Command syntax extensions for the new uImage format =================================================== Author: Bartlomiej Sieka <tur@semihalf.com> With the introduction of the new uImage format, bootm command (and other commands as well) have to understand new syntax of the arguments. This is necessary in order to specify objects contained in the new uImage, on which bootm has to operate. This note attempts to first summarize bootm usage scenarios, and then introduces new argument syntax. bootm usage scenarios --------------------- Below is a summary of bootm usage scenarios, focused on booting a PowerPC Linux kernel. The purpose of the following list is to document a complete list of supported bootm usages. Note: U-Boot supports two methods of booting a PowerPC Linux kernel: old way, i.e., without passing the Flattened Device Tree (FDT), and new way, where the kernel is passed a pointer to the FDT. The boot method is indicated for each scenario. 1. bootm boot image at the current address, equivalent to 2,3,8 Old uImage: 2. bootm <addr1> /* single image at <addr1> */ 3. bootm <addr1> /* multi-image at <addr1> */ 4. bootm <addr1> - /* multi-image at <addr1> */ 5. bootm <addr1> <addr2> /* single image at <addr1> */ 6. bootm <addr1> <addr2> <addr3> /* single image at <addr1> */ 7. bootm <addr1> - <addr3> /* single image at <addr1> */ New uImage: 8. bootm <addr1> 9. bootm [<addr1>]:<subimg1> 10. bootm [<addr1>]#<conf> 11. bootm [<addr1>]:<subimg1> [<addr2>]:<subimg2> 12. bootm [<addr1>]:<subimg1> [<addr2>]:<subimg2> [<addr3>]:<subimg3> 13. bootm [<addr1>]:<subimg1> [<addr2>]:<subimg2> <addr3> 14. bootm [<addr1>]:<subimg1> - [<addr3>]:<subimg3> 15. bootm [<addr1>]:<subimg1> - <addr3> Ad. 1. This is equivalent to cases 2,3,8, depending on the type of image at the current image address. - boot method: see cases 2,3,8 Ad. 2. Boot kernel image located at <addr1>. - boot method: non-FDT Ad. 3. First and second components of the image at <addr1> are assumed to be a kernel and a ramdisk, respectively. The kernel is booted with initrd loaded with the ramdisk from the image. - boot method: depends on the number of components at <addr1>, and on whether U-Boot is compiled with OF support: | 2 components | 3 components | | (kernel, initrd) | (kernel, initrd, fdt) | --------------------------------------------------------------------- #ifdef CONFIG_OF_* | non-FDT | FDT | #ifndef CONFIG_OF_* | non-FDT | non-FDT | Ad. 4. Similar to case 3, but the kernel is booted without initrd. Second component of the multi-image is irrelevant (it can be a dummy, 1-byte file). - boot method: see case 3 Ad. 5. Boot kernel image located at <addr1> with initrd loaded with ramdisk from the image at <addr2>. - boot method: non-FDT Ad. 6. <addr1> is the address of a kernel image, <addr2> is the address of a ramdisk image, and <addr3> is the address of a FDT binary blob. Kernel is booted with initrd loaded with ramdisk from the image at <addr2>. - boot method: FDT Ad. 7. <addr1> is the address of a kernel image and <addr3> is the address of a FDT binary blob. Kernel is booted without initrd. - boot method: FDT Ad. 8. Image at <addr1> is assumed to contain a default configuration, which is booted. - boot method: FDT or non-FDT, depending on whether the default configuration defines FDT Ad. 9. Similar to case 2: boot kernel stored in <subimg1> from the image at address <addr1>. - boot method: non-FDT Ad. 10. Boot configuration <conf> from the image at <addr1>. - boot method: FDT or non-FDT, depending on whether the configuration given defines FDT Ad. 11. Equivalent to case 5: boot kernel stored in <subimg1> from the image at <addr1> with initrd loaded with ramdisk <subimg2> from the image at <addr2>. - boot method: non-FDT Ad. 12. Equivalent to case 6: boot kernel stored in <subimg1> from the image at <addr1> with initrd loaded with ramdisk <subimg2> from the image at <addr2>, and pass FDT blob <subimg3> from the image at <addr3>. - boot method: FDT Ad. 13. Similar to case 12, the difference being that <addr3> is the address of FDT binary blob that is to be passed to the kernel. - boot method: FDT Ad. 14. Equivalent to case 7: boot kernel stored in <subimg1> from the image at <addr1>, without initrd, and pass FDT blob <subimg3> from the image at <addr3>. - boot method: FDT Ad. 15. Similar to case 14, the difference being that <addr3> is the address of the FDT binary blob that is to be passed to the kernel. - boot method: FDT New uImage argument syntax -------------------------- New uImage support introduces two new forms for bootm arguments, with the following syntax: - new uImage sub-image specification <addr>:<sub-image unit_name> - new uImage configuration specification <addr>#<configuration unit_name> Examples: - boot kernel "kernel@1" stored in a new uImage located at 200000: bootm 200000:kernel@1 - boot configuration "cfg@1" from a new uImage located at 200000: bootm 200000#cfg@1 - boot "kernel@1" from a new uImage at 200000 with initrd "ramdisk@2" found in some other new uImage stored at address 800000: bootm 200000:kernel@1 800000:ramdisk@2 - boot "kernel@2" from a new uImage at 200000, with initrd "ramdisk@1" and FDT "fdt@1", both stored in some other new uImage located at 800000: bootm 200000:kernel@1 800000:ramdisk@1 800000:fdt@1 - boot kernel "kernel@2" with initrd "ramdisk@2", both stored in a new uImage at address 200000, with a raw FDT blob stored at address 600000: bootm 200000:kernel@2 200000:ramdisk@2 600000 - boot kernel "kernel@2" from new uImage at 200000 with FDT "fdt@1" from the same new uImage: bootm 200000:kernel@2 - 200000:fdt@1 Note on current image address ----------------------------- When bootm is called without arguments, the image at current image address is booted. The current image address is the address set most recently by a load command, etc, and is by default equal to CONFIG_SYS_LOAD_ADDR. For example, consider the following commands: tftp 200000 /tftpboot/kernel bootm Last command is equivalent to: bootm 200000 In case of the new uImage argument syntax, the address portion of any argument can be omitted. If <addr3> is omitted, then it is assumed that image at <addr2> should be used. Similarly, when <addr2> is omitted, is is assumed that image at <addr1> should be used. If <addr1> is omitted, it is assumed that the current image address is to be used. For example, consider the following commands: tftp 200000 /tftpboot/uImage bootm :kernel@1 Last command is equivalent to: bootm 200000:kernel@1 tftp 200000 /tftpboot/uImage bootm 400000:kernel@1 :ramdisk@1 Last command is equivalent to: bootm 400000:kernel@1 400000:ramdisk@1 tftp 200000 /tftpboot/uImage bootm :kernel@1 400000:ramdisk@1 :fdt@1 Last command is equivalent to: bootm 200000:kernel@1 400000:ramdisk@1 400000:fdt@1