#include "ikarus-data.h" #include #include static int page_idx(unsigned char* x){ unsigned int xi = (unsigned int) x; return xi >> pageshift; } #define fixnum_mask 3 #define pmask 7 #ifndef NDEBUG static int isa_fixnum(ikp x){ return ((fixnum_mask & (int)x) == 0); } static int isa_vector(ikp x){ return ( (tagof(x) == vector_tag) && isa_fixnum(ref(x, -vector_tag))); } #endif static void verify_code(unsigned char* x, unsigned char* base, unsigned int* svec, unsigned int* dvec){ assert(ref(x, 0) == code_tag); ikp rvec = ref(x, disp_code_reloc_vector); assert(isa_vector(rvec)); ikp codesize = ref(x, disp_code_code_size); codesize += 0; assert(unfix(codesize) >= 0); assert(isa_fixnum(codesize)); ikp freevars = ref(x, disp_code_freevars); freevars += 0; assert(isa_fixnum(freevars)); assert(unfix(freevars) >= 0); unsigned int rs = svec[page_idx(rvec) - page_idx(base)]; unsigned int cs = svec[page_idx(x) - page_idx(base)]; int cgen = cs&gen_mask; int rgen = rs&gen_mask; if(rgen < cgen){ unsigned int d = dvec[page_idx(x) - page_idx(base)]; d = d & d; //int off = (((int)x) - align_to_prev_page(x)) / card_size; //int card_mark = (d >> off) & 0xF; assert(d != 0); } } static void verify_object(ikp x, unsigned char* base, unsigned int* svec, unsigned int* dvec){ } static unsigned char* verify_code_small(unsigned char* p, unsigned int s, unsigned int d, unsigned char* base, unsigned int* svec, unsigned int* dvec){ ikp q = p + pagesize; while(p < q){ ikp fst = ref(p, 0); if(fst == code_tag){ assert(is_fixnum(ref(p, disp_code_code_size))); int code_size = unfix(ref(p, disp_code_code_size)); assert(code_size >= 0); verify_code(p, base, svec, dvec); p+=align(code_size + disp_code_data); } else { p = q; } } if(p != q){ fprintf(stderr, "code extended beyond a page in %p, %p\n", p, q); assert(0); } return q; } static unsigned char* verify_code_large(unsigned char* p, unsigned int s, unsigned int d, unsigned char* base, unsigned int* svec, unsigned int* dvec){ ikp fst = ref(p, 0); fst += 0; assert(fst == code_tag); int code_size = unfix(ref(p, disp_code_code_size)); assert(code_size >= 0); verify_code(p, base, svec, dvec); assert(align(code_size+disp_code_data) >= pagesize); ikp end = p + code_size + disp_code_data; return((unsigned char*)align_to_next_page(end)); } static unsigned char* verify_code_page(unsigned char* p, unsigned int s, unsigned int d, unsigned char* base, unsigned int* svec, unsigned int* dvec){ ikp fst = ref(p, 0); fst += 0; if(fst != code_tag){ fprintf(stderr, "non code object with tag %p found\n", fst); exit(-1); } int code_size = unfix(ref(p, disp_code_code_size)); assert(code_size >= 0); int obj_size = align(code_size + disp_code_data); unsigned char* result; if(obj_size <= pagesize){ result = verify_code_small(p,s,d,base,svec,dvec); } else { result = verify_code_large(p,s,d,base,svec,dvec); } // fprintf(stderr, "code verify incomplete\n"); return result; } static unsigned char* verify_pointers_page(unsigned char* p, unsigned int s, unsigned int d, unsigned char* base, unsigned int* svec, unsigned int* dvec){ { int i = 0; while(i < pagesize){ verify_object(ref(p, i), base, svec, dvec); i += wordsize; } } //fprintf(stderr, "pointers verif incomplete\n"); return p+pagesize; } static unsigned char* verify_page(unsigned char* p, unsigned char* base, unsigned int* svec, unsigned int* dvec){ int idx = page_idx(p) - page_idx(base); unsigned int s = svec[idx]; unsigned int d = dvec[idx]; // if(s & dealloc_mask){ // return p+pagesize; // } int type = s & type_mask; if(type == hole_type){ return p+pagesize; } assert((s & new_gen_mask) == 0); if(type == code_type){ return verify_code_page(p,s,d,base,svec,dvec); } else if(type == pointers_type){ return verify_pointers_page(p,s,d,base,svec,dvec); } else if(type == weak_pairs_type){ return verify_pointers_page(p,s,d,base,svec,dvec); } else if(type == symbols_type){ return verify_pointers_page(p,s,d,base,svec,dvec); } else if(type == dat_type){ /* nothing to do for data */ return p+pagesize; } else if(type == mainheap_type){ /* nothing to do for main heap */ return p+pagesize; } else if(type == mainstack_type){ /* nothing to do for main stack */ return p+pagesize; } fprintf(stderr, "type=0x%08x\n", type); exit(-1); } void verify_integrity(ikpcb* pcb, char* where){ fprintf(stderr, "verifying in %s...\n", where); unsigned char* mem_base = pcb->memory_base; unsigned char* mem_end = pcb->memory_end; unsigned int* seg_vec = pcb->segment_vector_base; unsigned int* dir_vec = pcb->dirty_vector_base; unsigned char* mem = mem_base; while(mem < mem_end){ mem = verify_page(mem, mem_base, seg_vec, dir_vec); } fprintf(stderr, "verify_ok in %s\n", where); }