/* * 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. * */ #if defined(HAVE_USELOCALE) && (!defined(_XOPEN_SOURCE) || _XOPEN_SOURCE < 700) #undef _XOPEN_SOURCE #define _XOPEN_SOURCE 700 #endif #if defined(HAVE_USELOCALE) && !defined(_GNU_SOURCE) #define _GNU_SOURCE #endif #include // std::sort #include #include /* strtod() */ #include #include #include #include #include #ifdef _WIN32 #include #endif #include /* setlocale() */ #if defined(HAVE_USELOCALE) && defined(HAVE_XLOCALE_H) #include #endif #include #define LIBTRANSMISSION_VARIANT_MODULE #include "transmission.h" #include "error.h" #include "file.h" #include "log.h" #include "quark.h" #include "tr-assert.h" #include "utils.h" #include "variant-common.h" #include "variant.h" /* don't use newlocale/uselocale on old versions of uClibc because they're buggy. * https://trac.transmissionbt.com/ticket/6006 */ #if defined(__UCLIBC__) && !TR_UCLIBC_CHECK_VERSION(0, 9, 34) #undef HAVE_USELOCALE #endif /** *** **/ using namespace std::literals; struct locale_context { #ifdef HAVE_USELOCALE locale_t new_locale; locale_t old_locale; #else #if defined(HAVE__CONFIGTHREADLOCALE) && defined(_ENABLE_PER_THREAD_LOCALE) int old_thread_config; #endif int category; char old_locale[128]; #endif }; static void use_numeric_locale(struct locale_context* context, char const* locale_name) { #ifdef HAVE_USELOCALE context->new_locale = newlocale(LC_NUMERIC_MASK, locale_name, nullptr); context->old_locale = uselocale(context->new_locale); #else #if defined(HAVE__CONFIGTHREADLOCALE) && defined(_ENABLE_PER_THREAD_LOCALE) context->old_thread_config = _configthreadlocale(_ENABLE_PER_THREAD_LOCALE); #endif context->category = LC_NUMERIC; tr_strlcpy(context->old_locale, setlocale(context->category, nullptr), sizeof(context->old_locale)); setlocale(context->category, locale_name); #endif } static void restore_locale(struct locale_context* context) { #ifdef HAVE_USELOCALE uselocale(context->old_locale); freelocale(context->new_locale); #else setlocale(context->category, context->old_locale); #if defined(HAVE__CONFIGTHREADLOCALE) && defined(_ENABLE_PER_THREAD_LOCALE) _configthreadlocale(context->old_thread_config); #endif #endif } /*** **** ***/ static bool tr_variantIsContainer(tr_variant const* v) { return tr_variantIsList(v) || tr_variantIsDict(v); } static bool tr_variantIsSomething(tr_variant const* v) { return tr_variantIsContainer(v) || tr_variantIsInt(v) || tr_variantIsString(v) || tr_variantIsReal(v) || tr_variantIsBool(v); } void tr_variantInit(tr_variant* v, char type) { v->type = type; memset(&v->val, 0, sizeof(v->val)); } /*** **** ***/ static auto constexpr STRING_INIT = tr_variant_string{ TR_STRING_TYPE_QUARK, 0, {}, }; static void tr_variant_string_clear(struct tr_variant_string* str) { if (str->type == TR_STRING_TYPE_HEAP) { tr_free((char*)(str->str.str)); } *str = STRING_INIT; } /* returns a const pointer to the variant's string */ static constexpr char const* tr_variant_string_get_string(struct tr_variant_string const* str) { switch (str->type) { case TR_STRING_TYPE_BUF: return str->str.buf; case TR_STRING_TYPE_HEAP: case TR_STRING_TYPE_QUARK: case TR_STRING_TYPE_VIEW: return str->str.str; default: return nullptr; } } static void tr_variant_string_set_quark(struct tr_variant_string* str, tr_quark const quark) { tr_variant_string_clear(str); str->type = TR_STRING_TYPE_QUARK; str->str.str = tr_quark_get_string(quark, &str->len); } static void tr_variant_string_set_string_view(struct tr_variant_string* str, std::string_view in) { tr_variant_string_clear(str); str->type = TR_STRING_TYPE_VIEW; str->len = std::size(in); str->str.str = std::data(in); } static void tr_variant_string_set_string(struct tr_variant_string* str, std::string_view in) { tr_variant_string_clear(str); auto const* const bytes = std::data(in); auto const len = std::size(in); if (len < sizeof(str->str.buf)) { str->type = TR_STRING_TYPE_BUF; if (len > 0) { std::copy_n(bytes, len, str->str.buf); } str->str.buf[len] = '\0'; str->len = len; } else { auto* tmp = tr_new(char, len + 1); std::copy_n(bytes, len, tmp); tmp[len] = '\0'; str->type = TR_STRING_TYPE_HEAP; str->str.str = tmp; str->len = len; } } /*** **** ***/ static constexpr char const* getStr(tr_variant const* v) { TR_ASSERT(tr_variantIsString(v)); return tr_variant_string_get_string(&v->val.s); } static int dictIndexOf(tr_variant const* dict, tr_quark const key) { if (tr_variantIsDict(dict)) { for (size_t i = 0; i < dict->val.l.count; ++i) { if (dict->val.l.vals[i].key == key) { return (int)i; } } } return -1; } tr_variant* tr_variantDictFind(tr_variant* dict, tr_quark const key) { int const i = dictIndexOf(dict, key); return i < 0 ? nullptr : dict->val.l.vals + i; } static bool tr_variantDictFindType(tr_variant* dict, tr_quark const key, int type, tr_variant** setme) { *setme = tr_variantDictFind(dict, key); return tr_variantIsType(*setme, type); } size_t tr_variantListSize(tr_variant const* list) { return tr_variantIsList(list) ? list->val.l.count : 0; } tr_variant* tr_variantListChild(tr_variant* v, size_t i) { tr_variant* ret = nullptr; if (tr_variantIsList(v) && i < v->val.l.count) { ret = v->val.l.vals + i; } return ret; } bool tr_variantListRemove(tr_variant* list, size_t i) { bool removed = false; if (tr_variantIsList(list) && i < list->val.l.count) { removed = true; tr_variantFree(&list->val.l.vals[i]); tr_removeElementFromArray(list->val.l.vals, i, sizeof(tr_variant), list->val.l.count); --list->val.l.count; } return removed; } bool tr_variantGetInt(tr_variant const* v, int64_t* setme) { bool success = false; if (tr_variantIsInt(v)) { if (setme != nullptr) { *setme = v->val.i; } success = true; } if (!success && tr_variantIsBool(v)) { if (setme != nullptr) { *setme = v->val.b ? 1 : 0; } success = true; } return success; } bool tr_variantGetStrView(tr_variant const* v, std::string_view* setme) { if (!tr_variantIsString(v)) { return false; } char const* const str = tr_variant_string_get_string(&v->val.s); size_t const len = v->val.s.len; *setme = std::string_view{ str, len }; return true; } bool tr_variantGetRaw(tr_variant const* v, uint8_t const** setme_raw, size_t* setme_len) { bool const success = tr_variantIsString(v); if (success) { *setme_raw = (uint8_t const*)getStr(v); *setme_len = v->val.s.len; } return success; } bool tr_variantGetBool(tr_variant const* v, bool* setme) { if (tr_variantIsBool(v)) { *setme = v->val.b; return true; } if (tr_variantIsInt(v) && (v->val.i == 0 || v->val.i == 1)) { *setme = v->val.i != 0; return true; } auto sv = std::string_view{}; if (tr_variantGetStrView(v, &sv)) { if (sv == "true"sv) { *setme = true; return true; } if (sv == "false"sv) { *setme = false; return true; } } return false; } bool tr_variantGetReal(tr_variant const* v, double* setme) { bool success = false; if (tr_variantIsReal(v)) { *setme = v->val.d; success = true; } if (!success && tr_variantIsInt(v)) { *setme = (double)v->val.i; success = true; } if (!success && tr_variantIsString(v)) { /* the json spec requires a '.' decimal point regardless of locale */ struct locale_context locale_ctx; use_numeric_locale(&locale_ctx, "C"); char* endptr = nullptr; double const d = strtod(getStr(v), &endptr); restore_locale(&locale_ctx); if (getStr(v) != endptr && *endptr == '\0') { *setme = d; success = true; } } return success; } bool tr_variantDictFindInt(tr_variant* dict, tr_quark const key, int64_t* setme) { tr_variant const* child = tr_variantDictFind(dict, key); return tr_variantGetInt(child, setme); } bool tr_variantDictFindBool(tr_variant* dict, tr_quark const key, bool* setme) { tr_variant const* child = tr_variantDictFind(dict, key); return tr_variantGetBool(child, setme); } bool tr_variantDictFindReal(tr_variant* dict, tr_quark const key, double* setme) { tr_variant const* child = tr_variantDictFind(dict, key); return tr_variantGetReal(child, setme); } bool tr_variantDictFindStrView(tr_variant* dict, tr_quark const key, std::string_view* setme) { tr_variant const* const child = tr_variantDictFind(dict, key); return tr_variantGetStrView(child, setme); } bool tr_variantDictFindList(tr_variant* dict, tr_quark const key, tr_variant** setme) { return tr_variantDictFindType(dict, key, TR_VARIANT_TYPE_LIST, setme); } bool tr_variantDictFindDict(tr_variant* dict, tr_quark const key, tr_variant** setme) { return tr_variantDictFindType(dict, key, TR_VARIANT_TYPE_DICT, setme); } bool tr_variantDictFindRaw(tr_variant* dict, tr_quark const key, uint8_t const** setme_raw, size_t* setme_len) { tr_variant const* child = tr_variantDictFind(dict, key); return tr_variantGetRaw(child, setme_raw, setme_len); } /*** **** ***/ void tr_variantInitRaw(tr_variant* v, void const* src, size_t byteCount) { tr_variantInit(v, TR_VARIANT_TYPE_STR); tr_variant_string_set_string(&v->val.s, { static_cast(src), byteCount }); } void tr_variantInitQuark(tr_variant* v, tr_quark const q) { tr_variantInit(v, TR_VARIANT_TYPE_STR); tr_variant_string_set_quark(&v->val.s, q); } void tr_variantInitStr(tr_variant* v, std::string_view str) { tr_variantInit(v, TR_VARIANT_TYPE_STR); tr_variant_string_set_string(&v->val.s, str); } void tr_variantInitStrView(tr_variant* v, std::string_view str) { tr_variantInit(v, TR_VARIANT_TYPE_STR); tr_variant_string_set_string_view(&v->val.s, str); } void tr_variantInitBool(tr_variant* v, bool value) { tr_variantInit(v, TR_VARIANT_TYPE_BOOL); v->val.b = value != 0; } void tr_variantInitReal(tr_variant* v, double value) { tr_variantInit(v, TR_VARIANT_TYPE_REAL); v->val.d = value; } void tr_variantInitInt(tr_variant* v, int64_t value) { tr_variantInit(v, TR_VARIANT_TYPE_INT); v->val.i = value; } void tr_variantInitList(tr_variant* v, size_t reserve_count) { tr_variantInit(v, TR_VARIANT_TYPE_LIST); tr_variantListReserve(v, reserve_count); } static tr_variant* containerReserve(tr_variant* v, size_t count) { TR_ASSERT(tr_variantIsContainer(v)); size_t const needed = v->val.l.count + count; if (needed > v->val.l.alloc) { /* scale the alloc size in powers-of-2 */ size_t n = v->val.l.alloc != 0 ? v->val.l.alloc : 8; while (n < needed) { n *= 2U; } v->val.l.vals = tr_renew(tr_variant, v->val.l.vals, n); v->val.l.alloc = n; } return v->val.l.vals + v->val.l.count; } void tr_variantListReserve(tr_variant* list, size_t count) { TR_ASSERT(tr_variantIsList(list)); containerReserve(list, count); } void tr_variantInitDict(tr_variant* v, size_t reserve_count) { tr_variantInit(v, TR_VARIANT_TYPE_DICT); tr_variantDictReserve(v, reserve_count); } void tr_variantDictReserve(tr_variant* dict, size_t reserve_count) { TR_ASSERT(tr_variantIsDict(dict)); containerReserve(dict, reserve_count); } tr_variant* tr_variantListAdd(tr_variant* list) { TR_ASSERT(tr_variantIsList(list)); tr_variant* child = containerReserve(list, 1); ++list->val.l.count; child->key = 0; tr_variantInit(child, TR_VARIANT_TYPE_INT); return