/* -*- Mode: C; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include typedef unsigned long long addr_t; bool DumpHex = false; bool DumpAll = false; bool DumpStrings = false; int DumpWidth = 32; #define MAP_SIZE 20 #define PATH_SIZE 1000 // No harm in having it much larger than strictly necessary. Avoids compiler warning. #define BUFFER_SIZE 9600 static int read_buffer(char *buffer, unsigned size, const char *file, char sep) { int file_desc; unsigned total_bytes = 0; file_desc = open(file, O_RDONLY); if (file_desc == -1) return 0; for (;;) { ssize_t number_bytes = read(file_desc, buffer + total_bytes, size - total_bytes); if (number_bytes == -1) { if (errno==EINTR) continue; break; } total_bytes += number_bytes; if (total_bytes == size) { --total_bytes; break; } if (number_bytes==0) break; // EOF } close(file_desc); if (total_bytes) { int i=total_bytes; while (i--) if (buffer[i]=='\n' || buffer[i]=='\0') buffer[i]=sep; if (buffer[total_bytes-1]==' ') buffer[total_bytes-1]='\0'; } buffer[total_bytes] = '\0'; return total_bytes; } static int openPid(unsigned proc_id, const char *name) { char path_proc[PATH_SIZE]; snprintf(path_proc, sizeof(path_proc), "/proc/%d/%s", proc_id, name); int fd = open(path_proc, 0); if (fd < 0) error(EXIT_FAILURE, errno, "Failed to open %s", path_proc); return fd; } struct Map { private: addr_t _start; addr_t _end; std::string _name; public: void setStart(addr_t start) { _start = start; } addr_t getStart() const { return _start; } void setEnd(addr_t end) { _end = end; } addr_t getEnd() const { return _end; } void setName(const std::string& name) { _name = name; } const std::string& getName() const { return _name; } size_t size() { return _end - _start; } }; struct StringData { private: size_t _count; size_t _chars; public: StringData() : _count(0), _chars(0) {} void setCount(size_t count) { _count = count; } size_t getCount() const { return _count; } void setChars(size_t chars) { _chars = chars; } size_t getChars() const { return _chars; } }; struct AddrSpace { private: unsigned _proc_id; std::vector _maps; std::unordered_map _addrToStr; StringData _strings[3]; public: AddrSpace(unsigned proc_id) : _proc_id(proc_id) { } void printStats() { char prefixes[] = { 'S', 'U', 'C' }; for (int i = 0; i < 3; ++i) { printf("%cStrings :%20lld, %lld chars\n", prefixes[i], (addr_t)_strings[i].getCount(), (addr_t)_strings[i].getChars()); } } std::string findName(addr_t page) const { for (const Map &i : _maps) { if (i.getStart() <= page && i.getEnd() > page) return i.getName(); } return std::string(""); } void insert(addr_t start, addr_t end, const char *name) { Map map; map.setStart(start); map.setEnd(end); map.setName(std::string(name, 0, strlen(name) - 1)); _maps.push_back(map); } // Normal OUString: // 20 00 00 00 00 00 00 00 02 00 00 00 05 00 00 00 4b 00 45 00 59 00 5f 00 55 00 00 00 00 00 00 00 | ...............K.E.Y._.U...... // 20 00 00 00 00 00 00 00 02 00 00 00 05 00 00 00 4b 45 59 5f 55 00 00 00 00 00 00 00 00 00 00 00 | ...............KEY_U.......... bool isStringAtOffset(const std::vector &data, size_t i, uint32_t len, bool isUnicode, std::string &str) { str = isUnicode ? "U_" : "S_"; int step = isUnicode ? 2 : 1; for (size_t j = i; j < i + len*step && j < data.size(); j += step) { if (isascii(data[j]) && !iscntrl(data[j]) && (step == 1 || data[j+1] == 0)) str += static_cast(data[j]); else return false; } return true; } bool isCStringAtOffset(const std::vector &data, size_t i, std::string &str) { str = "C_"; for (size_t j = i; j < data.size(); j++) { if (isascii(data[j]) && !iscntrl(data[j])) str += static_cast(data[j]); else return data[j] == '\0' && str.length() > 7; } return false; } void scanForSalStrings(Map &map, const std::vector &data) { for (size_t i = 0; i < data.size() - 24; i += 4) { const uint32_t *p = reinterpret_cast(&data[i]); uint32_t len; std::string str; if ((p[0] & 0xffffff) < 0x1000 && // plausible max ref-count (len = p[1]) < 0x100 && // plausible max string length len <= (data.size() - i) && len > 2) { bool isUnicode = data[i+1] == 0 && data[i+3] == 0; if (isStringAtOffset(data, i + 8, len, isUnicode, str)) { StringData &sdata = _strings[isUnicode ? 