a6342974b0
- We do not need a red zone here, as we do not operate on the current stack, but always use the clear exception stack. Also reserve two extra words for the context to store EPCR and ESR. * or1k/crt0.S: Fix exception stack frame * or1k/exception-asm.S: ditto |
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.. | ||
boards | ||
include | ||
aclocal.m4 | ||
board.h | ||
caches-asm.S | ||
configure | ||
configure.in | ||
crt0.S | ||
exceptions-asm.S | ||
exceptions.c | ||
impure.c | ||
interrupts-asm.S | ||
interrupts.c | ||
Makefile.in | ||
mmu-asm.S | ||
or1k_uart.c | ||
or1k_uart.h | ||
or1k-internals.h | ||
outbyte.S | ||
README | ||
sbrk.c | ||
sync-asm.S | ||
syscalls.c | ||
timer.c | ||
util.c |
This document describes the internals of the port for OpenRISC 1000. The API is documented in or1k-support.h as Doxygen comments. # Data Structures +----------------+ 0x0 | vectors | +----------------+ | text,data,.. | +----------------+ | bss | +----------------+ | heap | | vv | | | | ^^ | | stack(s) | +----------------+ _or1k_board_mem_base + _or1k_board_mem_size ## Stack and Heap The stack is allocated at the end of available physical memory which is defined by each board as _or1k_board_mem_base and _or1k_board_mem_size. The _or1k_stack_top and _or1k_stack_bottom are determined by those variables and _or1k_stack_size (which may be overwritten in _or1k_board_init_early). A second stack for exceptions is allocated as we allow exceptions to be arbitrary complex and call C functions etc. It is not an option to re-use the current software stack as we want to be so generic, that this can also be a virtual memory stack at moment of exception. The exception starts below the normal software stack and is _or1k_exception_stack_size large. Multicore: For each core a stack and exception stack is allocated and the stack pointer set at boot. That is: sp(core0) = _or1k_stack_top, sp(core1) = _or1k_stack_top - _or1k_stack_size, etc. ## _or1k_stack_core (multicore only) An array of pointers to the software stacks (size: 4*or1k_numcores()). It is dynamically allocated from heap in or1k_init by calling sbrk(). The pointers contain the values for stack top pointers as described above. This variable is essentially used on boot of the slave cores to configure the stack register. ## _or1k_exception_stack_core (multicore only) An array of pointers to the exception stacks (size: 4*or1k_numcores()). It is allocated identical as the stack_core array. It is loaded whenever an exception occurs to start with a clean stack in the exception. ## _or1k_exception_handler_table A table of function pointers to the handlers of the exceptions. The generic exception handler checks if an exception handler is registered and calls it. There are 30 exceptions defined (0x0 is not an exception vector and 0x100 is reset which is static). This array resides in BSS and is therefore initialized as 0 (no handler registered) after start. Multicore: As the number of course is not known at compile time, the variable is a pointer to and array of arrays (cores x 30) which is allocated in or1k_init() on heap (using sbrk). ## _or1k_interrupt_handler_table and _or1k_interrupt_handler_table_data_ptr The interrupt handlers are stored identical to to the exception handler table. ## _or1k_reent The struct _or1k_reent contains formerly global data and allows for reentrancy. In the single core case, this is an allocated object, while it is a pointer to an array of structs in the multicore library. It is allocated in _or1k_reent_init() on the heap.