Relocatable modules are currently only used on x86. Relocatable modules are executables. Exectuables which can be executed anywhere in memory. Anywhere means that the module does not need to be executed at a defined memory address which is known at build/link time. For coreboot stages like bootblock and romstage it is known at build time at which addresses they are executed. For some exectuables it is however not known at which specific address they are executed in runtime (for example postcar and ramstage). Relocateable modules usually allocate the space for the modules just before they are supposed to be executed. After enough space is allocated, CBMEM will return the location of the allocated space. Now the relocation can be done by fixing up all relocation entries in the relocatable module based on the location of the binary (which was returned by CBMEM at runtime).
At build time the rmodtool (util/cbfstool/rmodtool.c) is used to create relocatable modules. The rmodtool basically takes an ELF file as an input and writes an ELF as output. It basically does a simple conversion from one ELF file to another slighty changed ELF file. First the tool makes sure that the ELF file fits a few requirements. For example there can only be one segment (loadable program header) in the input ELF file. After that it goes through the ELF relocation table and takes any entry that applies to the one segment we want to load at runtime. The rmodtool will then write all these relocation entires in a new ELF section called “.reloc”. After that the ELF relocation table will be cleared.
One can split the rmodules in two different kinds:
They are actually handled the same by the build system and only differ in the fact, that they are either coreboot stages or they are not.
In the end the ELF files will have three different ELF sections, which are all created by the rmodtool.
Either rmodule_load (lib/rmodule.c) is used directly or through the rmodule_stage_load (lib/rmodule.c) wrapper. It is used to load the stages (postcar and ramstage) or small programs like (sipi_vector, smm, smmstub) into memory before jumping to them. In the case of a coreboot stage, CBMEM is used to allocate space for the stage in memory via the rmodule_cbfs_allocater (lib/rmodule.c). At this point the location of the stage in memory is known and all relocation (address fixups) need to be done now. This is basically just a simple loop that goes through each relocation entry. Each relocation entry is just an address pointing to a location that needs relocation. The relocation itself is just a simple addition, that adds an offset from where the image was “supposed” to be at link time, to where it is now relocated.
module_parameters is a section inside the rmodule ELF file. Its basically a way to pass runtime information to an rmodule before jumping to it. The caller will use rmodule_parameters() (lib/rmodule.c) to get the runtime address of the module_parameters and the callee (the rmodule itself) usually appends the section to specific types via compiler attributes. For example:
static const
volatile __attribute((aligned(4), __section__(".module_parameters")))
struct smm_runtime smm_runtime;
//TODO x86: postcar and ramstage cannot conflict with payload regarding memory placement. Therefore payload location is usually fixed and postcar/ramstage can be placed at a location in memory that is figured out at runtime.