1 : 0]; sdata.setCount(sdata.getCount() + 1); sdata.setChars(sdata.getChars() + len); _addrToStr[map.getStart() + i] = str; i += ((4 + str.length() * (isUnicode ? 2 : 1)) >>2 ) * 4; } } if ((i%8 == 0) && isCStringAtOffset(data, i, str)) { StringData &sdata = _strings[2]; sdata.setCount(sdata.getCount() + 1); sdata.setChars(sdata.getChars() + str.length()); _addrToStr[map.getStart() + i] = str; i += (str.length() >> 2) * 4; } } } void scanMapsForStrings() { int mem_fd = openPid(_proc_id, "mem"); for (auto &map : _maps) { std::vector data; data.resize (map.size()); if (lseek(mem_fd, map.getStart(), SEEK_SET) < 0 || read(mem_fd, &data[0], map.size()) != (int)map.size()) error(EXIT_FAILURE, errno, "Failed to seek in /proc/%d/mem to %lld", _proc_id, map.getStart()); scanForSalStrings(map, data); } close (mem_fd); } const std::unordered_map& getAddrToStr() const { return _addrToStr; } }; static void dumpDiff(const AddrSpace &space, const std::vector &pageData, const std::vector &parentData) { assert(pageData.size() == parentData.size()); const unsigned int width = DumpWidth; for (unsigned int i = 0; i < pageData.size(); i += width) { std::string page = Util::stringifyHexLine(pageData, i, width); std::string parent = Util::stringifyHexLine(parentData, i, width); // page printf("0x%.4x %s\n", i, page.c_str()); // strings const addr_t *ptrs = reinterpret_cast(&pageData[i]); std::stringstream annots; bool haveAnnots = false; for (unsigned int j = 0; j < width/8; j++) { std::string str; auto it = space.getAddrToStr().find(ptrs[j]); if (it != space.getAddrToStr().end()) { str = it->second; haveAnnots = true; } str.resize(24, ' '); annots << str << " "; } if (haveAnnots) printf ("annot: %s\n", annots.str().c_str()); // parent if (page != parent) { printf ("-par't- "); assert(page.length() == parent.length()); for (size_t j = 0; j < page.length(); ++j) { if (page[j] == parent[j] && page[j] != '|') printf(" "); else printf("%c", parent[j]); } printf("\n"); } } } static void dumpPages(unsigned proc_id, unsigned parent_id, const char *type, const std::vector &pages, const AddrSpace &space) { int mem_fd = openPid(proc_id, "mem"); int parent_fd = openPid(parent_id, "mem"); if (DumpHex) printf ("\nUn-shared data dump\n"); size_t cnt = 0; addr_t sameButUnshared = 0; addr_t bytesTouched = 0; for (addr_t page : pages) { std::vector pageData, parentData; pageData.resize(0x1000); parentData.resize(0x1000); if (lseek(mem_fd, page, SEEK_SET) < 0) error(EXIT_FAILURE, errno, "Failed to seek in /proc//mem to %lld", page); if (read(mem_fd, &pageData[0], 0x1000) != 0x1000) error(EXIT_FAILURE, errno, "Failed to read page %lld from /proc//mem", page); if (lseek(parent_fd, page, SEEK_SET) < 0) parentData.resize(0); else if (read(parent_fd, &parentData[0], 0x1000) != 0x1000) parentData.resize(0); // missing equivalent page. int touched = 0; const char *style; if (parentData.size() > 0) { bool bZeroParent = true; for (size_t i = 0; i < pageData.size(); ++i) { if (pageData[i] != parentData[i]) touched++; if (parentData[i] != 0) bZeroParent = false; } if (bZeroParent) { style = "zero parent page"; touched = 0; // ignore tedious diff. } else if (touched == 0) { if (DumpAll) style = "dump unchanged"; else { style = "un-shared but matches parent"; sameButUnshared++; } } else style = "was shared"; } else style = "unique"; if (DumpHex) { printf ("\n%s page: 0x%.8llx (%d/%d) - touched: %d - %s - from %s\n", type, page, (int)++cnt, (int)pages.size(), touched, style, space.findName(page).c_str()); if (touched == 0) { std::stringstream