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The Linux coding style guide (Documentation/process/coding-style.rst) clearly says: It's a **mistake** to use typedef for structures and pointers. Besides, using typedef for structures is annoying when you try to make headers self-contained. Let's say you have the following function declaration in a header: void foo(bd_t *bd); This is not self-contained since bd_t is not defined. To tell the compiler what 'bd_t' is, you need to include <asm/u-boot.h> #include <asm/u-boot.h> void foo(bd_t *bd); Then, the include direcective pulls in more bloat needlessly. If you use 'struct bd_info' instead, it is enough to put a forward declaration as follows: struct bd_info; void foo(struct bd_info *bd); Right, typedef'ing bd_t is a mistake. I used coccinelle to generate this commit. The semantic patch that makes this change is as follows: <smpl> @@ typedef bd_t; @@ -bd_t +struct bd_info </smpl> Signed-off-by: Masahiro Yamada <masahiroy@kernel.org> |
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ddr.c | ||
Kconfig | ||
law.c | ||
MAINTAINERS | ||
Makefile | ||
mpc8641hpcn.c | ||
README |
Freescale MPC8641HPCN board =========================== Created 05/24/2006 Haiying Wang ------------------------------- 1. Building U-Boot ------------------ The 86xx HPCN code base is known to compile using: Binutils 2.15, Gcc 3.4.3, Glibc 2.3.3 $ make MPC8641HPCN_config Configuring for MPC8641HPCN board... $ make 2. Switch and Jumper Setting ---------------------------- Jumpers: J14 Pins 1-2 (near plcc32 socket) Switches: SW1(1-5) = 01100 CONFIG_SYS_COREPLL = 01000 :: CORE = 2:1 01100 :: CORE = 2.5:1 10000 :: CORE = 3:1 11100 :: CORE = 3.5:1 10100 :: CORE = 4:1 01110 :: CORE = 4.5:1 SW1(6-8) = 001 CONFIG_SYS_SYSCLK = 000 :: SYSCLK = 33MHz 001 :: SYSCLK = 40MHz SW2(1-4) = 1100 CONFIG_SYS_CCBPLL = 0010 :: 2X 0100 :: 4X 0110 :: 6X 1000 :: 8X 1010 :: 10X 1100 :: 12X 1110 :: 14X 0000 :: 16X SW2(5-8) = 1110 CONFIG_SYS_BOOTLOC = 1110 :: boot 16-bit localbus SW3(1-7) = 0011000 CONFIG_SYS_VID = 0011000 :: VCORE = 1.2V 0100000 :: VCORE = 1.11V SW3(8) = 0 VCC_PLAT = 0 :: VCC_PLAT = 1.2V 1 :: VCC_PLAT = 1.0V SW4(1-2) = 11 CONFIG_SYS_HOSTMODE = 11 :: both prots host/root SW4(3-4) = 11 CONFIG_SYS_BOOTSEQ = 11 :: no boot seq SW4(5-8) = 0011 CONFIG_SYS_IOPORT = 0011 :: both PEX SW5(1) = 1 CONFIG_SYS_FLASHMAP = 1 :: boot from flash 0 :: boot from PromJet SW5(2) = 1 CONFIG_SYS_FLASHBANK = 1 :: swap upper/lower halves (virtual banks) 0 :: normal SW5(3) = 0 CONFIG_SYS_FLASHWP = 0 :: not protected SW5(4) = 0 CONFIG_SYS_PORTDIV = 1 :: 2:1 for PD4 1:1 for PD6 SW5(5-6) = 11 CONFIG_SYS_PIXISOPT = 11 :: s/w determined SW5(7-8) = 11 CONFIG_SYS_LADOPT = 11 :: s/w determined SW6(1) = 1 CONFIG_SYS_CPUBOOT = 1 :: no boot holdoff SW6(2) = 1 CONFIG_SYS_BOOTADDR = 1 :: no traslation SW6(3-5) = 000 CONFIG_SYS_REFCLKSEL = 000 :: 100MHZ SW6(6) = 1 CONFIG_SYS_SERROM_ADDR= 1 :: SW6(7) = 1 CONFIG_SYS_MEMDEBUG = 1 :: SW6(8) = 1 CONFIG_SYS_DDRDEBUG = 1 :: SW8(1) = 1 ACZ_SYNC = 1 :: 48MHz on TP49 SW8(2) = 1 ACB_SYNC = 1 :: THRMTRIP disabled SW8(3) = 1 ACZ_SDOUT = 1 :: p4 mode SW8(4) = 1 ACB_SDOUT = 1 :: PATA freq. = 133MHz SW8(5) = 0 SUSLED = 0 :: SouthBridge Mode SW8(6) = 0 SPREAD = 0 :: REFCLK SSCG Disabled SW8(7) = 1 ACPWR = 1 :: non-battery SW8(8) = 0 CONFIG_SYS_IDWP = 0 :: write enable 3. Flash U-Boot --------------- The flash range 0xEF800000 to 0xEFFFFFFF can be divided into 2 halves. It is possible to use either half to boot using U-Boot. Switch 5 bit 2 is used for this purpose. 