| U-Boot for Freescale i.MX6 |
| |
| This file contains information for the port of U-Boot to the Freescale i.MX6 |
| SoC. |
| |
| 1. CONVENTIONS FOR FUSE ASSIGNMENTS |
| ----------------------------------- |
| |
| 1.1 MAC Address: It is stored in fuse bank 4, with the 32 lsbs in word 2 and the |
| 16 msbs in word 3[15:0]. |
| For i.MX6SX and i.MX6UL, they have two MAC addresses. The second MAC address |
| is stored in fuse bank 4, with the 16 lsb in word 3[31:16] and the 32 msbs in |
| word 4. |
| |
| Example: |
| |
| For reading the MAC address fuses on a MX6Q: |
| |
| - The MAC address is stored in two fuse addresses (the fuse addresses are |
| described in the Fusemap Descriptions table from the mx6q Reference Manual): |
| |
| 0x620[31:0] - MAC_ADDR[31:0] |
| 0x630[15:0] - MAC_ADDR[47:32] |
| |
| In order to use the fuse API, we need to pass the bank and word values, which |
| are calculated as below: |
| |
| Fuse address for the lower MAC address: 0x620 |
| Base address for the fuses: 0x400 |
| |
| (0x620 - 0x400)/0x10 = 0x22 = 34 decimal |
| |
| As the fuses are arranged in banks of 8 words: |
| |
| 34 / 8 = 4 and the remainder is 2, so in this case: |
| |
| bank = 4 |
| word = 2 |
| |
| And the U-Boot command would be: |
| |
| => fuse read 4 2 |
| Reading bank 4: |
| |
| Word 0x00000002: 9f027772 |
| |
| Doing the same for the upper MAC address: |
| |
| Fuse address for the upper MAC address: 0x630 |
| Base address for the fuses: 0x400 |
| |
| (0x630 - 0x400)/0x10 = 0x23 = 35 decimal |
| |
| As the fuses are arranged in banks of 8 words: |
| |
| 35 / 8 = 4 and the remainder is 3, so in this case: |
| |
| bank = 4 |
| word = 3 |
| |
| And the U-Boot command would be: |
| |
| => fuse read 4 3 |
| Reading bank 4: |
| |
| Word 0x00000003: 00000004 |
| |
| ,which matches the ethaddr value: |
| => echo ${ethaddr} |
| 00:04:9f:02:77:72 |
| |
| Some other useful hints: |
| |
| - The 'bank' and 'word' numbers can be easily obtained from the mx6 Reference |
| Manual. For the mx6quad case, please check the "46.5 OCOTP Memory Map/Register |
| Definition" from the "i.MX 6Dual/6Quad Applications Processor Reference Manual, |
| Rev. 1, 04/2013" document. For example, for the MAC fuses we have: |
| |
| Address: |
| 21B_C620 Value of OTP Bank4 Word2 (MAC Address)(OCOTP_MAC0) |
| |
| 21B_C630 Value of OTP Bank4 Word3 (MAC Address)(OCOTP_MAC1) |
| |
| - The command '=> fuse read 4 2 2' reads the whole MAC addresses at once: |
| |
| => fuse read 4 2 2 |
| Reading bank 4: |
| |
| Word 0x00000002: 9f027772 00000004 |
| |
| NAND Boot on i.MX6 with SPL support |
| -------------------------------------- |
| |
| Writing/updating boot image in nand device is not straight forward in |
| i.MX6 platform and it requires boot control block(BCB) to be configured. |
| |
| BCB contains two data structures, Firmware Configuration Block(FCB) and |
| Discovered Bad Block Table(DBBT). FCB has nand timings, DBBT search area, |
| and firmware. See IMX6DQRM Section 8.5.2.2 |
| for more information. |
| |
| We can't use 'nand write' command to write SPL/firmware image directly |
| like other platforms does. So we need special setup to write BCB block |
| as per IMX6QDL reference manual 'nandbcb update' command do that job. |
| |
| for nand boot, up on reset bootrom look for FCB structure in |
| first block's if FCB found the nand timings are loaded for |
| further reads. once FCB read done, DTTB will be loaded and |
| finally firmware will be loaded which is boot image. |
| |
| cmd_nandbcb will create FCB these structures |
| by taking mtd partition as an example. |
| - initial code will erase entire partition |
| - followed by FCB setup, like first 2 blocks for FCB/DBBT write, |
| and next block for FW1/SPL |
| - write firmware at FW1 block and |
| - finally write fcb/dttb in first 2 block. |
| |
| Typical NAND BCB layout: |
| ======================= |
| |
| no.of blocks = partition size / erasesize |
| no.of fcb/dbbt blocks = 2 |
| FW1 offset = no.of fcb/dbbt |
| |
| block 0 1 2 |
| ------------------------------- |
| |FCB/DBBT 0|FCB/DBBT 1| FW 1 | |
| -------------------------------- |
| |
| On summary, nandbcb update will |
| - erase the entire partition |
| - create BCB by creating 2 FCB/BDDT block followed by |
| 1 FW blocks based on partition size and erasesize. |
| - fill FCB/DBBT structures |
| - write FW/SPL in FW1 |
| - write FCB/DBBT in first 2 blocks |
| |
| step-1: write SPL |
| |
| icorem6qdl> ext4load mmc 0:1 $loadaddr SPL |
| 39936 bytes read in 10 ms (3.8 MiB/s) |
| |
| icorem6qdl> nandbcb update $loadaddr spl $filesize |
| device 0 offset 0x0, size 0x9c00 |
| Erasing at 0x1c0000 -- 100% complete. |
| NAND fw write: 0x80000 offset, 0xb000 bytes written: OK |
| |
| step-2: write u-boot-dtb.img |
| |
| icorem6qdl> nand erase.part uboot |
| |
| NAND erase.part: device 0 offset 0x200000, size 0x200000 |
| Erasing at 0x3c0000 -- 100% complete. |
| OK |
| |
| icorem6qdl> ext4load mmc 0:1 $loadaddr u-boot-dtb.img |
| 589094 bytes read in 37 ms (15.2 MiB/s) |
| |
| icorem6qdl> nand write ${loadaddr} uboot ${filesize} |
| |
| NAND write: device 0 offset 0x200000, size 0x8fd26 |
| 589094 bytes written: OK |
| icorem6qdl> |