pageStr; Util::dumpHex(pageStr, "", "", pageData, false, DumpWidth); printf("%s", pageStr.str().c_str()); } else dumpDiff(space, pageData, parentData); } bytesTouched += touched; } close (mem_fd); close (parent_fd); printf ("\tsame but unshared %6lld (%lldkB)\n", sameButUnshared, sameButUnshared * 4); printf ("\tdirtied bytes touched %6lld per page %.2f\n\n", bytesTouched, (double)bytesTouched / pages.size()); } static std::vector compressBitmap(const std::vector &bitmap) { size_t i; std::vector output; for (i = 0; i < bitmap.size(); ++i) { char cur; int cnt = 0; size_t j = i; for (cur = bitmap[j]; bitmap[j] == cur; ++j) ++cnt; output.push_back(cur); if (cnt > 3) { char num[16]; output.push_back('['); sprintf(num, "%d", cnt); for (int cpy = 0; num[cpy] != '\0'; ++cpy) output.push_back(num[cpy]); output.push_back(']'); i += cnt - 1; } } output.push_back('\0'); return output; } static void dump_unshared(unsigned proc_id, unsigned parent_id, const char *type, const std::vector &vaddrs, const AddrSpace & space) { int fd = openPid(proc_id, "pagemap"); std::vector bitmap; std::vector vunshared; addr_t numShared = 0, numOwn = 0; for (addr_t p : vaddrs) { if (lseek(fd, (p / 0x1000 * 8), SEEK_SET) < 0) error(EXIT_FAILURE, errno, "Failed to seek in pagemap"); addr_t vaddrData; if (read(fd, &vaddrData, 8) < 0) error(EXIT_FAILURE, errno, "Failed to read vaddrdata"); { // https://patchwork.kernel.org/patch/6787921/ // fprintf(stderr, "addr: 0x%8llx bits: 0x%8llx : %s\n", p, vaddrData, // (vaddrData & ((addr_t)1 << 56)) ? "unshared" : "shared"); if (vaddrData & ((addr_t)1 << 56)) { numOwn++; bitmap.push_back('*'); vunshared.push_back(p); } else { numShared++; bitmap.push_back('.'); if (DumpAll) vunshared.push_back(p); } } } close (fd); printf ("Totals for %s\n", type); printf ("\tshared %5lld (%lldkB)\n", numShared, numShared * 4); printf ("\tunshared %5lld (%lldkB)\n", numOwn, numOwn * 4); std::vector compressed = compressBitmap(bitmap); printf ("\tRLE sharing bitmap:\n%s\n", &compressed[0]); dumpPages(proc_id, parent_id, type, vunshared, space); std::unordered_set unShared; for (addr_t addr : vunshared) unShared.insert(addr); if (DumpStrings) { printf("String dump:\n"); for (const auto& addr : space.getAddrToStr()) { if (DumpAll || unShared.find((addr.first & ~0x1fff)) != unShared.end()) printf("0x%.16llx %s\n", addr.first, addr.second.c_str()); } printf("String dump ends.\n"); } } static void total_smaps(unsigned proc_id, unsigned parent_id, const char *file, const char *cmdline) { FILE *file_pointer; char buffer[BUFFER_SIZE]; addr_t total_private_dirty = 0ull; addr_t total_private_clean = 0ull; addr_t total_shared_dirty = 0ull; addr_t total_shared_clean = 0ull; addr_t smap_value; char smap_key[MAP_SIZE]; AddrSpace space(proc_id); std::vector heapVAddrs, anonVAddrs, fileVAddrs; std::vector *pushTo = nullptr; if ((file_pointer = fopen(file, "r")) == nullptr) error(EXIT_FAILURE, errno, "%s", file); while (fgets(buffer, sizeof(buffer), file_pointer)) { // collect heap page details if (strstr(buffer, "[heap]")) pushTo = &heapVAddrs; else if (strstr(buffer, "/")) pushTo = &fileVAddrs; else pushTo = &anonVAddrs; if (strstr(buffer, " rw-p ")) { addr_t start, end; // 012d0000-0372f000 rw-p 00000000 00:00 0 [heap] if (sscanf(buffer, "%llx-%llx rw-p", &start, &end) == 2) { const char *name = strchr(buffer, '['); if (!name) name = strchr(buffer, '/'); if (!name) name = "[anon]\n"; space.insert(start, end, name); for (addr_t p = start; p < end; p += 0x1000) pushTo->push_back(p); } else fprintf (stderr, "malformed heap line '%s'\n", buffer); } if (buffer[0] >= 'A' && buffer[0] <= 'Z') { if (sscanf(buffer, "%20[^:]: %llu", smap_key, &smap_value) == 2) { if (strncmp("Shared_Dirty", smap_key, 12) == 0) { total_shared_dirty += smap_value; continue; } if (strncmp("Shared_Clean", smap_key, 12) == 0) { total_shared_clean += smap_value; continue; } if (strncmp("Private_Dirty", smap_key, 