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I am trying to access some registers of ULPI transceiver chip on my embedded board. i found that my read operation for the specific chips are resulting in zero. I am able to access the memory area just above it without any issues.

The only difference between these to area is that the 1st area (I can read) has 32 bit address where as the second area (which I cannot read) has 8 bit address.

root@FX7500000000:/tmp# ./devmem 0x48062000 //this is 32 bit address range and I am able to read.
/dev/mem opened.
Memory mapped at address 0x40023000.
Value at address 0x48062000 (0x40023000): 0x15
root@FX7500000000:/tmp# ./devmem 0x48062010
/dev/mem opened.
Memory mapped at address 0x40023000.
Value at address 0x48062010 (0x40023010): 0x115
root@FX7500000000:/tmp# ./devmem 0x48062014
/dev/mem opened.
Memory mapped at address 0x40023000.
Value at address 0x48062014 (0x40023014): 0x1
root@FX7500000000:/tmp# ./devmem 0x48062018
/dev/mem opened.
Memory mapped at address 0x40023000.
Value at address 0x48062018 (0x40023018): 0x4
root@FX7500000000:/tmp# ./devmem 0x4806201c
/dev/mem opened.
Memory mapped at address 0x40023000.
Value at address 0x4806201C (0x4002301c): 0x0
root@FX7500000000:/tmp# ./devmem 0x4806203c
/dev/mem opened.
Memory mapped at address 0x40023000.
Value at address 0x4806203C (0x4002303c): 0x0
root@FX7500000000:/tmp# ./devmem 0x48062030
/dev/mem opened.
Memory mapped at address 0x40023000.
Value at address 0x48062030 (0x40023030): 0x64
root@FX7500000000:/tmp# ./devmem 0x48062040
/dev/mem opened.
Memory mapped at address 0x40023000.
**Value at address 0x48062040 (0x40023040): 0x6D8** //I am find until here. 
root@FX7500000000:/tmp# ./devmem 0x48062800
/dev/mem opened.
Memory mapped at address 0x40023000.
Value at address 0x48062800 (0x40023800): 0x0
root@FX7500000000:/tmp# ./devmem 0x48062800 b // I also specified I need to read a byte value
/dev/mem opened.
**Memory mapped at address 0x40023000.
Value at address 0x48062800 (0x40023800): 0x0**

I tried the same with different read operations i.e read from kernel space, but the results are the same? Do i need to so something special for this area? I read the Technical reference manual but nothing specific pop-up to me clearly.

http://www.ti.com/litv/pdf/sprugr0b

Below is the relevant portion of the TRM manual.

CAUTION On ULPI PHY-side register access over L4-Core interconnect: ULPI registers are byte-sized, and can only be accessed in this size. Attempts to access them over L4-Core interconnect using any other data size (16- or 32-bit) will complete without error (or any other warning), but will result in undefined behaviors. The following cases can cause problems:

  • If the ULPI register contents are defined as static (nonvolatile) by the software, a cache update may result in a burst of 32-bit access, with unwanted consequences.
  • Some registers have adjacent overwrite, set, and clear addresses. An oversized write access could clear and set the same bit, which can have several results.
  • Some registers are cleared on read: oversized read accesses to adjacent memory locations could cause unwanted clears.

Table 20-109. USBTLL Register Mapping Summary (L4-Core Interconnect Register Space)

Register Width
Register Name Type (Bits) Address Offset Physical Address Section
USBTLL_REVISION R 32 0x0000 0000 0x4806 2000 Section 20.2.6.4.1
USBTLL_SYSCONFIG RW 32 0x0000 0010 0x4806 2010 Section 20.2.6.4.2
USBTLL_SYSSTATUS R 32 0x0000 0014 0x4806 2014 Section 20.2.6.4.3
USBTLL_IRQSTATUS RW 32 0x0000 0018 0x4806 2018 Section 20.2.6.4.4
USBTLL_IRQENABLE RW 32 0x0000 001C 0x4806 201C Section 20.2.6.4.5
TLL_SHARED_CONF RW 32 0x0000 0030 0x4806 2030 Section 20.2.6.4.6
TLL_CHANNEL_CONF_i (1) RW 32 0x0000 0040 + 0x4806 2040 + Section 20.2.6.4.7
(0x04 x I) (0x04 x I)
ULPI_VENDOR_ID_LO_i (1) R 8 0x0000 0800 + 0x4806 2800 + Section 20.2.6.4.8
(0x100 x I) (0x100 x I)
ULPI_VENDOR_ID_HI_i (1) R 8 0x0000 0001 + 0x4806 2801 + Section 20.2.6.4.9
(0x100 x I) (0x100 x I)
ULPI_PRODUCT_ID_LO_i (1) R 8 0x0000 0002 + 0x4806 2802 + Section
(0x100 x I) (0x100 x I) 20.2.6.4.10
ULPI_PRODUCT_ID_HI_i (1) R 8 0x0000 0003 + 0x4806 2803 + Section
(0x100 x I) (0x100 x I) 20.2.6.4.11
ULPI_FUNCTION_CTRL_i (1) RW 8 0x0000 0004 + 0x4806 2804 + Section
(0x100 x I) (0x100 x I) 20.2.6.4.12
ULPI_FUNCTION_CTRL_SET_i (1) RW 8 0x0000 0005 + 0x4806 2805 + Section
(0x100 x I) (0x100 x I) 20.2.6.4.13
ULPI_FUNCTION_CTRL_CLR_i (1) RW 8 0x0000 0006 + 0x4806 2806 + Section
(0x100 x I) (0x100 x I) 20.2.6.4.14
ULPI_INTERFACE_CTRL_i (1) RW 8 0x0000 0007 + 0x4806 2807 + Section
(0x100 x I) (0x100 x I) 20.2.6.4.15
ULPI_INTERFACE_CTRL_SET_i (1) RW 8 0x0000 0008 + 0x4806 2808 + Section
(0x100 x I) (0x100 x I) 20.2.6.4.16

I would appreciate your reply.

share|improve this question
    
Did you check the size of the iomap region? Is it possible that the ULPI mapping is only 2k? The ULPI mapping is suppose to be standard. I think it has some big holes in it. Also, you TRM specifically says that the memory must not be cached. Find out where Linux is mapping the memory and add that to your post. –  artless noise Aug 3 '13 at 2:10
    
I was able to turn on and turn off USB power by writing ULPI register's DRVVVBUS bit. 1) ./devmem 0x480648A0 w 0x20 (enable write access to USB register) // you need to do this one time only 2)Turn off the USB by clearing the DRVVBUS of the ULPI register ./devmem 0x480648A4 w 0x818c0020 //whenever you want to turn off USB use this command. 3)To turn On the USB again by setting DRVVBUS of the ULPI register ./devmem 0x480648A4 w 0x818b0020 //whenever you want to turn on USB run this command. –  user1867459 Sep 12 '13 at 14:07
    
I used devmem utility after compiling for my architecture. free-electrons.com/issues/debian/wnpp/595805/devmem.c –  user1867459 Sep 12 '13 at 14:16

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