/* * region.c --- code which manages allocations within a region. * * Copyright (C) 2001 Theodore Ts'o. * * %Begin-Header% * This file may be redistributed under the terms of the GNU Public * License. * %End-Header% */ #if HAVE_UNISTD_H #include <unistd.h> #endif #include <string.h> #ifdef TEST_PROGRAM #undef ENABLE_NLS #endif #include "e2fsck.h" struct region_el { region_addr_t start; region_addr_t end; struct region_el *next; }; struct region_struct { region_addr_t min; region_addr_t max; struct region_el *allocated; }; region_t region_create(region_addr_t min, region_addr_t max) { region_t region; region = malloc(sizeof(struct region_struct)); if (!region) return NULL; memset(region, 0, sizeof(struct region_struct)); region->min = min; region->max = max; return region; } void region_free(region_t region) { struct region_el *r, *next; for (r = region->allocated; r; r = next) { next = r->next; free(r); } memset(region, 0, sizeof(struct region_struct)); free(region); } int region_allocate(region_t region, region_addr_t start, int n) { struct region_el *r, *new_region, *prev, *next; region_addr_t end; end = start+n; if ((start < region->min) || (end > region->max)) return -1; if (n == 0) return 1; /* * Search through the linked list. If we find that it * conflicts witih something that's already allocated, return * 1; if we can find an existing region which we can grow, do * so. Otherwise, stop when we find the appropriate place * insert a new region element into the linked list. */ for (r = region->allocated, prev=NULL; r; prev = r, r = r->next) { if (((start >= r->start) && (start < r->end)) || ((end > r->start) && (end <= r->end)) || ((start <= r->start) && (end >= r->end))) return 1; if (end == r->start) { r->start = start; return 0; } if (start == r->end) { if ((next = r->next)) { if (end > next->start) return 1; if (end == next->start) { r->end = next->end; r->next = next->next; free(next); return 0; } } r->end = end; return 0; } if (start < r->start) break; } /* * Insert a new region element structure into the linked list */ new_region = malloc(sizeof(struct region_el)); if (!new_region) return -1; new_region->start = start; new_region->end = start + n; new_region->next = r; if (prev) prev->next = new_region; else region->allocated = new_region; return 0; } #ifdef TEST_PROGRAM #include <stdio.h> #define BCODE_END 0 #define BCODE_CREATE 1 #define BCODE_FREE 2 #define BCODE_ALLOCATE 3 #define BCODE_PRINT 4 int bcode_program[] = { BCODE_CREATE, 1, 1001, BCODE_PRINT, BCODE_ALLOCATE, 10, 10, BCODE_ALLOCATE, 30, 10, BCODE_PRINT, BCODE_ALLOCATE, 1, 15, BCODE_ALLOCATE, 15, 8, BCODE_ALLOCATE, 1, 20, BCODE_ALLOCATE, 1, 8, BCODE_PRINT, BCODE_ALLOCATE, 40, 10, BCODE_PRINT, BCODE_ALLOCATE, 22, 5, BCODE_PRINT, BCODE_ALLOCATE, 27, 3, BCODE_PRINT, BCODE_ALLOCATE, 20, 2, BCODE_PRINT, BCODE_ALLOCATE, 49, 1, BCODE_ALLOCATE, 50, 5, BCODE_ALLOCATE, 9, 2, BCODE_ALLOCATE, 9, 1, BCODE_PRINT, BCODE_FREE, BCODE_END }; void region_print(region_t region, FILE *f) { struct region_el *r; int i = 0; fprintf(f, "Printing region (min=%d. max=%d)\n\t", region->min, region->max); for (r = region->allocated; r; r = r->next) { fprintf(f, "(%d, %d) ", r->start, r->end); if (++i >= 8) fprintf(f, "\n\t"); } fprintf(f, "\n"); } int main(int argc, char **argv) { region_t r; int pc = 0, ret; region_addr_t start, end, len; while (1) { switch (bcode_program[pc++]) { case BCODE_END: exit(0); case BCODE_CREATE: start = bcode_program[pc++]; end = bcode_program[pc++]; printf("Creating region with args(%d, %d)\n", start, end); r = region_create(start, end); if (!r) { fprintf(stderr, "Couldn't create region.\n"); exit(1); } break; case BCODE_ALLOCATE: start = bcode_program[pc++]; end = bcode_program[pc++]; ret = region_allocate(r, start, end); printf("Region_allocate(%d, %d) returns %d\n", start, end, ret); break; case BCODE_PRINT: region_print(r, stdout); break; } } } #endif /* TEST_PROGRAM */