13) == 0) { total_private_dirty += smap_value; continue; } if (strncmp("Private_Clean", smap_key, 13) == 0) { total_private_clean += smap_value; continue; } } } } space.scanMapsForStrings(); printf("%s\n", cmdline); printf("Process ID :%20d\n", proc_id); printf(" parent ID :%20d\n", parent_id); printf("--------------------------------------\n"); printf("Shared Clean :%20lld kB\n", total_shared_clean); printf("Shared Dirty :%20lld kB\n", total_shared_dirty); printf("Private Clean :%20lld kB\n", total_private_clean); printf("Private Dirty :%20lld kB\n", total_private_dirty); printf("--------------------------------------\n"); printf("Shared :%20lld kB\n", total_shared_clean + total_shared_dirty); printf("Private :%20lld kB\n", total_private_clean + total_private_dirty); printf("--------------------------------------\n"); printf("Heap page cnt :%20lld\n", (addr_t)heapVAddrs.size()); printf("Anon page cnt :%20lld\n", (addr_t)anonVAddrs.size()); printf("File page cnt :%20lld\n", (addr_t)fileVAddrs.size()); printf("--------------------------------------\n"); space.printStats(); printf("\n"); dump_unshared(proc_id, parent_id, "heap", heapVAddrs, space); dump_unshared(proc_id, parent_id, "anon", anonVAddrs, space); dump_unshared(proc_id, parent_id, "file", fileVAddrs, space); } static unsigned getParent(int proc_id) { int fd = openPid(proc_id, "stat"); char buffer[4096]; int len; if ((len = read(fd, buffer, sizeof (buffer))) < 0) error(EXIT_FAILURE, errno, "Failed to read /proc/%d/stat", proc_id); close (fd); buffer[len] = '\0'; char state, cmd[4096]; unsigned unused, ppid = 0; if (sscanf(buffer, "%d %s %c %d", &unused, cmd, &state, &ppid) != 4 || ppid == 0) { fprintf(stderr, "Failed to locate parent from " "/proc/%d/stat : '%s'\n", proc_id, buffer); exit (1); } return ppid; } int main(int argc, char **argv) { DIR *root_proc; struct dirent *dir_proc; char path_proc[PATH_SIZE]; char cmdline[BUFFER_SIZE]; bool found = false; bool help = false; unsigned forPid = 0; const char *appOrPid = nullptr; setlocale (LC_ALL, ""); for (int i = 1; i < argc; ++i) { const char *arg = argv[i]; if (strstr(arg, "--help")) help = true; else if (strstr(arg, "--hex")) DumpHex = true; else if (strstr(arg, "--all")) DumpAll = true; else if (strstr(arg, "--strings")) DumpStrings = true; else if (strstr(arg, "--width")) { DumpWidth = std::max((int)pow(2, round(log(atoi(argv[++i]))/log(2))), 8); } else appOrPid = arg; } if (appOrPid == nullptr && forPid == 0) help = true; if (help) { fprintf(stderr, "Usage: loolmap --hex \n"); fprintf(stderr, "Dump memory map information for a given process\n"); fprintf(stderr, " --hex Hex dump relevant page contents and diff to parent process\n"); fprintf(stderr, " --strings Print all detected strings\n"); fprintf(stderr, " --all Hex dump all writable pages whether touched or not\n"); fprintf(stderr, " --width Define width of hex dump in bytes, rounded to a power of 2\n"); return 0; } forPid = atoi(appOrPid); root_proc = opendir("/proc"); if (!root_proc) error(EXIT_FAILURE, errno, "%s", "/proc"); while ((dir_proc = readdir(root_proc))) { if (!dir_proc && !dir_proc->d_name[0]) error(EXIT_FAILURE, ENOTDIR, "bad dir"); if (*dir_proc->d_name > '0' && *dir_proc->d_name <= '9') { unsigned pid_proc = strtoul(dir_proc->d_name, nullptr, 10); snprintf(path_proc, sizeof(path_proc), "/proc/%s/%s", dir_proc->d_name, "cmdline"); if (read_buffer(cmdline, sizeof(cmdline), path_proc, ' ') && (forPid == pid_proc || (forPid == 0 && strstr(cmdline, appOrPid) && !strstr(cmdline, argv[0])))) { unsigned parent_id = getParent(pid_proc); snprintf(path_proc, sizeof(path_proc), "/proc/%s/%s", dir_proc->d_name, "smaps"); total_smaps(pid_proc, parent_id, path_proc, cmdline); found = true; } } } if (!found) fprintf(stderr, "Failed to find process %s\n", appOrPid); return EXIT_SUCCESS; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */