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All rights reserved. * * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in * compliance with the License. The rights granted to you under the License * may not be used to create, or enable the creation or redistribution of, * unlawful or unlicensed copies of an Apple operating system, or to * circumvent, violate, or enable the circumvention or violation of, any * terms of an Apple operating system software license agreement. * * Please obtain a copy of the License at * http://www.opensource.apple.com/apsl/ and read it before using this file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * Please see the License for the specific language governing rights and * limitations under the License. * * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ */ #include <string.h> #include <mach/vm_prot.h> #include <mach-o/loader.h> #include <sys/types.h> #if KERNEL #include <mach/vm_param.h> #else #include <mach/mach_init.h> #endif /* KERNEL */ #define DEBUG_ASSERT_COMPONENT_NAME_STRING "kxld" #include <AssertMacros.h> #include "kxld_reloc.h" #include "kxld_sect.h" #include "kxld_seg.h" #include "kxld_symtab.h" #include "kxld_util.h" #define MAX_SEGS 20 #define TEXT_SEG_PROT (VM_PROT_READ | VM_PROT_EXECUTE) #define DATA_SEG_PROT (VM_PROT_READ | VM_PROT_WRITE) extern boolean_t isSplitKext; extern boolean_t isOldInterface; #if KXLD_USER_OR_OBJECT static kern_return_t reorder_sections(KXLDSeg *seg, KXLDArray *section_order); static void reorder_section(KXLDArray *sects, u_int *sect_reorder_index, KXLDSect **reorder_buffer, u_int reorder_buffer_index); #endif /* KXLD_USER_OR_OBJECT */ #if 0 static KXLDSeg * get_segment_by_name(KXLDArray *segarray, const char *name); #endif #if KXLD_USER_OR_ILP32 static kern_return_t seg_export_macho_header_32(const KXLDSeg *seg, u_char *buf, u_long *header_offset, u_long header_size, u_long data_offset); #endif #if KXLD_USER_OR_LP64 static kern_return_t seg_export_macho_header_64(const KXLDSeg *seg, u_char *buf, u_long *header_offset, u_long header_size, u_long data_offset); #endif static KXLDSect * get_sect_by_index(const KXLDSeg *seg, u_int idx); #if KXLD_USER_OR_ILP32 /******************************************************************************* *******************************************************************************/ kern_return_t kxld_seg_init_from_macho_32(KXLDSeg *seg, struct segment_command *src) { kern_return_t rval = KERN_FAILURE; check(seg); check(src); strlcpy(seg->segname, src->segname, sizeof(seg->segname)); seg->base_addr = src->vmaddr; seg->link_addr = src->vmaddr; seg->vmsize = src->vmsize; seg->fileoff = src->fileoff; seg->maxprot = src->maxprot; seg->initprot = src->initprot; seg->flags = src->flags; rval = kxld_array_init(&seg->sects, sizeof(KXLDSect *), src->nsects); require_noerr(rval, finish); rval = KERN_SUCCESS; finish: return rval; } #endif /* KXLD_USER_OR_ILP32 */ #if KXLD_USER_OR_LP64 /******************************************************************************* *******************************************************************************/ kern_return_t kxld_seg_init_from_macho_64(KXLDSeg *seg, struct segment_command_64 *src) { kern_return_t rval = KERN_FAILURE; check(seg); check(src); strlcpy(seg->segname, src->segname, sizeof(seg->segname)); seg->base_addr = src->vmaddr; seg->link_addr = src->vmaddr; seg->vmsize = src->vmsize; seg->fileoff = src->fileoff; seg->maxprot = src->maxprot; seg->initprot = src->initprot; seg->flags = src->flags; rval = kxld_array_init(&seg->sects, sizeof(KXLDSect *), src->nsects); require_noerr(rval, finish); rval = KERN_SUCCESS; finish: return rval; } #endif /* KXLD_USER_OR_LP64 */ #if KXLD_USER_OR_OBJECT /******************************************************************************* *******************************************************************************/ kern_return_t kxld_seg_create_seg_from_sections(KXLDArray *segarray, KXLDArray *sectarray) { kern_return_t rval = KERN_FAILURE; KXLDSeg *seg = NULL; KXLDSect *sect = NULL; KXLDSect **sectp = NULL; u_int i = 0; /* Initialize the segment array to one segment */ rval = kxld_array_init(segarray, sizeof(KXLDSeg), 1); require_noerr(rval, finish); /* Initialize the segment */ seg = kxld_array_get_item(segarray, 0); seg->initprot = VM_PROT_ALL; seg->maxprot = VM_PROT_ALL; seg->link_addr = 0; /* Add the sections to the segment */ rval = kxld_array_init(&seg->sects, sizeof(KXLDSect *), sectarray->nitems); require_noerr(rval, finish); for (i = 0; i < sectarray->nitems; ++i) { sect = kxld_array_get_item(sectarray, i); sectp = kxld_array_get_item(&seg->sects, i); *sectp = sect; } rval = KERN_SUCCESS; finish: return rval; } /******************************************************************************* *******************************************************************************/ kern_return_t kxld_seg_finalize_object_segment(KXLDArray *segarray, KXLDArray *section_order, u_long hdrsize) { kern_return_t rval = KERN_FAILURE; KXLDSeg *seg = NULL; KXLDSect *sect = NULL; u_long sect_offset = 0; u_int i = 0; check(segarray); check(section_order); require_action(segarray->nitems == 1, finish, rval = KERN_FAILURE); seg = kxld_array_get_item(segarray, 0); /* Reorder the sections */ rval = reorder_sections(seg, section_order); require_noerr(rval, finish); /* Set the initial link address at the end of the header pages */ seg->link_addr = kxld_round_page_cross_safe(hdrsize); /* Fix up all of the section addresses */ sect_offset = (u_long) seg->link_addr; for (i = 0; i < seg->sects.nitems; ++i) { sect = *(KXLDSect **)kxld_array_get_item(&seg->sects, i); sect->link_addr = kxld_sect_align_address(sect, sect_offset); sect_offset = (u_long) (sect->link_addr + sect->size); } /* Finish initializing the segment */ seg->vmsize = kxld_round_page_cross_safe(sect_offset) - seg->link_addr; rval = KERN_SUCCESS; finish: return rval; } /******************************************************************************* * The legacy section ordering used by kld was based of the order of sections * in the kernel file. To achieve the same layout, we save the kernel's * section ordering as an array of section names when the kernel file itself * is linked. Then, when kexts are linked with the KXLD_LEGACY_LAYOUT flag, * we refer to the kernel's section layout to order the kext's sections. * * The algorithm below is as follows. We iterate through all of the kernel's * sections grouped by segment name, so that we are processing all of the __TEXT * sections, then all of the __DATA sections, etc. We then iterate through the * kext's sections with a similar grouping, looking for sections that match * the current kernel's section. In this way, we order all of the matching * kext sections in the order in which they appear in the kernel, and then place * all remaining kext sections at the end of the current segment grouping in * the order in which they originally appeared. Sections that only appear in * the kernel are not created. segments that only appear in the kext are * left in their original ordering. * * An example: * * Kernel sections: * __TEXT,__text * __TEXT,__const * __DATA,__data * * Kext sections: * __TEXT,__const * __TEXT,__literal4 * __TEXT,__text * __DATA,__const * __DATA,__data * * Reordered kext sections: * __TEXT,__text * __TEXT,__const * __TEXT,__literal4 * __DATA,__data * __DATA,__const * * In the implementation below, we use a reorder buffer to hold pointers to the * sections of the current working segment. We scan this buffer looking for * matching sections, placing them in the segment's section index as we find them. * If this function must exit early, the segment's section index is left in an * unusable state. *******************************************************************************/ static kern_return_t reorder_sections(KXLDSeg *seg, KXLDArray *section_order) { kern_return_t rval = KERN_FAILURE; KXLDSect *sect = NULL; KXLDSect **reorder_buffer = NULL; KXLDSectionName *section_name = NULL; const char *segname = NULL; u_int sect_index = 0, legacy_index = 0, sect_reorder_index = 0; u_int i = 0, j = 0; u_int sect_start = 0, sect_end = 0, legacy_start = 0, legacy_end = 0; u_int nsects = 0; check(seg); check(section_order); /* Allocate the reorder buffer with enough space to hold all of the * sections. */ reorder_buffer = kxld_alloc( seg->sects.nitems * sizeof(*reorder_buffer)); require_action(reorder_buffer, finish, rval = KERN_RESOURCE_SHORTAGE); while (legacy_index < section_order->nitems) { /* Find the next group of sections with a common segment in the * section_order array. */ legacy_start = legacy_index++; legacy_end = legacy_index; section_name = kxld_array_get_item(section_order, legacy_start); segname = section_name->segname; while (legacy_index < section_order->nitems) { section_name = kxld_array_get_item(section_order, legacy_index); if (!streq_safe(segname, section_name->segname, sizeof(section_name->segname))) { break; } ++legacy_index; ++legacy_end; } /* Find a group of sections in the kext that match the current * section_order segment. */ sect_start = sect_index; sect_end = sect_index; while (sect_index < seg->sects.nitems) { sect = *(KXLDSect **) kxld_array_get_item(&seg->sects, sect_index); if (!streq_safe(segname, sect->segname, sizeof(sect->segname))) { break; } ++sect_index; ++sect_end; } nsects = sect_end - sect_start; if (!nsects) { continue; } /* Populate the reorder buffer with the current group of kext sections */ for (i = sect_start; i < sect_end; ++i) { reorder_buffer[i - sect_start] = *(KXLDSect **) kxld_array_get_item(&seg->sects, i); } /* For each section_order section, scan the reorder buffer for a matching * kext section. If one is found, copy it into the next slot in the * segment's section index. */ sect_reorder_index = sect_start; for (i = legacy_start; i < legacy_end; ++i) { section_name = kxld_array_get_item(section_order, i); sect = NULL; for (j = 0; j < nsects; ++j) { sect = reorder_buffer[j]; if (!sect) { continue; } if (streq_safe(section_name->sectname, sect->sectname, sizeof(section_name->sectname))) { break; } sect = NULL; } if (sect) { (void) reorder_section(&seg->sects, §_reorder_index, reorder_buffer, j); } } /* If any sections remain in the reorder buffer, they are not specified * in the section_order array, so append them to the section index in * in the order they are found. */ for (i = 0; i < nsects; ++i) { if (!reorder_buffer[i]) { continue; } reorder_section(&seg->sects, §_reorder_index, reorder_buffer, i); } } rval = KERN_SUCCESS; finish: if (reorder_buffer) { kxld_free(reorder_buffer, seg->sects.nitems * sizeof(*reorder_buffer)); reorder_buffer = NULL; } return rval; } /******************************************************************************* *******************************************************************************/ static void reorder_section(KXLDArray *sects, u_int *sect_reorder_index, KXLDSect **reorder_buffer, u_int reorder_buffer_index) { KXLDSect **tmp = NULL; tmp = kxld_array_get_item(sects, *sect_reorder_index); *tmp = reorder_buffer[reorder_buffer_index]; reorder_buffer[reorder_buffer_index]->sectnum = *sect_reorder_index; reorder_buffer[reorder_buffer_index] = NULL; ++(*sect_reorder_index); } /******************************************************************************* *******************************************************************************/ kern_return_t kxld_seg_init_linkedit(KXLDArray *segs) { kern_return_t rval = KERN_FAILURE; KXLDSeg *seg = NULL; KXLDSeg *le = NULL; rval = kxld_array_resize(segs, 2); require_noerr(rval, finish); seg = kxld_array_get_item(segs, 0); le = kxld_array_get_item(segs, 1); strlcpy(le->segname, SEG_LINKEDIT, sizeof(le->segname)); le->link_addr = kxld_round_page_cross_safe(seg->link_addr + seg->vmsize); le->maxprot = VM_PROT_ALL; le->initprot = VM_PROT_DEFAULT; rval = KERN_SUCCESS; finish: return rval; } #endif /* KXLD_USER_OR_OBJECT */ /******************************************************************************* *******************************************************************************/ void kxld_seg_clear(KXLDSeg *seg) { check(seg); bzero(seg->segname, sizeof(seg->segname)); seg->base_addr = 0; seg->link_addr = 0; seg->vmsize = 0; seg->flags = 0; seg->maxprot = 0; seg->initprot = 0; /* Don't clear the individual sections here because kxld_kext.c will take * care of that. */ kxld_array_clear(&seg->sects); } /******************************************************************************* *******************************************************************************/ void kxld_seg_deinit(KXLDSeg *seg) { check(seg); kxld_array_deinit(&seg->sects); bzero(seg, sizeof(*seg)); } /******************************************************************************* *******************************************************************************/ kxld_size_t kxld_seg_get_vmsize(const KXLDSeg *seg) { check(seg); return seg->vmsize; } /******************************************************************************* *******************************************************************************/ u_long kxld_seg_get_macho_header_size(const KXLDSeg *seg, boolean_t is_32_bit) { u_long size = 0; check(seg); if (is_32_bit) { size += sizeof(struct segment_command); } else { size += sizeof(struct segment_command_64); } size += seg->sects.nitems * kxld_sect_get_macho_header_size(is_32_bit); return size; } /******************************************************************************* *******************************************************************************/ /* This is no longer used, but may be useful some day... */ #if 0 u_long kxld_seg_get_macho_data_size(const KXLDSeg *seg) { u_long size = 0; u_int i = 0; KXLDSect *sect = NULL; check(seg); for (i = 0; i < seg->sects.nitems; ++i) { sect = get_sect_by_index(seg, i); size = (u_long) kxld_sect_align_address(sect, size); size += kxld_sect_get_macho_data_size(sect); } return kxld_round_page_cross_safe(size); } #endif /******************************************************************************* *******************************************************************************/ static KXLDSect * get_sect_by_index(const KXLDSeg *seg, u_int idx) { check(seg); return *(KXLDSect **) kxld_array_get_item(&seg->sects, idx); } /******************************************************************************* *******************************************************************************/ kern_return_t kxld_seg_export_macho_to_file_buffer(const KXLDSeg *seg, u_char *buf, u_long *header_offset, u_long header_size, u_long *data_offset, u_long data_size, boolean_t is_32_bit) { kern_return_t rval = KERN_FAILURE; KXLDSect *sect = NULL; u_long base_data_offset = *data_offset; u_int i = 0; struct segment_command *hdr32 = (struct segment_command *) ((void *) (buf + *header_offset)); struct segment_command_64 *hdr64 = (struct segment_command_64 *) ((void *) (buf + *header_offset)); check(seg); check(buf); check(header_offset); check(data_offset); /* Write out the header */ KXLD_3264_FUNC(is_32_bit, rval, seg_export_macho_header_32, seg_export_macho_header_64, seg, buf, header_offset, header_size, *data_offset); require_noerr(rval, finish); /* Write out each section */ for (i = 0; i < seg->sects.nitems; ++i) { sect = get_sect_by_index(seg, i); rval = kxld_sect_export_macho_to_file_buffer(sect, buf, header_offset, header_size, data_offset, data_size, is_32_bit); require_noerr(rval, finish); } /* Update the filesize */ if (is_32_bit) { hdr32->filesize = (uint32_t) (*data_offset - base_data_offset); } else { hdr64->filesize = (uint64_t) (*data_offset - base_data_offset); } *data_offset = (u_long)kxld_round_page_cross_safe(*data_offset); rval = KERN_SUCCESS; finish: return rval; } /******************************************************************************* *******************************************************************************/ kern_return_t kxld_seg_export_macho_to_vm(const KXLDSeg *seg, u_char *buf, u_long *header_offset, u_long header_size, u_long data_size, kxld_addr_t file_link_addr, boolean_t is_32_bit) { kern_return_t rval = KERN_FAILURE; KXLDSect * sect = NULL; // data_offset is used to set fileoff field in segment header u_long