X-Git-Url: https://git.rohieb.name/openwrt.git/blobdiff_plain/d1d50072edabfcb188caad33f570b20e8837f4a4..b724d5aeefbd3da0884168d36d88997b75e27207:/docs/adding.tex diff --git a/docs/adding.tex b/docs/adding.tex index 2b47e6a32..97547ac85 100644 --- a/docs/adding.tex +++ b/docs/adding.tex @@ -15,7 +15,7 @@ when they do, you will most likely not be able to complete the firmware creation This is one of the reasons why OpenWrt and other firmware exists: providing a version independent, and tools independent firmware, that can be run on various -platforms, known to be running Linux originaly. +platforms, known to be running Linux originally. \subsection{Which Operating System does this device run?} @@ -135,7 +135,7 @@ OpenWrt target. By using a serial port and a level shifter, you may reach the console that is being shown by the device for debugging or flashing purposes. By analysing the output of this device, you can -easily notice if the device uses a Linux kenrel or something different. +easily notice if the device uses a Linux kernel or something different. \subsection{Finding and using the manufacturer SDK} @@ -238,11 +238,11 @@ your specific device. Of course, the content produced by the \textbf{diff -urN} may not always be relevant, so that you have to clean up those patches to only let the "must have" code into them. -The fist patch will contain all the code that is needed by the board to be +The first patch will contain all the code that is needed by the board to be initialized at startup, as well as processor detection and other boot time specific fixes. -The second patch will contain all useful definitions for that board: adresses, +The second patch will contain all useful definitions for that board: addresses, kernel granularity, redefinitions, processor family and features ... The third patch may contain drivers for: serial console, ethernet NIC, wireless @@ -256,7 +256,7 @@ this hardware. The bootloader is the first program that is started right after your device has been powered on. This program, can be more or less sophisticated, some do let you do network booting, USB mass storage booting ... The bootloader is device and -architeture specific, some bootloaders were designed to be universal such as +architecture specific, some bootloaders were designed to be universal such as RedBoot or U-Boot so that you can meet those loaders on totally different platforms and expect them to behave the same way. @@ -331,10 +331,10 @@ You might want to understand the firmware format, even if you are not yet capabl of running a custom firmware on your device, because this is sometimes a blocking part of the flashing process. -A firmare format is most of the time composed of the following fields: +A firmware format is most of the time composed of the following fields: \begin{itemize} -\item header, containing a firmare version and additional fields: Vendor, Hardware version ... +\item header, containing a firmware version and additional fields: Vendor, Hardware version ... \item CRC32 checksum on either the whole file or just part of it \item Binary and/or compressed kernel image \item Binary and/or compressed root filesystem image @@ -342,7 +342,7 @@ A firmare format is most of the time composed of the following fields: \end{itemize} Once you have figured out how the firmware format is partitioned, you will have -to write your own tool that produces valid firmare binaries. One thing to be very +to write your own tool that produces valid firmware binaries. One thing to be very careful here is the endianness of either the machine that produces the binary firmware and the device that will be flashed using this binary firmware. @@ -418,7 +418,7 @@ static int __init device_mtd_init(void) return -EIO; } - // Initlialise the device map + // Initialize the device map simple_map_init(&device_map); /* MTD informations are closely linked to the flash map device @@ -474,7 +474,117 @@ module_init(device_mtd_init); module_exit(device_mtd_cleanup); -// Macros defining licence and author, parameters can be defined here too. +// Macros defining license and author, parameters can be defined here too. MODULE_LICENSE("GPL"); MODULE_AUTHOR("Me, myself and I $(KDIR)/vmlinux.bin.gz + $(STAGING_DIR_HOST)/bin/lzma e $(KDIR)/vmlinux $(KDIR)/vmlinux.bin.l7 + dd if=$(KDIR)/vmlinux.bin.l7 of=$(BIN_DIR)/openwrt-$(BOARD)-vmlinux.lzma bs=65536 conv=sync + dd if=$(KDIR)/vmlinux.bin.gz of=$(BIN_DIR)/openwrt-$(BOARD)-vmlinux.gz bs=65536 conv=sync +endef + +define Image/Build/squashfs + $(call prepare_generic_squashfs,$(KDIR)/root.squashfs) +endef + +define Image/Build + $(call Image/Build/$(1)) + dd if=$(KDIR)/root.$(1) of=$(BIN_DIR)/openwrt-$(BOARD)-root.$(1) bs=128k conv=sync + + -$(STAGING_DIR_HOST)/bin/mkfwimage \ + -B XS2 -v XS2.ar2316.OpenWrt \ + -k $(BIN_DIR)/openwrt-$(BOARD)-vmlinux.lzma \ + -r $(BIN_DIR)/openwrt-$(BOARD)-root.$(1) \ + -o $(BIN_DIR)/openwrt-$(BOARD)-ubnt2-$(1).bin +endef + +$(eval $(call BuildImage)) + +\end{Verbatim} + +\begin{itemize} + \item \texttt{Image/BuildKernel} \\ + This template defines changes to be made to the ELF kernel file + \item \texttt{Image/Build} \\ + This template defines the final changes to apply to the rootfs and kernel, either combined or separated + firmware creation tools can be called here as well. +\end{itemize}