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https://github.com/AsahiLinux/u-boot
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9e4140329e
This commit changes the working directory where the build process occurs. Before this commit, build process occurred under the source tree for both in-tree and out-of-tree build. That's why we needed to add $(obj) prefix to all generated files in makefiles like follows: $(obj)u-boot.bin: $(obj)u-boot Here, $(obj) is empty for in-tree build, whereas it points to the output directory for out-of-tree build. And our old build system changes the current working directory with "make -C <sub-dir>" syntax when descending into the sub-directories. On the other hand, Kbuild uses a different idea to handle out-of-tree build and directory descending. The build process of Kbuild always occurs under the output tree. When "O=dir/to/store/output/files" is given, the build system changes the current working directory to that directory and restarts the make. Kbuild uses "make -f $(srctree)/scripts/Makefile.build obj=<sub-dir>" syntax for descending into sub-directories. (We can write it like "make $(obj)=<sub-dir>" with a shorthand.) This means the current working directory is always the top of the output directory. Signed-off-by: Masahiro Yamada <yamada.m@jp.panasonic.com> Tested-by: Gerhard Sittig <gsi@denx.de> |
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| .. | ||
| bootscript | ||
| fpga.c | ||
| fpga.h | ||
| Makefile | ||
| mvblm7.c | ||
| mvblm7.h | ||
| pci.c | ||
| README.mvblm7 | ||
Matrix Vision mvBlueLYNX-M7 (mvBL-M7) ------------------------------------- 1. Board Description The mvBL-M7 is a 120x120mm single board computing platform with strong focus on stereo image processing applications. Power Supply is either VDC 12-48V or Pover over Ethernet (PoE) on any port (requires add-on board). 2 System Components 2.1 CPU Freescale MPC8343VRAGDB CPU running at 400MHz core and 266MHz csb. 512MByte DDR-II memory @ 133MHz. 8 MByte Nor Flash on local bus. 2 Vitesse VSC8601 RGMII ethernet Phys. 1 USB host controller over ULPI I/F. 2 serial ports. Console running on ttyS0 @ 115200 8N1. 1 SD-Card slot connected to SPI. System configuration (HRCW) is taken from I2C EEPROM. 2.2 PCI A miniPCI Type-III socket is present. PCI clock fixed at 66MHz. 2.3 FPGA Altera Cyclone-II EP2C20/35 with PCI DMA engines. Connects to dual Matrix Vision specific CCD/CMOS sensor interfaces. Utilizes another 256MB DDR-II memory and 32-128MB Nand Flash. 2.3.1 I/O @ FPGA 2x8 Outputs : Infineon High-Side Switches to Main Supply. 2x8 Inputs : Programmable input threshold + trigger capabilities 2 dedicated flash interfaces for illuminator boards. Cross trigger for chaining several boards. 2.4 I2C Bus1: MAX5381 DAC @ 0x60 for 1st digital input threshold. LM75 @ 0x90 for temperature monitoring. EEPROM @ 0xA0 for system setup (HRCW etc.) + vendor specifics. 1st image sensor interface (slave addresses depend on sensor) Bus2: MAX5381 DAC @ 0x60 for 2nd digital input threshold. 2nd image sensor interface (slave addresses depend on sensor) 3 Flash layout. reset vector is 0xFFF00100, i.e. "HIGHBOOT". FF800000 environment FF802000 redundant environment FF804000 u-boot script image FF806000 redundant u-boot script image FF808000 device tree blob FF80A000 redundant device tree blob FF80C000 tbd. FF80E000 tbd. FF810000 kernel FFC00000 root FS FFF00000 u-boot FFF80000 FPGA raw bit file mtd partitions are propagated to linux kernel via device tree blob. 4 Booting On startup the bootscript @ FF804000 is executed. This script can be exchanged easily. Default boot mode is "boot from flash", i.e. system works stand-alone. This behaviour depends on some environment variables : "netboot" : yes ->try dhcp/bootp and boot from network. A "dhcp_client_id" and "dhcp_vendor-class-identifier" can be used for DHCP server configuration, e.g. to provide different images to different devices. During netboot the system tries to get 3 image files: 1. Kernel - name + data is given during BOOTP. 2. Initrd - name is stored in "initrd_name" 3. device tree blob - name is stored in "dtb_name" Fallback files are the flash versions.