data_offset; u_int i = 0; check(seg); check(buf); check(header_offset); data_offset = (u_long) (seg->link_addr - file_link_addr); /* Write out the header */ KXLD_3264_FUNC(is_32_bit, rval, seg_export_macho_header_32, seg_export_macho_header_64, seg, buf, header_offset, header_size, data_offset); require_noerr(rval, finish); /* Write out each section */ for (i = 0; i < seg->sects.nitems; ++i) { sect = get_sect_by_index(seg, i); rval = kxld_sect_export_macho_to_vm(sect, buf, header_offset, header_size, file_link_addr, data_size, is_32_bit); require_noerr(rval, finish); } rval = KERN_SUCCESS; finish: return rval; } #if KXLD_USER_OR_ILP32 /******************************************************************************* *******************************************************************************/ static kern_return_t seg_export_macho_header_32(const KXLDSeg *seg, u_char *buf, u_long *header_offset, u_long header_size, u_long data_offset) { kern_return_t rval = KERN_FAILURE; struct segment_command *seghdr = NULL; check(seg); check(buf); check(header_offset); require_action(sizeof(*seghdr) <= header_size - *header_offset, finish, rval = KERN_FAILURE); seghdr = (struct segment_command *) ((void *) (buf + *header_offset)); *header_offset += sizeof(*seghdr); seghdr->cmd = LC_SEGMENT; seghdr->cmdsize = (uint32_t) sizeof(*seghdr); seghdr->cmdsize += (uint32_t) (seg->sects.nitems * kxld_sect_get_macho_header_size(TRUE)); strlcpy(seghdr->segname, seg->segname, sizeof(seghdr->segname)); seghdr->vmaddr = (uint32_t) seg->link_addr; seghdr->vmsize = (uint32_t) seg->vmsize; seghdr->fileoff = (uint32_t) data_offset; seghdr->filesize = (uint32_t) seg->vmsize; seghdr->maxprot = seg->maxprot; seghdr->initprot = seg->initprot; seghdr->nsects = seg->sects.nitems; seghdr->flags = 0; #if SPLIT_KEXTS_DEBUG { kxld_log(kKxldLogLinking, kKxldLogErr, "segname %s seghdr %p vmaddr %p vmsize 0x%02X %u fileoff 0x%02X %u <%s>", seg->segname[0] ? seg->segname : "none", (void *) seghdr, (void *) ((uint64_t)seghdr->vmaddr), seghdr->vmsize, seghdr->vmsize, seghdr->fileoff, seghdr->fileoff, __func__); } #endif rval = KERN_SUCCESS; finish: return rval; } #endif /* KXLD_USER_OR_ILP32 */ #if KXLD_USER_OR_LP64 /******************************************************************************* *******************************************************************************/ static kern_return_t seg_export_macho_header_64(const KXLDSeg *seg, u_char *buf, u_long *header_offset, u_long header_size, u_long data_offset) { kern_return_t rval = KERN_FAILURE; struct segment_command_64 *seghdr = NULL; check(seg); check(buf); check(header_offset); require_action(sizeof(*seghdr) <= header_size - *header_offset, finish, rval = KERN_FAILURE); #if SPLIT_KEXTS_DEBUG { struct mach_header_64 *mach; mach = (struct mach_header_64 *) ((void *) buf); if (mach->magic != MH_MAGIC_64) { kxld_log(kKxldLogLinking, kKxldLogErr, "bad macho header at %p <%s>", (void *) mach, __func__); goto finish; } } #endif seghdr = (struct segment_command_64 *) ((void *) (buf + *header_offset)); *header_offset += sizeof(*seghdr); seghdr->cmd = LC_SEGMENT_64; seghdr->cmdsize = (uint32_t) sizeof(*seghdr); seghdr->cmdsize += (uint32_t) (seg->sects.nitems * kxld_sect_get_macho_header_size(FALSE)); strlcpy(seghdr->segname, seg->segname, sizeof(seghdr->segname)); seghdr->vmaddr = (uint64_t) seg->link_addr; seghdr->vmsize = (uint64_t) seg->vmsize; seghdr->fileoff = (uint64_t) data_offset; seghdr->filesize = (uint64_t) seg->vmsize; seghdr->maxprot = seg->maxprot; seghdr->initprot = seg->initprot; seghdr->nsects = seg->sects.nitems; seghdr->flags = 0; #if SPLIT_KEXTS_DEBUG { kxld_log(kKxldLogLinking, kKxldLogErr, "%p >>> Start of %s seghdr (size %lu) <%s>", (void *) seghdr, seg->segname[0] ? seg->segname : "none", sizeof(*seghdr), __func__); kxld_log(kKxldLogLinking, kKxldLogErr, "%p <<< End of %s seghdr <%s>", (void *) ((u_char *)seghdr + sizeof(*seghdr)), seg->segname[0] ? seg->segname : "none", __func__); kxld_log(kKxldLogLinking, kKxldLogErr, "%s seghdr, cmdsize %d vmaddr %p vmsize %p %llu