernel11, TwlBg
 
|-
 
| style="background: green" | Yes
 
| [[#CFG11_CODEC_CNT|CFG11_CODEC_CNT]]
 
| 0x10141220
 
| 1
 
| Boot11, TwlBg, [[PDN Services]]
 
|-
 
| style="background: green" | Yes
 
| [[#CFG11_CAMERA_CNT|CFG11_CAMERA_CNT]]
 
| 0x10141224
 
| 1
 
| [[PDN Services]]
 
|-
 
| style="background: green" | Yes
 
| CFG11_DSP_CNT
 
| 0x10141230
 
| 1
 
| Process9, [[PDN Services]]
 
|-style="border-top: double"
 
| style="background: red" | No
 
| [[#CFG11_MPCORE_CLKCNT|CFG11_MPCORE_CLKCNT]]
 
| 0x10141300
 
| 2
 
| NewKernel11
 
|-
 
| style="background: red" | No
 
| [[#CFG11_MPCORE_CNT|CFG11_MPCORE_CNT]]
 
| 0x10141304
 
| 2
 
| NewKernel11
 
|-
 
| style="background: red" | No
 
| [[#CFG11_MPCORE_BOOTCNT<0-3>|CFG11_MPCORE_BOOTCNT]]<0-3>
 
| 0x10141310
 
| 1*4
 
| NewKernel11
 
 
|}
 
|}
  
== CFG11_SHAREDWRAM_32K_DATA ==
+
== CFG11_SHAREDWRAM_32K_CODE ==
 
Used for mapping 32K chunks of shared WRAM for DSP data.
 
Used for mapping 32K chunks of shared WRAM for DSP data.
  
Line 269: Line 124:
 
|-
 
|-
 
| 0-1
 
| 0-1
| Master (0=ARM9?, 1=ARM11?, 2 or 3=DSP/data)
+
| Master (0=ARM9?, 1=ARM11?, 2 or 3=DSP/code)
 
|-
 
|-
 
| 2-4
 
| 2-4
Line 281: Line 136:
 
|}
 
|}
  
== CFG11_SHAREDWRAM_32K_CODE ==
+
== CFG11_SHAREDWRAM_32K_DATA ==
 
Used for mapping 32K chunks of shared WRAM for DSP data.
 
Used for mapping 32K chunks of shared WRAM for DSP data.
  
Line 289: Line 144:
 
|-
 
|-
 
| 0-1
 
| 0-1
| Master (0=ARM9?, 1=ARM11?, 2 or 3=DSP/code)
+
| Master (0=ARM9?, 1=ARM11?, 2 or 3=DSP/data)
 
|-
 
|-
 
| 2-4
 
| 2-4
Line 301: Line 156:
 
|}
 
|}
  
== CFG11_FIQ_CNT ==
+
== CFG11_FIQ_MASK ==
Writing bit1 to this register disables FIQ interrupts.
+
Write bit N to mask FIQ interrutps on core N? (judging from what Kernel11 does -- it only ever configures FIQ for core1)
  
This bit is set upon receipt of a FIQ interrupt and when [[SVC|svcUnbindInterrupt]] is called on the FIQ-abstraction [[ARM11_Interrupts#Private_Interrupts|software interrupt]] for the current core.
+
== CFG11_CDMA_CNT ==
It is cleared when binding that software interrupt to an event and just before that event is signaled.
+
Write 1 to enable, to disable.
  
== CFG11_SPI_CNT ==
 
When the corresponding bit is 0, the bus has to be accessed using the DS SPI registers. Otherwise it has to be accessed using the 3DS SPI registers.
 
 
{| class="wikitable" border="1"
 
{| class="wikitable" border="1"
Bit
+
Bits
 
!  Description
 
!  Description
 
|-
 
|-
 
| 0
 
| 0
| Enable [[SPI Registers]] 0x10160000.
+
| Enable Microphone DMA (CDMA 0x00)
 
|-
 
|-
 
| 1
 
| 1
| Enable [[SPI Registers]] 0x10142000.
+
| Enable NTRCARD DMA on Arm11 side (CDMA 0x01)
 +
|-
 +
| 2-4
 +
| ?
 
|-
 
|-
| 2
+
| 5
| Enable [[SPI Registers]] 0x10143000.
+
| WiFi. Enabled during kernel init since 11.4.
 
|}
 
|}
  
== CFG11_BOOTROM_OVERLAY_CNT ==
+
== CFG11_SPI_CNT ==
Bit0: Enable bootrom overlay functionality.
+
When the corresponding bit is 0, the bus has to be accessed using the DS SPI registers. Otherwise it has to be accessed using the 3DS SPI registers.
 
