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1
Create a new project from a reference BSP file.
$ petalinux-create -t project -s <FULLPATH-TO-BSP>
用于从官方下载的BSP中抽取数据产生工程。
2
Create a new project based on the MicroBlaze™ template.
$ petalinux-create -t project -n <PRJ_NAME> --template microblaze
用于让petalinux工具包,从系统中抽取模板,产生工程。
3
Initialize a PetaLinux project within the project directory with an external HDF.
$ petalinux-config --get-hw-description=<PATH-TO-HDF-DIRECTORY>
用于指定一个位于工程目录之外的包含HDF的文件夹用于搜索。
4
Initialize a PetaLinux project from within the directory containing an HDF.
$ petalinux-config --get-hw-description -p <%PATH-TO-PETALINUX-PROJECT%>
用于指定一个petalinux工程目录。在工程目录的子目录中,搜索存放HDF文件。
5
Initialize a PetaLinux project from a neutral location
$ petalinux-config --get-hw-description <%PATH-TO-HDF%> -p <%PATH-TO-PETALINUX-PROJECT%>
用于指定一个petalinux工程目录。并指定一个单独的HDF文件。
6
Start the menuconfig for the system-level configuration:
$ petalinux-config
Parse the configuration onto Kconfig without opening the GUI, for the root filesystem:
$ petalinux-config -c rootfs --oldconfig
Load the Linux kernel configuration with a specific default configuration:
$ petalinux-config -c kernel --defconfig xilinx_zynq_base_trd_defconfig
Load the u-boot configuration with a specific default configuration:
$ petalinux-config -c u-boot --defconfig xilinx_zynqmp_zcu102_defconfig
Generate the source code for fsbl/fs-boot:
$ petalinux-config -c bootloader
7
Build the entire PetaLinux project
$ petalinux-build
Build the kernel forcefully
$ petalinux-build -c kernel -f
Compile a kernel forcefully
$ petalinux-build -c kernel -x compile -f
Clean all build collaterals from the U-Boot component of the PetaLinux project.
$ petalinux-build -c u-boot -x cleansstate
Create an updated FIT image from the current contents of the deploy area.
$ petalinux-build -x package
Clean all build collaterals. It removes build/, ${TMPDIR} and images. This will bring the
project to its initial state
\$ petalinux-build -x mrproper
Clear the build area of the PetaLinux project for archiving as a BSP or for revision
control. This example retains the images directory of the project
$ petalinux-build -x distclean
8
Download and boot a pre-built bitstream (and FSBL for Zynq-7000 or Zynq UltraScale+
MPSoC) via JTAG to a physical board.
$ petalinux-boot --jtag --prebuilt 1
Download and boot a pre-built U-Boot elf via JTAG to a physical board.
$ petalinux-boot --jtag --prebuilt 2
(For Zynq-7000, it downloads:
Download and boot a pre-built kernel image via JTAG to a physical board
$ petalinux-boot --jtag --prebuilt 3
(For Zynq-7000, it downloads:
Download and boot a built U-Boot image via JTAG to a physical board
$ petalinux-boot --jtag --u-boot
(For Zynq-7000, it downloads:
Download and boot a built kernel image via JTAG to a physical board.
$ petalinux-boot --jtag --kernel
(For Zynq-7000, it boots:
9
Load and boot a pre-built U-Boot elf via QEMU.
$ petalinux-boot --qemu --prebuilt 2
Load and boot a pre-built U-Boot elf via QEMU in root mode.
$ petalinux-boot --qemu --root --prebuilt 2
10
Create a BOOT.BIN file for a Zynq family device (including Zynq-7000 and Zynq UltraScale+ MPSoC).
$ petalinux-package --boot --format BIN --fsbl <%PATH-TO-FSBL%> --u-boot -o <%PATH-TO-OUTPUT-WITH-FILE-NAME%>
Create a BOOT.BIN file for a Zynq family device that includes a PL bitstream and FIT image.
$ petalinux-package --boot --format BIN --fsbl <%PATH-TO-FSBL%> --u-boot --fpga <%PATH-TO-BITSTREAM%> --kernel -o <%PATH-TO-OUTPUT%>
Create a BOOT.BIN file for a Zynq UltraScale+ MPSoC device that includes a PMU firmware.
$ petalinux-package --boot --u-boot --kernel --pmufw <%PATH_TO_PMUFW%>
11
Clean the project and then generate the BSP installation image (.BSP file)
$ petalinux-package --bsp --clean -o <%PATH-TO-BSP%> -p <%PATH-TO-PROJECT%>
Generate the BSP installation image that includes a reference hardware definition
$ petalinux-package --bsp --hwsource <%PATH-TO-HW-EXPORT%> -o <%PATH-TO-BSP%> -p <%PATH-TO-PROJECT%>
Generate the BSP installation image from a neutral location
$ petalinux-package --bsp -p <%PATH-TO-PROJECT%> -o <%PATH-TO-BSP%>
12
Generate uImage
$ petalinux-package --image -c kernel --format uImage
(The uImage is in <%plnx-proj-root%>/images/linux directory)
13
Include a specific bitstream in the pre-built area.
$ petalinux-package --prebuilt --fpga <%BITSTREAM%>
Include a specific data file in the pre-built area.
$ petalinux-package --prebuilt -a <%APP%>:images/<%APP%>
14
Launch the GNU GDB debugger
$ petalinux-util --gdb
Launch a specific Linux kernel image.
$ petalinux-util --jtag-logbuf -i <%PATH-TO-IMAGE%>
Launch the JTAG logger from a neutral location. This workflow is for Zynq-7000 devices only
$ petalinux-util --jtag-logbuf -i <%PATH-TO-IMAGE%> -p <%PATH-TO-PROJECT%>
To find the default bitstream of a project:
$ petalinux-util --find-hdf-bitstream
To find the bitstream of a hdf:
$ petalinux-util --find-hdf-bitstream --hdf-file <%path to hdf file%>
Toggle the WebTalk feature off.
$ petalinux-util --webtalk off
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