0xEF800000 to 0xEFBFFFFF - 4MB 0xEFC00000 to 0xEFFFFFFF - 4MB When this bit is 0, U-Boot is at 0xEFF00000. When this bit is 1, U-Boot is at 0xEFB00000. Use the above mentioned flash commands to program the other half, and use switch 5, bit 2 to alternate between the halves. Note: The booting version of U-Boot will always be at 0xEFF00000. To Flash U-Boot into the booting bank (0xEFC00000 - 0xEFFFFFFF): tftp 1000000 u-boot.bin protect off all erase eff00000 +$filesize cp.b 1000000 eff00000 $filesize or use tftpflash command: run tftpflash To Flash U-Boot into the alternative bank (0xEF800000 - 0xEFBFFFFF): tftp 1000000 u-boot.bin erase efb00000 +$filesize cp.b 1000000 efb00000 $filesize 4. Memory Map ------------- NOTE: RIO and PCI are mutually exclusive, so they share an address For 32-bit U-Boot, devices are mapped so that the virtual address == the physical address, and the map looks liks this: Memory Range Device Size ------------ ------ ---- 0x0000_0000 0x7fff_ffff DDR 2G 0x8000_0000 0x9fff_ffff RIO MEM 512M 0x8000_0000 0x9fff_ffff PCI1/PEX1 MEM 512M 0xa000_0000 0xbfff_ffff PCI2/PEX2 MEM 512M 0xffe0_0000 0xffef_ffff CCSR 1M 0xffdf_0000 0xffdf_7fff PIXIS 8K 0xffdf_8000 0xffdf_ffff CF 8K 0xf840_0000 0xf840_3fff Stack space 32K 0xffc0_0000 0xffc0_ffff PCI1/PEX1 IO 64K 0xffc1_0000 0xffc1_ffff PCI2/PEX2 IO 64K 0xef80_0000 0xefff_ffff Flash 8M For 36-bit-enabled U-Boot, the virtual map is the same as for 32-bit. However, the physical map is altered to reside in 36-bit space, as follows. Addresses are no longer mapped with VA == PA. All accesses from software use the VA; the PA is only used for setting up windows and mappings. Note that with the exception of PCI MEM and RIO, the low 32 bits are the same as the VA above; only the top 4 bits vary: Memory Range Device Size ------------ ------ ---- 0x0_0000_0000 0x0_7fff_ffff DDR 2G 0xc_0000_0000 0xc_1fff_ffff RIO MEM 512M 0xc_0000_0000 0xc_1fff_ffff PCI1/PEX1 MEM 512M 0xc_2000_0000 0xc_3fff_ffff PCI2/PEX2 MEM 512M 0xf_ffe0_0000 0xf_ffef_ffff CCSR 1M 0xf_ffdf_0000 0xf_ffdf_7fff PIXIS 8K 0xf_ffdf_8000 0xf_ffdf_ffff CF 8K 0x0_f840_0000 0xf_f840_3fff Stack space 32K 0xf_ffc0_0000 0xf_ffc0_ffff PCI1/PEX1 IO 64K 0xf_ffc1_0000 0xf_ffc1_ffff PCI2/PEX2 IO 64K 0xf_ef80_0000 0xf_efff_ffff Flash 8M 5. pixis_reset command -------------------- A new command, "pixis_reset", is introduced to reset mpc8641hpcn board using the FPGA sequencer. When the board restarts, it has the option of using either the current or alternate flash bank as the boot image, with or without the watchdog timer enabled, and finally with or without frequency changes. Usage is; pixis_reset pixis_reset altbank pixis_reset altbank wd pixis_reset altbank cf <SYSCLK freq> <COREPLL ratio> <MPXPLL ratio> pixis_reset cf <SYSCLK freq> <COREPLL ratio> <MPXPLL ratio> Examples; /* reset to current bank, like "reset" command */ pixis_reset /* reset board but use the to alternate flash bank */ pixis_reset altbank /* reset board, use alternate flash bank with watchdog timer enabled*/ pixis_reset altbank wd /* reset board to alternate bank with frequency changed. * 40 is SYSCLK, 2.5 is COREPLL ratio, 10 is MPXPLL ratio */ pixis-reset altbank cf 40 2.5 10 Valid clock choices are in the 8641 Reference Manuals.