child; } tr_variant* tr_variantListAddInt(tr_variant* list, int64_t val) { tr_variant* child = tr_variantListAdd(list); tr_variantInitInt(child, val); return child; } tr_variant* tr_variantListAddReal(tr_variant* list, double val) { tr_variant* child = tr_variantListAdd(list); tr_variantInitReal(child, val); return child; } tr_variant* tr_variantListAddBool(tr_variant* list, bool val) { tr_variant* child = tr_variantListAdd(list); tr_variantInitBool(child, val); return child; } tr_variant* tr_variantListAddStr(tr_variant* list, std::string_view str) { tr_variant* child = tr_variantListAdd(list); tr_variantInitStr(child, str); return child; } tr_variant* tr_variantListAddStrView(tr_variant* list, std::string_view str) { tr_variant* child = tr_variantListAdd(list); tr_variantInitStrView(child, str); return child; } tr_variant* tr_variantListAddQuark(tr_variant* list, tr_quark const val) { tr_variant* child = tr_variantListAdd(list); tr_variantInitQuark(child, val); return child; } tr_variant* tr_variantListAddRaw(tr_variant* list, void const* val, size_t len) { tr_variant* child = tr_variantListAdd(list); tr_variantInitRaw(child, val, len); return child; } tr_variant* tr_variantListAddList(tr_variant* list, size_t reserve_count) { tr_variant* child = tr_variantListAdd(list); tr_variantInitList(child, reserve_count); return child; } tr_variant* tr_variantListAddDict(tr_variant* list, size_t reserve_count) { tr_variant* child = tr_variantListAdd(list); tr_variantInitDict(child, reserve_count); return child; } tr_variant* tr_variantDictAdd(tr_variant* dict, tr_quark const key) { TR_ASSERT(tr_variantIsDict(dict)); tr_variant* val = containerReserve(dict, 1); ++dict->val.l.count; val->key = key; tr_variantInit(val, TR_VARIANT_TYPE_INT); return val; } static tr_variant* dictFindOrAdd(tr_variant* dict, tr_quark const key, int type) { /* see if it already exists, and if so, try to reuse it */ tr_variant* child = tr_variantDictFind(dict, key); if (child != nullptr) { if (!tr_variantIsType(child, type)) { tr_variantDictRemove(dict, key); child = nullptr; } else if (child->type == TR_VARIANT_TYPE_STR) { tr_variant_string_clear(&child->val.s); } } /* if it doesn't exist, create it */ if (child == nullptr) { child = tr_variantDictAdd(dict, key); } return child; } tr_variant* tr_variantDictAddInt(tr_variant* dict, tr_quark const key, int64_t val) { tr_variant* child = dictFindOrAdd(dict, key, TR_VARIANT_TYPE_INT); tr_variantInitInt(child, val); return child; } tr_variant* tr_variantDictAddBool(tr_variant* dict, tr_quark const key, bool val) { tr_variant* child = dictFindOrAdd(dict, key, TR_VARIANT_TYPE_BOOL); tr_variantInitBool(child, val); return child; } tr_variant* tr_variantDictAddReal(tr_variant* dict, tr_quark const key, double val) { tr_variant* child = dictFindOrAdd(dict, key, TR_VARIANT_TYPE_REAL); tr_variantInitReal(child, val); return child; } tr_variant* tr_variantDictAddQuark(tr_variant* dict, tr_quark const key, tr_quark const val) { tr_variant* child = dictFindOrAdd(dict, key, TR_VARIANT_TYPE_STR); tr_variantInitQuark(child, val); return child; } tr_variant* tr_variantDictAddStr(tr_variant* dict, tr_quark const key, std::string_view str) { tr_variant* child = dictFindOrAdd(dict, key, TR_VARIANT_TYPE_STR); tr_variantInitStr(child, str); return child; } tr_variant* tr_variantDictAddStrView(tr_variant* dict, tr_quark const key, std::string_view str) { tr_variant* child = dictFindOrAdd(dict, key, TR_VARIANT_TYPE_STR); tr_variantInitStrView(child, str); return child; } tr_variant* tr_variantDictAddRaw(tr_variant* dict, tr_quark const key, void