fileoff %p %llu <%s>", seg->segname[0] ? seg->segname : "none", seghdr->cmdsize, (void *) seghdr->vmaddr, (void *) seghdr->vmsize, seghdr->vmsize, (void *) seghdr->fileoff, seghdr->fileoff, __func__); } #endif rval = KERN_SUCCESS; finish: return rval; } #endif /* KXLD_USER_OR_LP64 */ /******************************************************************************* *******************************************************************************/ kern_return_t kxld_seg_add_section(KXLDSeg *seg, KXLDSect *sect) { kern_return_t rval = KERN_FAILURE; KXLDSect **sectp = NULL; u_int i; check(seg); check(sect); require_action(streq_safe(seg->segname, sect->segname, sizeof(seg->segname)), finish, rval = KERN_FAILURE); /* Add the section into the section index */ for (i = 0; i < seg->sects.nitems; ++i) { sectp = kxld_array_get_item(&seg->sects, i); if (NULL == *sectp) { *sectp = sect; break; } } require_action(i < seg->sects.nitems, finish, rval = KERN_FAILURE); rval = KERN_SUCCESS; finish: return rval; } /******************************************************************************* *******************************************************************************/ kern_return_t kxld_seg_finish_init(KXLDSeg *seg) { kern_return_t rval = KERN_FAILURE; u_int i = 0; KXLDSect *sect = NULL; kxld_addr_t maxaddr = 0; kxld_size_t maxsize = 0; /* If we already have a size for this segment (e.g. from the mach-o load * command) then don't recalculate the segment size. This is safer since * when we recalculate we are making assumptions about page alignment and * padding that the kext mach-o file was built with. Better to trust the * macho-o info, if we have it. If we don't (i.e. vmsize == 0) then add up * the section sizes and take a best guess at page padding. */ if ((seg->vmsize == 0) && (seg->sects.nitems)) { for (i = 0; i < seg->sects.nitems; ++i) { sect = get_sect_by_index(seg, i); require_action(sect, finish, rval = KERN_FAILURE); if (sect->base_addr > maxaddr) { maxaddr = sect->base_addr; maxsize = sect->size; } } seg->vmsize = kxld_round_page_cross_safe(maxaddr + maxsize - seg->base_addr); } rval = KERN_SUCCESS; finish: return rval; } /******************************************************************************* *******************************************************************************/ void kxld_seg_set_vm_protections(KXLDSeg *seg, boolean_t strict_protections) { if (strict_protections) { if (!strncmp(seg->segname, SEG_TEXT, sizeof(seg->segname))) { seg->initprot = TEXT_SEG_PROT; seg->maxprot = TEXT_SEG_PROT; } else { seg->initprot = DATA_SEG_PROT; seg->maxprot = DATA_SEG_PROT; } } else { seg->initprot = VM_PROT_ALL; seg->maxprot = VM_PROT_ALL; } } /******************************************************************************* *******************************************************************************/ void kxld_seg_relocate(KXLDSeg *seg, kxld_addr_t link_addr) { KXLDSect *sect = NULL; u_int i = 0; splitKextLinkInfo * link_info = (splitKextLinkInfo *) link_addr; kxld_addr_t my_link_addr; if (isOldInterface) { seg->link_addr += link_addr; } else { if (isSplitKext) { // we have a split kext if (kxld_seg_is_text_seg(seg)) { // assumes this is the beginning of the kext my_link_addr = link_info->vmaddr_TEXT; seg->link_addr = my_link_addr; } else if (kxld_seg_is_text_exec_seg(seg)) { my_link_addr = link_info->vmaddr_TEXT_EXEC; seg->link_addr = my_link_addr; // vmaddr_TEXT_EXEC is the actual vmaddr for this segment so we need // to adjust for kxld_sect_relocate assuming the link addr is // the address of the kext (macho header in __TEXT) my_link_addr -= seg->base_addr; } else if (kxld_seg_is_data_seg(seg)) { my_link_addr = link_info->vmaddr_DATA; seg->link_addr = my_link_addr; // vmaddr_DATA is the actual vmaddr for this segment so we need // to adjust for kxld_sect_relocate assuming the link addr is // the address of the kext (macho header in __TEXT) my_link_addr -= seg->base_addr; } else if (kxld_seg_is_data_const_seg(seg)) { my_link_addr = link_info->vmaddr_DATA_CONST; seg->link_addr = my_link_addr; // vmaddr_DATA_CONST is the actual vmaddr for this segment so we need // to adjust for kxld_sect_relocate assuming the link addr is // the address of the kext (macho header in __TEXT) my_link_addr -= seg->base_addr; } else if (kxld_seg_is_llvm_cov_seg(seg)) { my_link_addr = link_info->vmaddr_LLVM_COV; seg->link_addr = my_link_addr; // vmaddr_LLVM_COV is the actual vmaddr for this segment so we need // to adjust for kxld_sect_relocate assuming the link addr is // the address of the kext (macho header in __TEXT) my_link_addr -= seg->base_addr; } else if (kxld_seg_is_linkedit_seg(seg)) { my_link_addr = link_info->vmaddr_LINKEDIT; seg->link_addr = my_link_addr; // vmaddr_DATA is the actual vmaddr for this segment so we need // to adjust for kxld_sect_relocate assuming the link addr is // the address of the kext (macho header in __TEXT) my_link_addr -= seg->base_addr; } else { kxld_log(kKxldLogLinking, kKxldLogErr, " not expecting this segment %s!!! <%s>", seg->segname[0] ? seg->segname : "none", __func__); my_link_addr = link_info->vmaddr_TEXT; seg->link_addr += my_link_addr; } } else { my_link_addr = link_info->vmaddr_TEXT; seg->link_addr += my_link_addr; } } #if SPLIT_KEXTS_DEBUG { kxld_log(kKxldLogLinking, kKxldLogErr, "%p >>> Start of %s segment (vmsize %llu) <%s>)", (void *) seg->link_addr, seg->segname[0] ? seg->segname : "none", seg->vmsize, __func__); kxld_log(kKxldLogLinking, kKxldLogErr, "%p <<< End of %s segment <%s>", (void *) (seg->link_addr + seg->vmsize), seg->segname[0] ? seg->segname : "none", __func__); } #endif for (i = 0; i < seg->sects.nitems; ++i) { sect = get_sect_by_index(seg, i); if (isOldInterface) { kxld_sect_relocate(sect, link_addr); } else { kxld_sect_relocate(sect, my_link_addr); } } } /******************************************************************************* *******************************************************************************/ void kxld_seg_populate_linkedit(KXLDSeg *seg, const KXLDSymtab *symtab, boolean_t is_32_bit #if KXLD_PIC_KEXTS , const KXLDArray *locrelocs , const KXLDArray *extrelocs , boolean_t target_supports_slideable_kexts #endif /* KXLD_PIC_KEXTS */ , uint32_t splitinfolc_size ) { u_long size = 0; size += kxld_symtab_get_macho_data_size(symtab, is_32_bit); #if KXLD_PIC_KEXTS if (target_supports_slideable_kexts) { size += kxld_reloc_get_macho_data_size(locrelocs, extrelocs); } #endif /* KXLD_PIC_KEXTS */ // 0 unless this is a split kext size += splitinfolc_size; seg->vmsize = kxld_round_page_cross_safe(size); } /******************************************************************************* *******************************************************************************/ boolean_t kxld_seg_is_split_seg(const KXLDSeg *seg) { boolean_t result = FALSE; check(seg); if (isSplitKext) { if (kxld_seg_is_data_seg(seg) || kxld_seg_is_linkedit_seg(seg) || kxld_seg_is_text_exec_seg(seg) || kxld_seg_is_data_const_seg(seg) || kxld_seg_is_llvm_cov_seg(seg)) { result = TRUE; } } return result; } boolean_t kxld_seg_is_text_seg(const KXLDSeg *seg) { boolean_t result = FALSE; check(seg); result = !strncmp(seg->segname, SEG_TEXT, sizeof(seg->segname)); return result; } boolean_t kxld_seg_is_text_exec_seg(const KXLDSeg *seg) { boolean_t result = FALSE; check(seg); result = !strncmp(seg->segname, "__TEXT_EXEC", sizeof(seg->segname)); return result; } boolean_t kxld_seg_is_data_seg(const KXLDSeg *seg) { boolean_t result = FALSE; check(seg); result = !strncmp(seg->segname, SEG_DATA, sizeof(seg->segname)); return result; } boolean_t kxld_seg_is_data_const_seg(const KXLDSeg *seg) { boolean_t result = FALSE; check(seg); result = !strncmp(seg->segname, "__DATA_CONST", sizeof(seg->segname)); return result; } boolean_t kxld_seg_is_linkedit_seg(const KXLDSeg *seg) { boolean_t result = FALSE; check(seg); result = !strncmp(seg->segname, SEG_LINKEDIT, sizeof(seg->segname)); return result; } boolean_t kxld_seg_is_llvm_cov_seg(const KXLDSeg *seg) { boolean_t result = FALSE; check(seg); result = !strncmp(seg->segname, "__LLVM_COV", sizeof(seg->segname)); return result; } |