 
== CFG11_BOOTROM_OVERLAY_VAL ==
 
The 32-bit value to overlay data-reads to bootrom with. See [[#CFG11_MPCORE_BOOTCNT|CFG11_MPCORE_BOOTCNT]].
 
 
 
== CFG11_SOCINFO ==
 
Read-only register.
 
 
 
 
{| class="wikitable" border="1"
 
{| class="wikitable" border="1"
Bits
+
Bit
 
!  Description
 
!  Description
!  Used by
 
 
|-
 
|-
 
| 0
 
| 0
| 1 on both Old3DS and New3DS.
+
| Enable [[SPI Registers]] 0x10160800.
| Boot11
 
 
|-
 
|-
 
| 1
 
| 1
| 1 on New3DS.
+
| Enable [[SPI Registers]] 0x10142800.
| Kernel11
 
 
|-
 
|-
 
| 2
 
| 2
| Clock modifier: if set, use a 3x multiplier, otherwise 2x
+
| Enable [[SPI Registers]] 0x10143800.
| Kernel11
 
 
|}
 
|}
  
== CFG11_MPCORE_CLKCNT ==
+
== CFG11_GPU_N3DS_CNT ==
This is used for configuring the New3DS ARM11 CPU clock-rate. This register is New3DS-only: reading from here on Old3DS always returns all-zeros even when one tried writing data here prior to the read.
 
 
 
 
{| class="wikitable" border="1"
 
{| class="wikitable" border="1"
Bits
+
Bit
 
!  Description
 
!  Description
 
|-
 
|-
 
| 0
 
| 0
| Enable clock multiplier? This must be set to 1 before writing a non-zero value to bit1-2, otherwise freeze.
+
| Enable N3DS mode? (enables access to the extra N3DS FCRAM banks, etc.)
 
|-
 
|-
| 1-2
+
| 1
| Clock multiplier (0=1x, 1=2x, 2=3x, 3=hang)
+
| Texture related? (observing texture glitches when disabling this bit)
|-
 
| 15
 
| Busy
 
 
|}
 
|}
  
[[SVC#KernelSetState|svcKernelSetState]] type10, only implemented on New3DS, uses this register. That code writes the following values to this register, depending on the input Param0 bit0 state, and the state of CFG11_MPCORE_CFG:
+
== CFG11_CDMA_PERIPHERALS ==
 
{| class="wikitable" border="1"
 
{| class="wikitable" border="1"
Register value
+
Bit
!  Higher-clockrate bit set in svcKernelSetState Param0
 
!  CFG11_MPCORE_CFG bit2 set
 
!  MPCore timer/watchdog prescaler value, prior to subtracting it by 0x1 when writing it into hw/state
 
!  Clock-rate multiplier
 
 
!  Description
 
!  Description
 
|-
 
|-
| 0x01
+
| 0-17
| No
+
| CDMA Peripheral 0x00-0x11 data request target (0=Old CDMA, 1=New CDMA)
| Yes
 
| 0x01
 
| 1x
 
| 268MHz
 
|-
 
| 0x02
 
| No
 
| No
 
| 0x01
 
| 1x
 
| 268MHz
 
|-
 
| 0x05
 
| Yes
 
| Yes
 
| 0x03
 
| 3x
 
| 804MHz
 
 
|-
 
|-
| 0x03
+
| 18-31
| Yes
+
| Unused
| No
 
| 0x02
 
| 2x
 
| 536MHz (tested on New3DS)
 
 
|}
 
|}
  
Note that the above CFG11_MPCORE_CFG bit is 1 on New3DS, and 0 on Old3DS. Since this SVC is only available with the New3DS ARM11-kernel, the only additional available clock-rate is 804MHz when running on New3DS(with official kernel code).
+
== CFG11_BOOTROM_OVERLAY_CNT ==
 +
Bit0: Enable bootrom overlay functionality.
  
The following register value(s) were tested on New3DS by patching the kernel:
+
== CFG11_BOOTROM_OVERLAY_VAL ==
* 0x00: Entire system hangs.
+
The 32-bit value to overlay data-reads to bootrom with. See [[PDN Registers#PDN_MPCORE_BOOTCNT|PDN_MPCORE_BOOTCNT]].
* 0x02: Entire system hangs.
 
* 0x03: ARM11 runs at 536MHz.
 
* 0x04: Entire system hangs.
 
* 0x06: Entire system hangs.
 
* 0x07: Same result as 0x05.
 
* 0x08: Entire system hangs.
 
* 0x09: Entire system hangs.
 
* 0x0A: Entire system hangs.
 
