/* * This file Copyright (C) 2008-2014 Mnemosyne LLC * * It may be used under the GNU GPL versions 2 or 3 * or any future license endorsed by Mnemosyne LLC. * */ #include /* isdigit() */ #include #include /* strtoul() */ #include /* strlen(), memchr() */ #include #include "ConvertUTF.h" #define LIBTRANSMISSION_VARIANT_MODULE #include "transmission.h" #include "ptrarray.h" #include "utils.h" /* tr_snprintf() */ #include "variant.h" #include "variant-common.h" #define MAX_BENC_STR_LENGTH (128 * 1024 * 1024) /* arbitrary */ /*** **** tr_variantParse() **** tr_variantLoad() ***/ /** * The initial i and trailing e are beginning and ending delimiters. * You can have negative numbers such as i-3e. You cannot prefix the * number with a zero such as i04e. However, i0e is valid. * Example: i3e represents the integer "3" * NOTE: The maximum number of bit of this integer is unspecified, * but to handle it as a signed 64bit integer is mandatory to handle * "large files" aka .torrent for more that 4Gbyte */ int tr_bencParseInt(void const* vbuf, void const* vbufend, uint8_t const** setme_end, int64_t* setme_val) { uint8_t const* const buf = (uint8_t const*)vbuf; uint8_t const* const bufend = (uint8_t const*)vbufend; char* endptr; void const* begin; void const* end; int64_t val; if (buf >= bufend) { return EILSEQ; } if (*buf != 'i') { return EILSEQ; } begin = buf + 1; end = memchr(begin, 'e', (bufend - buf) - 1); if (end == NULL) { return EILSEQ; } errno = 0; val = evutil_strtoll(begin, &endptr, 10); if (errno != 0 || endptr != end) /* incomplete parse */ { return EILSEQ; } if (val != 0 && *(char const*)begin == '0') /* no leading zeroes! */ { return EILSEQ; } *setme_end = (uint8_t const*)end + 1; *setme_val = val; return 0; } /** * Byte strings are encoded as follows: * : * Note that there is no constant beginning delimiter, and no ending delimiter. * Example: 4:spam represents the string "spam" */ int tr_bencParseStr(void const* vbuf, void const* vbufend, uint8_t const** setme_end, uint8_t const** setme_str, size_t* setme_strlen) { uint8_t const* const buf = (uint8_t const*)vbuf; uint8_t const* const bufend = (uint8_t const*)vbufend; void const* end; size_t len; char* ulend; uint8_t const* strbegin; uint8_t const* strend; if (buf >= bufend) { goto err; } if (!isdigit(*buf)) { goto err; } end = memchr(buf, ':', bufend - buf); if (end == NULL) { goto err; } errno = 0; len = strtoul((char const*)buf, &ulend, 10); if (errno != 0 || ulend != end || len > MAX_BENC_STR_LENGTH) { goto err; } strbegin = (uint8_t const*)end + 1; strend = strbegin + len; if (strend < strbegin || strend > bufend) { goto err; } *setme_end = (uint8_t const*)end + 1 + len; *setme_str = (uint8_t const*)end + 1; *setme_strlen = len; return 0; err: *setme_end = NULL; *setme_str = NULL; *setme_strlen = 0; return EILSEQ; } static tr_variant* get_node(tr_ptrArray* stack, tr_quark* key, tr_variant* top, int* err) { tr_variant* node = NULL; if (tr_ptrArrayEmpty(stack)) { node = top; } else { tr_variant* parent = tr_ptrArrayBack(stack); if (tr_variantIsList(parent)) { node = tr_variantListAdd(parent); } else if (*key != 0 && tr_variantIsDict(parent)) { node = tr_variantDictAdd(parent, *key); *key = 0; } else { *err = EILSEQ; } } return node; } /** * This function's previous recursive implementation was * easier to read, but was vulnerable to a smash-stacking * attack via