/* * Copyright (C) 2020-2021 Jo-Philipp Wich * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include /* memcpy(), memset() */ #include /* htobe64(), be64toh() */ #include /* isnan(), INFINITY */ #include /* isspace(), isdigit(), isxdigit() */ #include #include #include #include "ucode/util.h" #include "ucode/chunk.h" #include "ucode/program.h" #include "ucode/vallist.h" #include "ucode/vm.h" #define TAG_TYPE uint64_t #define TAG_BITS 3 #define TAG_MASK ((1LL << ((sizeof(TAG_TYPE) << 3) - TAG_BITS)) - 1) #define TAG_ALIGN(s) (((s) + (1 << TAG_BITS) - 1) & -(1 << TAG_BITS)) #define TAG_GET_TYPE(n) (int)((TAG_TYPE)n & ((1 << TAG_BITS) - 1)) #define TAG_FIT_NV(n) ((uint64_t)n <= TAG_MASK) #define TAG_SET_NV(n) ((TAG_TYPE)(uint64_t)n << TAG_BITS) #define TAG_GET_NV(n) (uint64_t)((uint64_t)((TAG_TYPE)n >> TAG_BITS) & TAG_MASK) #define TAG_FIT_STR(l) ((l - 1) < (((sizeof(TAG_TYPE) << 3) - TAG_BITS) >> 3)) #define TAG_SET_STR_L(l) (TAG_TYPE)((l & ((1 << (8 - TAG_BITS)) - 1)) << TAG_BITS) #define TAG_GET_STR_L(n) (size_t)(((TAG_TYPE)n >> TAG_BITS) & ((1 << (8 - TAG_BITS)) - 1)) #define TAG_GET_BOOL(n) (bool)(((TAG_TYPE)n >> TAG_BITS) & 1) #define TAG_GET_OFFSET(n) (size_t)(((TAG_TYPE)n >> TAG_BITS) & TAG_MASK) #define UC_VALLIST_CHUNK_SIZE 8 static uc_value_t * uc_number_parse_common(const char *buf, bool octal, char **end) { unsigned long long u; const char *p = buf; bool neg = false; int base = 10; double d; char *e; while (isspace(*p)) p++; if (*p == '-') { neg = true; p++; } else if (*p == '+') { p++; } if (*p != 0 && !isxdigit(*p)) return NULL; if (!end) end = &e; if (p[0] == '0') { switch (p[1]|32) { case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': base = octal ? 8 : 10; break; case 'x': base = 16; break; case 'b': base = 2; p += 2; break; case 'o': base = 8; p += 2; break; } } u = strtoull(p, end, base); if (base >= 10 && (**end == '.' || (**end|32) == 'e')) { d = strtod(p, end); if (!isspace(**end) && **end != 0) return NULL; if (neg) d = -d; return ucv_double_new(d); } if (!isspace(**end) && **end != 0) return NULL; if (neg) { if (u > INT64_MAX) return ucv_int64_new(INT64_MIN); return ucv_int64_new(-(int64_t)u); } return ucv_uint64_new(u); } uc_value_t * uc_number_parse(const char *buf, char **end) { return uc_number_parse_common(buf, false, end); } uc_value_t * uc_number_parse_octal(const char *buf, char **end) { return uc_number_parse_common(buf, true, end); } bool uc_double_pack(double d, char *buf, bool little_endian) { int8_t step = little_endian ? -1 : 1; uint32_t hibits = 0, lobits = 0; int32_t exponent = 0; bool sign = false; double fraction; uint8_t *p; if (d == 0.0) { sign = (copysign(1.0, d) == -1.0); } else if (isnan(d)) { sign = (copysign(1.0, d) == -1.0); exponent = 0x7ff; lobits = 0x1000000; hibits = 0xfffffff; } else if (!isfinite(d)) { sign = (d < 0.0); exponent = 0x7ff; } else { if (d < 0.0) { sign = true; d = -d; } fraction = frexp(d, &exponent); if (fraction == 0.0) { exponent = 0; } else { assert(fraction >= 0.5 && fraction < 1.0); fraction *= 2.0; exponent--; } if (exponent >= 1024) { errno = ERANGE; return false; } else if (exponent < -1022) { fraction = ldexp(fraction, 1022 + exponent); exponent = 0; } else if (exponent != 0 || fraction != 0.0) { fraction -= 1.0; exponent += 1023; } fraction *= 268435456.0; hibits = (uint32_t)fraction; assert(hibits <= 0xfffffff); fraction -= (double)hibits; fraction *= 16777216.0; lobits = (uint32_t)(fraction + 0.5); assert(lobits <= 0x1000000); if (lobits >> 24) { lobits = 0; if (++hibits >> 28) { hibits = 0; if (++exponent >= 2047) { errno = ERANGE; return false; } } } } p = (uint8_t *)buf + (little_endian ? 