* 0x0B: Same result as 0x03.
 
* 0x0C: Entire system hangs.
 
* 0x0D: Same result as 0x05.
 
* 0x0E: Entire system hangs.
 
* 0x0F: Same result as 0x05.
 
* 0x1F, 0x2F, 0x4F, 0x8F, 0xFF: Same result as 0x05.
 
  
== CFG11_MPCORE_CNT ==
+
== CFG11_SOCINFO ==
{| class="wikitable" border="1"
+
Read-only register.
!  Bits
 
!  Description
 
|-
 
| 0
 
| Power on 3rd ARM11 MPCore maybe?
 
|-
 
| 8
 
| Power on 4th ARM11 MPCore maybe?
 
|}
 
  
== CFG11_MPCORE_BOOTCNT<0-3> ==
 
 
{| class="wikitable" border="1"
 
{| class="wikitable" border="1"
 
!  Bits
 
!  Bits
 
!  Description
 
!  Description
 +
!  Used by
 
|-
 
|-
 
| 0
 
| 0
| Enable bootrom instruction overlay, maybe? This bit is only writable for core2 and core3.
+
| 1 on both Old3DS and New3DS.
 +
| Boot11
 
|-
 
|-
 
| 1
 
| 1
| Enable bootrom data overlay. This bit is only writable for core2 and core3.
+
| 1 on New3DS.
 +
| Kernel11
 
|-
 
|-
| 4
+
| 2
| Has core booted maybe?
+
| N3DS SoC Mode: if set, use a 3x clock multiplier and 4 cores, otherwise 2x and 2 cores
|-
+
| Kernel11
| 5
 
| Always 1?
 
 
|}
 
|}
 
The normal ARM11 bootrom checks cpuid and hangs if cpuid >= 2. This is a problem when booting the 2 additional New3DS ARM11 MPCores. NewKernel11 solves this by using a hardware feature to overlay the bootrom with a configurable branch to a kernel function. This overlay feature was added with the New3DS.
 
 
Bit1 in register above enables a bootrom data-override for physical addresses 0xFFFF0000-0xFFFF1000 and 0x10000-0x11000. All _data reads_ made to those regions now read the 32-bit value provided in [[#CFG11_BOOTROM_OVERLAY_VAL|CFG11_BOOTROM_OVERLAY_VAL]].
 
 
Bit0 enables a bootrom instruction-overlay which means that _instruction reads_ made to the bootrom region are overridden. We have not been able to dump what instructions are actually placed at bootrom by this switch (because reading the area only yields data-reads). Jumping randomly into the 0xFFFF0000-0xFFFF1000 region works fine and jumps to the value provided by the data overlay [[#CFG11_BOOTROM_OVERLAY_VAL|CFG11_BOOTROM_OVERLAY_VAL]]. Thus we may predict that the entire bootrom region is filled by:
 
ldr pc, [pc]
 
 
Or equivalent. However, jumping to some high addresses such as 0xFFFF0FF0+ will crash the core. This may be explained by prefetching in the ARM pipeline, and might help us identify what instructions are placed by the instruction-overlay.
 
  
 
==CFG11_GPUPROT==
 
==CFG11_GPUPROT==
Line 471: Line 254:
 
| style="background: green" | Yes
 
| style="background: green" | Yes
 
| 3-0
 
| 3-0
| Old GPU DMA cutoff size
+
| Old FCRAM DMA cutoff size, 0 = no protection.
 
|-
 
|-
 
| style="background: red" | No
 
| style="background: red" | No
 
| 7-4
 
| 7-4
| New GPU DMA cutoff size
+
| New FCRAM DMA cutoff size, 0 = no protection.
 
|-
 
|-
 
| style="background: green" | Yes
 
| style="background: green" | Yes
 
| 8
 
| 8
| Enable old GPU DMA cutoff
+
| AXIWRAM protection, 0 = accessible.
 
|-
 
|-
 
| style="background: red" | No
 
| style="background: red" | No
| 9
+
| 10-9
| ?!?!?!
+
| QTM DMA cutoff size
 
|-
 
|-
| style="background: red" | No
+
| style="background: green" | Yes
| 10
+
| 31-11
| Enable new GPU DMA cutoff
+
| Zeroes
 
|}
 
|}
  
For the old GPU DMA cutoff, it appears to start at 0x28000000-(0x800000*x) length 0x800000*x.
+
For the old FCRAM DMA cutoff, it protects starting from 0x28000000-(0x800000*x) until end of FCRAM. There is no way to protect the first 0x800000-bytes.
 
 
For the new GPU DMA cutoff, it appears to start at 0x30000000-(0x800000*x) length 0x800000*x.
 
