98 lines
2.9 KiB
C
98 lines
2.9 KiB
C
#include "vxBoot/fs/smemfs.h"
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#include "vxBoot/loader.h"
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#include "vxBoot/terminal.h"
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#include <stdlib.h>
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#include <string.h>
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/* error string list */
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const struct ld_error_db image_error_db[] = {
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{.id = ld_image_success, .strerror = "valid"},
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{.id = ld_image_size_error, .strerror = "size error"},
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{.id = ld_image_type_error, .strerror = "type error"},
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{.id = ld_image_mem_error, .strerror = "out of memory error"},
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{.id = ld_image_mem_not_available, .strerror = "memory not available"},
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{.id = 0xdeb0cad0, .strerror = NULL},
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};
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/* hypervisor_elf_loader_image_error(): Display image error information */
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int loader_image_error(int const errnum)
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{
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return (loader_error(image_error_db, "ELF image ", errnum));
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}
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/* loader_load_image() - Load the program into Virtual Memory */
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int loader_image_load(
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struct smemfs_inode const * restrict const inode,
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struct kernel_info * restrict const kernel,
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Elf32_Ehdr *hdr
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) {
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Elf32_Phdr program;
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uintptr_t paddress;
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uintptr_t origin;
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uintptr_t vmin;
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uintptr_t vmax;
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off_t offset;
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uint16_t i;
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/* Walk one time to get the entier program size and check ELF
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validity. */
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i = -1;
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vmin = 0xffffffff;
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vmax = 0x00000000;
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kernel->memory.program.size = 0;
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while (++i < hdr->e_phnum) {
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offset = hdr->e_phoff + (i * sizeof(Elf32_Phdr));
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if (smemfs_pread(inode, &program, sizeof(Elf32_Phdr), offset)
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!= sizeof(Elf32_Phdr)) {
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return (ld_image_size_error);
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}
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if (program.p_vaddr < vmin)
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vmin = program.p_vaddr;
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if (program.p_vaddr + program.p_memsz > vmax)
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vmax = program.p_vaddr + program.p_memsz;
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}
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kernel->memory.program.size = vmax - vmin;
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kernel->memory.program.elf.vmin = vmin;
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kernel->memory.program.elf.vmax = vmax;
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/* check available space in RAM to load the image */
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if (kernel->memory.program.size >= kernel->hardware.ram.available)
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return (ld_image_mem_not_available);
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/* set the kernel's origin address */
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origin = kernel->hardware.ram.physical.kernel_addr;
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origin |= 0xa0000000;
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kernel->memory.program.start = (void*)origin;
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/* Now, load all program section into physical memory. To do this, we
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read each program hdr, generate the "real" physical address of
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the segment then dump data.
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Note that the p_filesz can be smaller than p_memsz so, we need to
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wipe the segment area before the dump. */
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i = -1;
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while (++i < hdr->e_phnum) {
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offset = hdr->e_phoff + (i * sizeof(Elf32_Phdr));
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smemfs_pread(inode, &program, sizeof(Elf32_Phdr), offset);
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paddress = (uintptr_t)program.p_vaddr - vmin;
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paddress += (uintptr_t)kernel->memory.program.start;
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memset((void*)paddress, 0x00, program.p_memsz);
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smemfs_pread(
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inode,
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(void*)paddress,
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program.p_filesz,
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program.p_offset
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);
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}
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/* Generate program entry address */
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kernel->entry = (uintptr_t)hdr->e_entry - vmin;
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kernel->entry += (uintptr_t)kernel->hardware.ram.physical.kernel_addr;
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kernel->entry |= (uintptr_t)0x80000000;
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return (ld_image_success);
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}
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