// Lists embeded STL vectors and pointers to STL vectors found in the given // memory range. // // Linux only, enabled with BUILD_VECTORS cmake option. #include "Core.h" #include #include #include #include #include #include #include using std::vector; using std::string; using namespace DFHack; struct t_vecTriplet { void * start; void * end; void * alloc_end; }; command_result df_vectors (Core * c, vector & parameters); command_result df_clearvec (Core * c, vector & parameters); DFHACK_PLUGIN("vectors"); DFhackCExport command_result plugin_init ( Core * c, std::vector &commands) { commands.push_back(PluginCommand("vectors", "Scan memory for vectors.\ \n 1st param: start of scan\ \n 2nd param: number of bytes to scan", df_vectors)); commands.push_back(PluginCommand("clearvec", "Set list of vectors to zero length", df_clearvec)); return CR_OK; } DFhackCExport command_result plugin_shutdown ( Core * c ) { return CR_OK; } static bool hexOrDec(string &str, uint32_t &value) { if (str.find("0x") == 0 && sscanf(str.c_str(), "%x", &value) == 1) return true; else if (sscanf(str.c_str(), "%u", &value) == 1) return true; return false; } static bool mightBeVec(vector &heap_ranges, t_vecTriplet *vec) { if ((vec->start > vec->end) || (vec->end > vec->alloc_end)) return false; // Vector length might not be a multiple of 4 if, for example, // it's a vector of uint8_t or uint16_t. However, the actual memory // allocated to the vector should be 4 byte aligned. if (((int)vec->start % 4 != 0) || ((int)vec->alloc_end % 4 != 0)) return false; for (size_t i = 0; i < heap_ranges.size(); i++) { t_memrange &range = heap_ranges[i]; if (range.isInRange(vec->start) && range.isInRange(vec->alloc_end)) return true; } return false; } static bool inAnyRange(vector &ranges, void * ptr) { for (size_t i = 0; i < ranges.size(); i++) { if (ranges[i].isInRange(ptr)) return true; } return false; } static bool getHeapRanges(Core * c, std::vector &heap_ranges) { std::vector ranges; c->p->getMemRanges(ranges); for (size_t i = 0; i < ranges.size(); i++) { t_memrange &range = ranges[i]; // Some kernels don't report [heap], and the heap can consist of // more segments than just the one labeled with [heap], so include // all segments which *might* be part of the heap. if (range.read && range.write && !range.shared) { if (strlen(range.name) == 0 || strcmp(range.name, "[heap]") == 0) heap_ranges.push_back(range); } } if (heap_ranges.empty()) { c->con << "No possible heap segments." << std::endl; return false; } return true; } //////////////////////////////////////// // COMMAND: vectors //////////////////////////////////////// static void vectorsUsage(Console &con) { con << "Usage: vectors <# bytes to scan>" << std::endl; } static void printVec(Console &con, const char* msg, t_vecTriplet *vec, uint32_t start, uint32_t pos) { uint32_t length = (int)vec->end - (int)vec->start; uint32_t offset = pos - start; con.print("%8s offset %06p, addr %010p, start %010p, length %u\n", msg, offset, pos, vec->start, length); } command_result df_vectors (Core * c, vector & parameters) { Console & con = c->con; if (parameters.size() != 2) { vectorsUsage(con); return CR_FAILURE; } uint32_t start = 0, bytes = 0; if (!hexOrDec(parameters[0], start)) { vectorsUsage(con); return CR_FAILURE; } if (!hexOrDec(parameters[1], bytes)) { vectorsUsage(con); return CR_FAILURE; } uint32_t end = start + bytes; // 4 byte alignment. while (start % 4 != 0) start++; c->Suspend(); std::vector heap_ranges; if (!getHeapRanges(c, heap_ranges)) { return CR_FAILURE; c->Resume(); } bool startInRange = false; for (size_t i = 0; i < heap_ranges.size(); i++) { t_memrange &range = heap_ranges[i]; if (!range.isInRange((void *)start)) continue; // Found the range containing the start if (!range.isInRange((void *)end)) { con.print("Scanning %u bytes would read past end of memory " "range.\n", bytes); uint32_t diff = end - (int)range.end; con.print("Cutting bytes down by %u.\n", diff); end = (uint32_t) range.end; } startInRange = true; break; } // for (size_t i = 0; i < ranges.size(); i++) if (!startInRange) { con << "Address not in any memory range." << std::endl; c->Resume(); return CR_FAILURE; } uint32_t pos = start; const uint32_t ptr_size = sizeof(void*); for (uint32_t pos = start; pos < end; pos += ptr_size) { // Is it an embeded vector? if (pos <= ( end - sizeof(t_vecTriplet) )) { t_vecTriplet* vec = (t_vecTriplet*) pos; if (mightBeVec(heap_ranges, vec)) { printVec(con, "VEC:", vec, start, pos); // Skip over rest of vector. pos += sizeof(t_vecTriplet) - ptr_size; continue; } } // Is it a vector pointer? if (pos <= (end - ptr_size)) { uint32_t ptr = * ( (uint32_t*) pos); if (inAnyRange(heap_ranges, (void *) ptr)) { t_vecTriplet* vec = (t_vecTriplet*) ptr; if (mightBeVec(heap_ranges, vec)) { printVec(con, "VEC PTR:", vec, start, pos); continue; } } } } // for (uint32_t pos = start; pos < end; pos += ptr_size) c->Resume(); return CR_OK; } //////////////////////////////////////// // COMMAND: clearvec //////////////////////////////////////// static void clearUsage(Console &con) { con << "Usage: clearvec [vector2 addr] ..." << std::endl; con << "Address can be either for vector or pointer to vector." << std::endl; } command_result df_clearvec (Core * c, vector & parameters) { Console & con = c->con; if (parameters.size() == 0) { clearUsage(con); return CR_FAILURE; } uint32_t start = 0, bytes = 0; if (!hexOrDec(parameters[0], start)) { vectorsUsage(con); return CR_FAILURE; } if (!hexOrDec(parameters[1], bytes)) { vectorsUsage(con); return CR_FAILURE; } c->Suspend(); std::vector heap_ranges; if (!getHeapRanges(c, heap_ranges)) { c->Resume(); return CR_FAILURE; } for (size_t i = 0; i < parameters.size(); i++) { std::string addr_str = parameters[i]; uint32_t addr; if (!hexOrDec(addr_str, addr)) { con << "'" << addr_str << "' not a number." << std::endl; continue; } if (addr % 4 != 0) { con << addr_str << " not 4 byte aligned." << std::endl; continue; } if (!inAnyRange(heap_ranges, (void *) addr)) { con << addr_str << " not in any valid address range." << std::endl; continue; } bool valid = false; bool ptr = false; t_vecTriplet* vec = (t_vecTriplet*) addr; if (mightBeVec(heap_ranges, vec)) valid = true; else { // Is it a pointer to a vector? addr = * ( (uint32_t*) addr); vec = (t_vecTriplet*) addr; if (inAnyRange(heap_ranges, (void *) addr) && mightBeVec(heap_ranges, vec)) { valid = true; ptr = true; } } if (!valid) { con << addr_str << " is not a vector." << std::endl; continue; } vec->end = vec->start; if (ptr) con << "Vector pointer "; else con << "Vector "; con << addr_str << " set to zero length." << std::endl; } // for (size_t i = 0; i < parameters.size(); i++) c->Resume(); return CR_OK; }