const* src, size_t len) { tr_variant* child = dictFindOrAdd(dict, key, TR_VARIANT_TYPE_STR); tr_variantInitRaw(child, src, len); return child; } tr_variant* tr_variantDictAddList(tr_variant* dict, tr_quark const key, size_t reserve_count) { tr_variant* child = tr_variantDictAdd(dict, key); tr_variantInitList(child, reserve_count); return child; } tr_variant* tr_variantDictAddDict(tr_variant* dict, tr_quark const key, size_t reserve_count) { tr_variant* child = tr_variantDictAdd(dict, key); tr_variantInitDict(child, reserve_count); return child; } tr_variant* tr_variantDictSteal(tr_variant* dict, tr_quark const key, tr_variant* value) { tr_variant* child = tr_variantDictAdd(dict, key); *child = *value; child->key = key; tr_variantInit(value, value->type); return child; } bool tr_variantDictRemove(tr_variant* dict, tr_quark const key) { bool removed = false; int const i = dictIndexOf(dict, key); if (i >= 0) { int const last = (int)dict->val.l.count - 1; tr_variantFree(&dict->val.l.vals[i]); if (i != last) { dict->val.l.vals[i] = dict->val.l.vals[last]; } --dict->val.l.count; removed = true; } return removed; } /*** **** BENC WALKING ***/ class WalkNode { public: explicit WalkNode(tr_variant const* v_in) { assign(v_in); } tr_variant const* nextChild() { if (!tr_variantIsContainer(&v) || (child_index >= v.val.l.count)) { return nullptr; } auto idx = child_index++; if (!sorted.empty()) { idx = sorted[idx]; } return v.val.l.vals + idx; } bool is_visited = false; // shallow bitwise copy of the variant passed to the constructor tr_variant v = {}; protected: friend class VariantWalker; void assign(tr_variant const* v_in) { is_visited = false; v = *v_in; child_index = 0; sorted.clear(); } struct ByKey { std::string_view key; size_t idx; }; void sort(std::vector& sortbuf) { if (!tr_variantIsDict(&v)) { return; } auto const n = v.val.l.count; auto const* children = v.val.l.vals; sortbuf.resize(n); for (size_t i = 0; i < n; ++i) { sortbuf[i] = { tr_quark_get_string(children[i].key), i }; } std::sort(std::begin(sortbuf), std::end(sortbuf), [](ByKey const& a, ByKey const& b) { return a.key < b.key; }); // keep the sorted indices sorted.resize(n); for (size_t i = 0; i < n; ++i) { sorted[i] = sortbuf[i].idx; } } // When walking `v`'s children, this is the index of the next child size_t child_index = 0; // When `v` is a dict, this is its children's indices sorted by key. // Bencoded dicts must be sorted, so this is useful when writing benc. std::vector sorted; }; class VariantWalker { public: void emplace(tr_variant const* v_in, bool sort_dicts) { if (size == std::size(stack)) { stack.emplace_back(v_in); } else { stack[size].assign(v_in); } ++size; if (sort_dicts) { top().sort(sortbuf); } } void pop() { TR_ASSERT(size > 0); if (size > 0) { --size; } } bool empty() const { return size == 0; } WalkNode& top() { TR_ASSERT(size > 0); return stack[size - 1]; } private: size_t size = 0; std::vector stack; std::vector sortbuf; }; /** * This function's previous recursive implementation was * easier to read, but was vulnerable to a smash-stacking * attack via maliciously-crafted data. (#667) */ void tr_variantWalk(tr_variant const* v_in, struct VariantWalkFuncs const* walkFuncs, void* user_data, bool sort_dicts) { auto stack = VariantWalker{}; stack.emplace(v_in, sort_dicts); while (!stack.empty()) { auto& node = stack.top(); tr_variant const* v = nullptr; if (!node.is_visited) { v = &node.v; node.is_visited = true; } else if ((v = node.nextChild()) != nullptr) { if (tr_variantIsDict(&node.v)) { auto tmp = tr_variant{}; tr_variantInitQuark(&tmp, v->key); walkFuncs->stringFunc(&tmp, user_data); } } else // finished with this node { if (tr_variantIsContainer(&node.v)) { walkFuncs->containerEndFunc(&node.v, user_data); } stack.pop(); continue; } if (v != nullptr) { switch (v->type) { case TR_VARIANT_TYPE_INT: walkFuncs->intFunc(v, user_data); break; case TR_VARIANT_TYPE_BOOL: walkFuncs->boolFunc(v, user_data); break; case TR_VARIANT_TYPE_REAL: walkFuncs->realFunc(v, user_data); break; case TR_VARIANT_TYPE_STR: walkFuncs->stringFunc(v, user_data); break; case TR_VARIANT_TYPE_LIST: if (v == &node.v) { walkFuncs->listBeginFunc(v, user_data); } else { stack.emplace(v, sort_dicts); } break; case TR_VARIANT_TYPE_DICT: if (v == &node.v) { walkFuncs->dictBeginFunc(v, user_data); } else { stack.emplace(v, sort_dicts); } break; default: /* did caller give us an uninitialized val? */ tr_logAddError("%s", _("Invalid metadata")); break; } } } } /**** ***** ****/ static void freeDummyFunc(tr_variant const* /*v*/, void* /*buf*/) { } static void freeStringFunc(tr_variant const* v, void* /*user_data*/) { tr_variant_string_clear(&((tr_variant*)v)->val.s); } static void freeContainerEndFunc(tr_variant const* v, void* /*user_data*/) { tr_free(v->val.l.vals); } static struct VariantWalkFuncs const freeWalkFuncs = { freeDummyFunc, // freeDummyFunc, // freeDummyFunc, // freeStringFunc, // freeDummyFunc, // freeDummyFunc, // freeContainerEndFunc, // }; void tr_variantFree(tr_variant* v) { if (tr_variantIsSomething(v)) { tr_variantWalk(v, &freeWalkFuncs, nullptr, false); } } /*** **** ***/ static void tr_variantListCopy(tr_variant* target, tr_variant const* src) { int i = 0; tr_variant const* val = nullptr; while ((val = tr_variantListChild(const_cast(src), i)) != nullptr) { if (tr_variantIsBool(val)) { bool boolVal = false; tr_variantGetBool(val, &boolVal); tr_variantListAddBool(target, boolVal); } else if (tr_variantIsReal(val)) { double realVal = 0; tr_variantGetReal(val, &realVal); tr_variantListAddReal(target, realVal); } else if (tr_variantIsInt(val)) { int64_t intVal = 0; tr_variantGetInt(val, &intVal); tr_variantListAddInt(target, intVal); } else if (tr_variantIsString(val)) { auto sv = std::string_view{}; (void)tr_variantGetStrView(val, &sv); tr_variantListAddRaw(target, std::data(sv), std::size(sv)); } else if (tr_variantIsDict(val)) { tr_variantMergeDicts(tr_variantListAddDict(target, 0), val); } else if (tr_variantIsList(val)) { tr_variantListCopy(tr_variantListAddList(target, 0), val); } else { tr_logAddError("tr_variantListCopy skipping item"); } ++i; } } static size_t tr_variantDictSize(tr_variant const* dict) { return tr_variantIsDict(dict) ? dict->val.l.count : 0; } bool tr_variantDictChild(tr_variant* dict, size_t n, tr_quark* key, tr_variant** val) { TR_ASSERT(tr_variantIsDict(dict)); bool success = false; if (tr_variantIsDict(dict) && n < dict->val.l.count) { *key = dict->val.l.vals[n].key; *val = dict->val.l.vals + n; success = true; } return success; } void tr_variantMergeDicts(tr_variant* target, tr_variant const* source) { TR_ASSERT(tr_variantIsDict(target)); TR_ASSERT(tr_variantIsDict(source)); size_t const sourceCount = tr_variantDictSize(source); tr_variantDictReserve(target, sourceCount + tr_variantDictSize(target)); for (size_t i = 0; i < sourceCount; ++i) { auto key = tr_quark{}; tr_variant* val = nullptr; if (tr_variantDictChild(const_cast(source), i, &key, &val)) { tr_variant* t = nullptr; // if types differ, ensure that target will overwrite source auto const* const target_child = tr_variantDictFind(target, key); if (target_child && !tr_variantIsType(target_child, val->type)) { tr_variantDictRemove(target, key); } if (tr_variantIsBool(val)) { bool boolVal = false; tr_variantGetBool(val, &boolVal); tr_variantDictAddBool(target, key, boolVal); } else if (tr_variantIsReal(val)) { double realVal = 0; tr_variantGetReal(val, &realVal); tr_variantDictAddReal(target, key, realVal); } else if (tr_variantIsInt(val)) { int64_t intVal = 0; tr_variantGetInt(val, &intVal); tr_variantDictAddInt(target, key, intVal); } else if (tr_variantIsString(val)) { auto sv = std::string_view{}; (void)tr_variantGetStrView(val, &sv); tr_variantDictAddRaw(target, key, std::data(sv), std::size(sv)); } else if (tr_variantIsDict(val) && tr_variantDictFindDict(target, key, &t)) { tr_variantMergeDicts(t, val); } else if (tr_variantIsList(val)) { if (tr_variantDictFind(target, key) == nullptr) { tr_variantListCopy(tr_variantDictAddList(target, key, tr_variantListSize(val)), val); } } else if (tr_variantIsDict(val)) { tr_variant* target_dict = tr_variantDictFind(target, key); if (target_dict == nullptr) { target_dict = tr_variantDictAddDict(target, key, tr_variantDictSize(val)); } if (tr_variantIsDict(target_dict)) { tr_variantMergeDicts(target_dict, val); } } else { tr_logAddDebug("tr_variantMergeDicts skipping \"%s\"", tr_quark_get_string(key)); } } } } /*** **** ***/ struct evbuffer* tr_variantToBuf(tr_variant const* v, tr_variant_fmt fmt) { struct locale_context locale_ctx; struct evbuffer* buf = evbuffer_new(); /* parse with LC_NUMERIC="C" to ensure a "." decimal separator */ use_numeric_locale(&locale_ctx, "C"); evbuffer_expand(buf, 4096); /* alloc a little memory to start off with */ switch (fmt) { case TR_VARIANT_FMT_BENC: tr_variantToBufBenc(v, buf); break; case TR_VARIANT_FMT_JSON: tr_variantToBufJson(v, buf, false); break; case TR_VARIANT_FMT_JSON_LEAN: tr_variantToBufJson(v, buf, true); break; } /* restore the previous locale */ restore_locale(&locale_ctx); return buf; } std::string tr_variantToStr(tr_variant const* v, tr_variant_fmt fmt) { return evbuffer_free_to_str(tr_variantToBuf(v, fmt)); } int tr_variantToFile(tr_variant const* v, tr_variant_fmt fmt, std::string_view filename) { auto error_code = int{ 0 }; auto const contents = tr_variantToStr(v, fmt); tr_error* error = nullptr; tr_saveFile(filename, { std::data(contents), std::size(contents) }, &error); if (error != nullptr) { tr_logAddError(_("Error saving \"%" TR_PRIsv "\": %s (%d)"), TR_PRIsv_ARG(filename), error->message, error->code); error_code = error->code; tr_error_clear(&error); } return error_code; } /*** **** ***/ bool tr_variantFromBuf(tr_variant* setme, int opts, std::string_view buf, char const** setme_end, tr_error** error) { // supported formats: benc, json TR_ASSERT((opts & (TR_VARIANT_PARSE_BENC | TR_VARIANT_PARSE_JSON)) != 0); // parse with LC_NUMERIC="C" to ensure a "." decimal separator auto locale_ctx = locale_context{}; use_numeric_locale(&locale_ctx, "C"); auto err = (opts & TR_VARIANT_PARSE_BENC) ? tr_variantParseBenc(*setme, opts, buf, setme_end) : tr_variantParseJson(*setme, opts, buf, setme_end); /* restore the previous locale */ restore_locale(&locale_ctx); if (err) { tr_error_set(error, EILSEQ, "error parsing encoded data"sv); return false; } return true; } bool tr_variantFromFile(tr_variant* setme, tr_variant_parse_opts opts, std::string_view filename, tr_error** error) { // can't do inplace when this function is allocating & freeing the memory... TR_ASSERT((opts & TR_VARIANT_PARSE_INPLACE) == 0); auto buf = std::vector{}; if (!tr_loadFile(buf, filename, error)) { return false; } auto sv = std::string_view{ std::data(buf), std::size(buf) }; return tr_variantFromBuf(setme, opts, sv, nullptr, error); }