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| test | ||
| build_kernel.sh | ||
| BUILD.gn | ||
| bundle.json | ||
| check_build.sh | ||
| kernel_build.py | ||
| kernel_module_build.sh | ||
| kernel.mk | ||
| LICENSE | ||
| OAT.xml | ||
| README_zh.md | ||
| README.md | ||
Patch
- Introduction
- Driver Patches for a Specific Chip Architecture (such as Hi3516D V300)
- Directory Structure
- Usage
- Build
- Repositories Involved
Introduction
Evolved from the open-source Linux kernel LTS 4.19.y and 5.10.y, the OpenHarmony Linux kernel has incorporated CVE patches and OpenHarmony features as the OpenHarmony common kernel baseline. Vendors can complete the kernel adaptation by applying the driver patches for boards.
For more information about Linux LTS 4.19.y, visit the official kernel website.
For more information about Linux LTS 5.10.y, visit the official kernel website.
During the build process, you can merge the driver code based on the chip platform and build the kernel image. All patches are licensed under GNU General Public License (GPL) 2.0.
Driver Patches for a Specific Chip Architecture (such as Hi3516D V300)
The vendor provides the driver code of the chip architecture.
hi3516dv300_small.patch: supports boot of the kernel of the Arm architecture (such as the DTS) and drivers such as DRM and MMC on Hi3516D V300.
Directory Structure
kernel/linux/patches
├── linux-4.19 # linux-4.19 patches
│ ├── common_patch
│ │ └── hdf.patch # linux-4.19 HDF patches
│ └── hispark_taurus_patch
│ └── hispark_taurus.patch # linux-4.19 Hi3516D V300 SOC patches
└── linux-5.10
├── common_patch
│ └── hdf.patch # linux-5.10 HDF patches
└── hispark_taurus_patch
│ └── hispark_taurus.patch # linux-5.10 Hi3516D V300 SOC patches
└── rk3568_patch
├── kernel.patch # linux-5.10 rk3568 SOC patches
└── hdf.patch # linux-5.10 rk3568 customized HDF patches
Usage
-
Apply HDF patches.
Apply the HDF kernel patches matching your kernel version. For details, see the method in kernel.mk in the kernel/linux/build repository.
$(OHOS_BUILD_HOME)/drivers/hdf_core/adapter/khdf/linux/patch_hdf.sh $(OHOS_BUILD_HOME) $(KERNEL_SRC_TMP_PATH) $(KERNEL_PATCH_PATH) $(DEVICE_NAME) -
Apply the chip driver patches.
The following uses Hi3516D V300 as an example.
Place the patches for the chip component in the corresponding path based on the path and naming rules for the patches of the chip component in kernel.mk in the kernel/linux/build repository.
DEVICE_PATCH_DIR := $(OHOS_BUILD_HOME)/kernel/linux/patches/${KERNEL_VERSION}/$(DEVICE_NAME)_patch DEVICE_PATCH_FILE := $(DEVICE_PATCH_DIR)/$(DEVICE_NAME).patch -
Modify the config file to build.
Place the config file for the chip component in the corresponding path based on the path and naming rules of the chip component in kernel.mk in the kernel/linux/build repository.
KERNEL_CONFIG_PATH := $(OHOS_BUILD_HOME)/kernel/linux/config/${KERNEL_VERSION} DEFCONFIG_FILE := $(DEVICE_NAME)_$(BUILD_TYPE)_defconfigNote
:
In the OpenHarmony project build process, patches are installed after kernel/linux/linux-5.10 is copied. Before using the version-level build command of OpenHarmony, ensure that the kernel/linux/linux-5.10 source code is available.
The kernel built is generated in the kernel directory under the out directory. Modify the config file based on the kernel built, and copy the generated .config file to the corresponding path in the config repository. Then, the configuration takes effect.
Build
The following uses the Hi3516D V300 development board and Ubuntu x86 server as an example.
Perform a full build for the project to generate the uImage kernel image.
./build.sh --product-name Hi3516DV300 # Build the Hi3516D V300 image.
--build-target build_kernel # Build the uImage kernel image of Hi3516D V300.
--gn-args linux_kernel_version=\"linux-5.10\" # Build the specified kernel version.