  
On cold boot this reg is set to 0.
+
For the new FCRAM DMA cutoff, it protects starting from 0x30000000-(0x800000*x) until end of FCRAM. When the old FCRAM cutoff is set to non-zero, the first 0x800000-bytes bytes of new FCRAM are protected.
  
Seems to control what memory GPU can access for DMA, this needs verified.
+
On New3DS the old+new FCRAM cutoff can be used at the same time, however this isn't done officially.
  
[[SVC|Initialized]] during kernel boot, and used with [[SVC]] 0x59 which was implemented with v11.3.
+
For the QTM DMA cutoff, it protects starting from 0x1F400000-(0x100000*x) until end of QTM mem.
  
==CFG11_WIFI_CNT==
+
On cold boot this reg is set to 0.
Bit0: Enable wifi.
 
  
==CFG11_TWLMODE_0==
+
When this register is set to value 0, the GPU can access the entire FCRAM, AXIWRAM, and on New3DS all QTM-mem.
Observed 0x8001 when running under TWL_ and AGB_FIRM, 0 NATIVE_FIRM.
 
  
This address is poked from ARM7 to signal that it has booted and begun executing code. The ARM7-mode address for this register is 0x4700000.
+
[[SVC|Initialized]] during kernel boot, and used with [[SVC]] 0x59 which was implemented with [[11.3.0-36|v11.3]].
  
The very last 3DS-mode register poke the [[FIRM|TWL_FIRM]] Process9 does before it gets switched into TWL-mode, is writing 0x8000 to this register. Before writing this register, TWL Process9 waits for ARM7 to change the value of this register. The Process9 code for this runs from ITCM, since switching into TWL-mode includes remapping all ARM9 physical memory.
+
==CFG11_WIFICNT==
 
+
{| class="wikitable" border="1"
Writing 0x8000 to here from the ARM9 with NATIVE_FIRM running doesn't seem to do anything, other reg-pokes likely need done first.
+
!  Old3DS
 
+
!  Bits
==CFG11_TWLMODE_1==
+
!  Description
Observed 0x8000 when running under TWL_FIRM, 0 NATIVE_FIRM.
+
|-
 
+
| style="background: green" | Yes
==CFG11_TWLMODE_2==
+
| 0
Bitfield.
+
| Enable wifi subsystem
 
+
|}
==CFG11_TWLMODE_HID==
 
The value of this register is copied to [[HID_Registers|HID_?]] under certain conditions.
 
 
 
==CFG11_WIFI?==
 
Bit4=unknown enabled by NWM on launch. Potentially powers on wifi card.
 
 
 
==CFG11_GPU_CNT==
 
This one seems to control the LCD/GPU/Backlight.
 
 
 
Bit0: Enable GPU registers at 0x10400000+.
 
Bit16: Turn on LCD backlight.
 
 
 
==CFG11_GPU_CNT2==
 
Bit0: Power on GPU?
 
 
 
==CFG11_GPU_CNT3==
 
Bit1: FCRAM access from ARM11? Clearing this bit in 3DS-mode causes the ARM11 and ARM9 to hang/crash.
 
 
 
==CFG11_CODEC==
 
The following is the only time the ARM11 CODEC module uses any 0x1EC41XXX registers. In one case CODEC module clears bit1 in register 0x1EC41114, in the other case CODEC module sets bit1 in registers 0x1EC41114 and 0x1EC41116.
 
 
 
==CFG11_CODEC_CNT==
 
This is the power register used for the [[CFG11_Services|PDN]] CODEC service.
 
 
 
bit0 = unknown, bit1 = turn on/off DSP, rest = always 0.
 
 
 
==CFG11_CAMERA_CNT==
 
This is the power register used for the [[CFG11_Services|PDN]] camera service.
 
 
 
bit0 = unknown, bit1 = turn on/off cameras, rest = always 0.
 

Revision as of 01:23, 6 June 2020

Registers

Old3DS Name Address Width Used by
Yes CFG11_SHAREDWRAM_32K_CODE<0-7> 0x10140000 1*8 Boot11, Process9, DSP Services
Yes CFG11_SHAREDWRAM_32K_DATA<0-7> 0x10140008 1*8 Boot11, Process9, DSP Services
Yes ? 0x10140100 2
Yes ? 0x10140102 2
Yes CFG11_FIQ_MASK 0x10140104 1 Kernel11.
Yes ? 0x10140105 1 Kernel11.
Yes Related to HID_? 0x10140108 2 TwlBg
Yes CFG_CDMA_CNT 0x1014010C 2 TwlBg
Yes CFG11_GPUPROT 0x10140140 4 Kernel11
Yes CFG11_WIFICNT 0x10140180 1 TwlBg, NWM Services
Yes CFG11_SPI_CNT 0x101401C0 2 SPI Services, TwlBg
Yes ? 0x10140200 4
No CFG11_GPU_N3DS_CNT 0x10140400 1 NewKernel11
No CFG11_CDMA_PERIPHERALS 0x10140410 4 NewKernel11
No CFG11_BOOTROM_OVERLAY_CNT 0x10140420 1 NewKernel11
No CFG11_BOOTROM_OVERLAY_VAL 0x10140424 4 NewKernel11
No ? 0x10140428 4
Yes CFG11_SOCINFO 0x10140FFC 2 Boot11, Kernel11

CFG11_SHAREDWRAM_32K_CODE

Used for mapping 32K chunks of shared WRAM for DSP data.

Bits Description
0-1 Master (0=ARM9?, 1=ARM11?, 2 or 3=DSP/code)
2-4 Offset (0..7) (slot 0..7) (LSB of address in 32Kbyte units)
5-6 Not used (0)
7 Enable (0=Disable, 1=Enable)

CFG11_SHAREDWRAM_32K_DATA

Used for mapping 32K chunks of shared WRAM for DSP data.

Bits Description
0-1 Master (0=ARM9?, 1=ARM11?, 2 or 3=DSP/data)
2-4 Offset (0..7) (slot 0..7) (LSB of address in 32Kbyte units)
5-6 Not used (0)
7 Enable (0=Disable, 1=Enable)

CFG11_FIQ_MASK

Write bit N to mask FIQ interrutps on core N? (judging from what Kernel11 does -- it only ever configures FIQ for core1)

CFG11_CDMA_CNT

Write 1 to enable, to disable.

Bits Description
0 Enable Microphone DMA (CDMA 0x00)
1 Enable NTRCARD DMA on Arm11 side (CDMA 0x01)
2-4 ?
5 WiFi. Enabled during kernel init since 11.4.

CFG11_SPI_CNT

When the corresponding bit is 0, the bus has to be accessed using the DS SPI registers. Otherwise it has to be accessed using the 3DS SPI registers.

Bit Description
0 Enable SPI Registers 0x10160800.
1 Enable SPI Registers 0x10142800.
2 Enable SPI Registers 0x10143800.

CFG11_GPU_N3DS_CNT

Bit Description
0 Enable N3DS mode? (enables access to the extra N3DS FCRAM banks, etc.)
1 Texture related? (observing texture glitches when disabling this bit)

CFG11_CDMA_PERIPHERALS

Bit Description
0-17 CDMA Peripheral 0x00-0x11 data request target (0=Old CDMA, 1=New CDMA)
18-31 Unused

CFG11_BOOTROM_OVERLAY_CNT

Bit0: Enable bootrom overlay functionality.

CFG11_BOOTROM_OVERLAY_VAL

The 32-bit value to overlay data-reads to bootrom with. See PDN_MPCORE_BOOTCNT.

CFG11_SOCINFO

Read-only register.

Bits Description Used by
0 1 on both Old3DS and New3DS. Boot11
1 1 on New3DS. Kernel11
2 N3DS SoC Mode: if set, use a 3x clock multiplier and 4 cores, otherwise 2x and 2 cores Kernel11

CFG11_GPUPROT

Old3DS Bits Description
Yes 3-0 Old FCRAM DMA cutoff size, 0 = no protection.
No 7-4 New FCRAM DMA cutoff size, 0 = no protection.
Yes 8 AXIWRAM protection, 0 = accessible.
No 10-9 QTM DMA cutoff size
Yes 31-11 Zeroes

For the old FCRAM DMA cutoff, it protects starting from 0x28000000-(0x800000*x) until end of FCRAM. There is no way to protect the first 0x800000-bytes.

For the new FCRAM DMA cutoff, it protects starting from 0x30000000-(0x800000*x) until end of FCRAM. When the old FCRAM cutoff is set to non-zero, the first 0x800000-bytes bytes of new FCRAM are protected.

On New3DS the old+new FCRAM cutoff can be used at the same time, however this isn't done officially.

For the QTM DMA cutoff, it protects starting from 0x1F400000-(0x100000*x) until end of QTM mem.

On cold boot this reg is set to 0.

When this register is set to value 0, the GPU can access the entire FCRAM, AXIWRAM, and on New3DS all QTM-mem.

Initialized during kernel boot, and used with SVC 0x59 which was implemented with v11.3.

CFG11_WIFICNT

Old3DS Bits Description
Yes 0 Enable wifi subsystem
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