7 : 0); *p = (sign << 7) | (exponent >> 4); p += step; *p = ((exponent & 0xf) << 4) | (hibits >> 24); p += step; *p = (hibits >> 16) & 0xff; p += step; *p = (hibits >> 8) & 0xff; p += step; *p = hibits & 0xff; p += step; *p = (lobits >> 16) & 0xff; p += step; *p = (lobits >> 8) & 0xff; p += step; *p = lobits & 0xff; return true; } double uc_double_unpack(const char *buf, bool little_endian) { int8_t step = little_endian ? -1 : 1; uint32_t lofrac, hifrac; int32_t exponent; uint8_t *p; bool sign; double d; p = (uint8_t *)buf + (little_endian ? 7 : 0); sign = (*p >> 7) & 1; exponent = (*p & 0x7f) << 4; p += step; exponent |= (*p >> 4) & 0xf; hifrac = (*p & 0xf) << 24; p += step; hifrac |= *p << 16; p += step; hifrac |= *p << 8; p += step; hifrac |= *p; p += step; lofrac = *p << 16; p += step; lofrac |= *p << 8; p += step; lofrac |= *p; if (exponent == 0x7ff) { if (lofrac == 0 && hifrac == 0) return sign ? -INFINITY : INFINITY; else return sign ? -NAN : NAN; } d = (double)hifrac + (double)lofrac / 16777216.0; d /= 268435456.0; if (exponent == 0) { exponent = -1022; } else { exponent -= 1023; d += 1.0; } d = ldexp(d, exponent); return sign ? -d : d; } void uc_vallist_init(uc_value_list_t *list) { list->isize = 0; list->dsize = 0; list->index = NULL; list->data = NULL; } void uc_vallist_free(uc_value_list_t *list) { free(list->index); free(list->data); uc_vallist_init(list); } static void add_num(uc_value_list_t *list, uint64_t n) { size_t sz = TAG_ALIGN(sizeof(n)); if (TAG_FIT_NV(n)) { list->index[list->isize++] = (TAG_TYPE)(TAG_NUM | TAG_SET_NV(n)); } else { if ((TAG_TYPE)list->dsize + sz > TAG_MASK) { fprintf(stderr, "Constant data too large\n"); abort(); } list->data = xrealloc(list->data, list->dsize + sz); n = htobe64(n); memset(list->data + list->dsize, 0, sz); memcpy(list->data + list->dsize, &n, sizeof(n)); list->index[list->isize++] = (TAG_TYPE)(TAG_LNUM | (list->dsize << TAG_BITS)); list->dsize += sz; } } static ssize_t find_num(uc_value_list_t *list, uint64_t n) { TAG_TYPE search; size_t i; if (TAG_FIT_NV(n)) { search = (TAG_TYPE)(TAG_NUM | TAG_SET_NV(n)); for (i = 0; i < list->isize; i++) if (list->index[i] == search) return i; } else { for (i = 0; i < list->isize; i++) { if (TAG_GET_TYPE(list->index[i]) != TAG_LNUM) continue; if (TAG_GET_OFFSET(list->index[i]) + sizeof(uint64_t) > list->dsize) continue; if ((uint64_t)be64toh(*(uint64_t *)(list->data + TAG_GET_OFFSET(list->index[i]))) != n) continue; return i; } } return -1; } static void add_dbl(uc_value_list_t *list, double d) { size_t sz = TAG_ALIGN(sizeof(uint64_t)); if ((TAG_TYPE)list->dsize + sz > TAG_MASK) { fprintf(stderr, "Constant data too large\n"); abort(); } list->data = xrealloc(list->data, list->dsize + sz); memset(list->data + list->dsize, 0, sz); if (!uc_double_pack(d, list->data + list->dsize, false)) { fprintf(stderr, "Double value not representable\n"); abort(); } list->index[list->isize++] = (uint64_t)(TAG_DBL | (list->dsize << TAG_BITS)); list->dsize += sz; } static ssize_t find_dbl(uc_value_list_t *list, double d) { size_t i; for (i = 0; i < list->isize; i++) { if (TAG_GET_TYPE(list->index[i]) != TAG_DBL) continue; if (TAG_GET_OFFSET(list->index[i]) + sizeof(uint64_t) > list->dsize) continue; if (uc_double_unpack(list->data + TAG_GET_OFFSET(list->index[i]), false) != d) continue; return i; } return -1; } static void add_str(uc_value_list_t *list, const char *s, size_t slen) { const uint8_t *u8 = (const uint8_t *)s; uint32_t sl; size_t sz; char *dst; size_t i; if (slen > UINT32_MAX) { fprintf(stderr, "String constant too long\n"); abort(); } sz = TAG_ALIGN(sizeof(uint32_t) + slen); if ((TAG_TYPE)list->dsize + sz > TAG_MASK) { fprintf(stderr, "Constant data too large\n"); abort(); } if (TAG_FIT_STR(slen)) { list->index[list->isize] = (uint64_t)(TAG_STR | TAG_SET_STR_L(slen)); for (i = 0; i < slen; i++) list->index[list->isize] |= (((TAG_TYPE)u8[i] << ((i + 1) << 3))); list->isize++; } else { list->data = xrealloc(list->data, list->dsize + sz); sl = htobe32(slen); dst = list->data + list->dsize; memcpy(dst, &sl, sizeof(sl)); dst += sizeof(sl); memcpy(dst, s, slen); dst += slen; memset(dst, 0, TAG_ALIGN(sizeof(uint32_t) + slen) - (sizeof(uint32_t) + slen)); list->index[list->isize++] = (uint64_t)(TAG_LSTR | (list->dsize << TAG_BITS)); list->dsize += sz; } } static ssize_t find_str(uc_value_list_t *list, const char *s, size_t slen) { const uint8_t *u8 = (const uint8_t *)s; TAG_TYPE search; size_t i, len; if (TAG_FIT_STR(slen)) { search = (TAG_TYPE)(TAG_STR | TAG_SET_STR_L(slen)); for (i = 0; i < slen; i++) search |= (((TAG_TYPE)u8[i] << ((i + 1) << 3))); for (i = 0; i < list->isize; i++) if (list->index[i] == search) return i; } else { for (i = 0; i < list->isize; i++) { if (TAG_GET_TYPE(list->index[i]) != TAG_LSTR) continue; if (TAG_GET_OFFSET(list->index[i]) + sizeof(uint32_t) > list->dsize) continue; len = (size_t)be32toh(*(uint32_t *)(list->data + TAG_GET_OFFSET(list->index[i]))); if (len != slen) continue; if (TAG_GET_OFFSET(list->index[i]) + sizeof(uint32_t) + len > list->dsize) continue; if (memcmp(list->data + TAG_GET_OFFSET(list->index[i]) + sizeof(uint32_t), s, slen)) continue; return i; } } return -1; } ssize_t uc_vallist_add(uc_value_list_t *list, uc_value_t *value) { ssize_t existing; uint64_t u64; if ((list->isize % UC_VALLIST_CHUNK_SIZE) == 0) { list->index = xrealloc(list->index, sizeof(list->index[0]) * (list->isize + UC_VALLIST_CHUNK_SIZE)); memset(&list->index[list->isize], 0, UC_VALLIST_CHUNK_SIZE); } switch (ucv_type(value)) { case UC_INTEGER: u64 = ucv_uint64_get(value); assert(errno == 0); existing = find_num(list, u64); if (existing > -1) return existing; add_num(list, u64); break; case UC_DOUBLE: existing = find_dbl(list, ucv_double_get(value)); if (existing > -1) return existing; add_dbl(list, ucv_double_get(value)); break; case UC_STRING: existing = find_str(list, ucv_string_get(value), ucv_string_length(value)); if (existing > -1) return existing; add_str(list, ucv_string_get(value), ucv_string_length(value)); break; default: return -1; } return (ssize_t)list->isize - 1; } uc_value_type_t uc_vallist_type(uc_value_list_t *list, size_t idx) { if (idx >= list->isize) return TAG_INVAL; return TAG_GET_TYPE(list->index[idx]); } uc_value_t * uc_vallist_get(uc_value_list_t *list, size_t idx) { uint8_t str[sizeof(TAG_TYPE)]; size_t n, len; switch (uc_vallist_type(list, idx)) { case TAG_NUM: return ucv_uint64_new(TAG_GET_NV(list->index[idx])); case TAG_LNUM: if (TAG_GET_OFFSET(list->index[idx]) + sizeof(uint64_t) > list->dsize) return NULL; return ucv_uint64_new(be64toh(*(uint64_t *)(list->data + TAG_GET_OFFSET(list->index[idx])))); case TAG_DBL: if (TAG_GET_OFFSET(list->index[idx]) + sizeof(double) > list->dsize) return NULL; return ucv_double_new(uc_double_unpack(list->data + TAG_GET_OFFSET(list->index[idx]), false)); case TAG_STR: len = TAG_GET_STR_L(list->index[idx]); for (n = 0; n < len; n++) str[n] = (list->index[idx] >> ((n + 1) << 3)); return ucv_string_new_length((char *)str, len); case TAG_LSTR: if (TAG_GET_OFFSET(list->index[idx]) + sizeof(uint32_t) > list->dsize) return NULL; len = (size_t)be32toh(*(uint32_t *)(list->data + TAG_GET_OFFSET(list->index[idx]))); if (TAG_GET_OFFSET(list->index[idx]) + sizeof(uint32_t) + len > list->dsize) return NULL; return ucv_string_new_length(list->data + TAG_GET_OFFSET(list->index[idx]) + sizeof(uint32_t), len); default: return NULL; } }