maliciously-crafted bencoded data. (#667) */ int tr_variantParseBenc(void const* buf_in, void const* bufend_in, tr_variant* top, char const** setme_end) { int err = 0; uint8_t const* buf = buf_in; uint8_t const* bufend = bufend_in; tr_ptrArray stack = TR_PTR_ARRAY_INIT; tr_quark key = 0; tr_variantInit(top, 0); while (buf != bufend) { if (buf > bufend) /* no more text to parse... */ { err = EILSEQ; } if (err != 0) { break; } if (*buf == 'i') /* int */ { int64_t val; uint8_t const* end; tr_variant* v; if ((err = tr_bencParseInt(buf, bufend, &end, &val)) != 0) { break; } buf = end; if ((v = get_node(&stack, &key, top, &err)) != NULL) { tr_variantInitInt(v, val); } } else if (*buf == 'l') /* list */ { tr_variant* v; ++buf; if ((v = get_node(&stack, &key, top, &err)) != NULL) { tr_variantInitList(v, 0); tr_ptrArrayAppend(&stack, v); } } else if (*buf == 'd') /* dict */ { tr_variant* v; ++buf; if ((v = get_node(&stack, &key, top, &err)) != NULL) { tr_variantInitDict(v, 0); tr_ptrArrayAppend(&stack, v); } } else if (*buf == 'e') /* end of list or dict */ { ++buf; if (tr_ptrArrayEmpty(&stack) || key != 0) { err = EILSEQ; break; } else { tr_ptrArrayPop(&stack); if (tr_ptrArrayEmpty(&stack)) { break; } } } else if (isdigit(*buf)) /* string? */ { tr_variant* v; uint8_t const* end; uint8_t const* str; size_t str_len; if ((err = tr_bencParseStr(buf, bufend, &end, &str, &str_len)) != 0) { break; } buf = end; if (key == 0 && !tr_ptrArrayEmpty(&stack) && tr_variantIsDict(tr_ptrArrayBack(&stack))) { key = tr_quark_new(str, str_len); } else if ((v = get_node(&stack, &key, top, &err)) != NULL) { tr_variantInitStr(v, str, str_len); } } else /* invalid bencoded text... march past it */ { ++buf; } if (tr_ptrArrayEmpty(&stack)) { break; } } if (err == 0 && (top->type == 0 || !tr_ptrArrayEmpty(&stack))) { err = EILSEQ; } if (err == 0) { if (setme_end != NULL) { *setme_end = (char const*)buf; } } else if (top->type != 0) { tr_variantFree(top); tr_variantInit(top, 0); } tr_ptrArrayDestruct(&stack, NULL); return err; } /**** ***** ****/ static void saveIntFunc(tr_variant const* val, void* evbuf) { evbuffer_add_printf(evbuf, "i%" PRId64 "e", val->val.i); } static void saveBoolFunc(tr_variant const* val, void* evbuf) { if (val->val.b) { evbuffer_add(evbuf, "i1e", 3); } else { evbuffer_add(evbuf, "i0e", 3); } } static void saveRealFunc(tr_variant const* val, void* evbuf) { int len; char buf[128]; len = tr_snprintf(buf, sizeof(buf), "%f", val->val.d); evbuffer_add_printf(evbuf, "%d:", len); evbuffer_add(evbuf, buf, len); } static void saveStringFunc(tr_variant const* v, void* evbuf) { size_t len; char const* str; if (!tr_variantGetStr(v, &str, &len)) { len = 0; str = NULL; } evbuffer_add_printf(evbuf, "%zu:", len); evbuffer_add(evbuf, str, len); } static void saveDictBeginFunc(tr_variant const* val UNUSED, void* evbuf) { evbuffer_add(evbuf, "d", 1); } static void saveListBeginFunc(tr_variant const* val UNUSED, void* evbuf) { evbuffer_add(evbuf, "l", 1); } static void saveContainerEndFunc(tr_variant const* val UNUSED, void* evbuf) { evbuffer_add(evbuf, "e", 1); } static struct VariantWalkFuncs const walk_funcs = { saveIntFunc, saveBoolFunc, saveRealFunc, saveStringFunc, saveDictBeginFunc, saveListBeginFunc, saveContainerEndFunc }; void tr_variantToBufBenc(tr_variant const* top, struct evbuffer* buf) { tr_variantWalk(top, &walk_funcs, buf, true); }