// Copyright 2005-2017 The Mumble Developers. All rights reserved. // Use of this source code is governed by a BSD-style license // that can be found in the LICENSE file at the root of the // Mumble source tree or at . #ifndef MUMBLE_PLUGIN_LINUX_H_ #define MUMBLE_PLUGIN_LINUX_H_ #ifndef PTR_TYPE_CONCRETE # define PTR_TYPE_CONCRETE PTR_TYPE #endif #include #include #include #include #include #include #include #include #include #include "mumble_plugin.h" pid_t pPid; static PTR_TYPE_CONCRETE pModule; static inline std::string readAll(std::string fn) { std::ifstream ifs; ifs.open(fn.c_str(), std::ifstream::binary); std::string content; char buf[256]; while (ifs.good()) { ifs.read(&buf[0], sizeof(buf)); size_t nread = ifs.gcount(); if (nread > 0) { content.append(&buf[0], nread); } } return content; } static inline PTR_TYPE_CONCRETE getModuleAddr(pid_t pid, const wchar_t *modname) { std::wstring modnameWide(modname); std::string modnameNonWide(modnameWide.begin(), modnameWide.end()); std::stringstream ss; ss << std::string("/proc/"); ss << static_cast(pid); ss << std::string("/maps"); std::string mapsFn = ss.str(); std::string maps = readAll(mapsFn); if (maps.size() == 0) { return 0; } std::stringstream ssPath(maps); while (ssPath.good()) { std::string baseaddr; int ch; while (1) { ch = ssPath.get(); if (ch == '-') { break; } else if (ch == EOF) { return 0; } baseaddr.push_back(static_cast(ch)); } // seek to perms do { ch = ssPath.get(); if (ch == EOF) { return 0; } } while (ch != ' '); // seek to offset do { ch = ssPath.get(); if (ch == EOF) { return 0; } } while (ch != ' '); // seek to dev do { ch = ssPath.get(); if (ch == EOF) { return 0; } } while (ch != ' '); // seek to inode do { ch = ssPath.get(); if (ch == EOF) { return 0; } } while (ch != ' '); // seek to pathname do { ch = ssPath.get(); if (ch == EOF) { return 0; } } while (ch != ' '); // eat spaces until we're at the beginning of pathname. while (ch == ' ') { if (ch == EOF) { return 0; } ch = ssPath.get(); } ssPath.unget(); std::string pathname; while (1) { ch = ssPath.get(); if (ch == '\n') { break; } else if (ch == EOF) { return 0; } pathname.push_back(static_cast(ch)); }; // OK, we found 'em! // Only treat path as a real path if it starts with /. if (pathname.size() > 0 && pathname.at(0) == '/') { // Find the basename. size_t lastSlash = pathname.find_last_of('/'); if (pathname.size() > lastSlash + 1) { std::string basename = pathname.substr(lastSlash + 1); if (basename == modnameNonWide) { unsigned long addr = strtoul(baseaddr.c_str(), NULL, 16); return addr; } } } } return 0; } static inline PTR_TYPE_CONCRETE getModuleAddr(const wchar_t *modname) { return getModuleAddr(pPid, modname); } static inline bool peekProc(PTR_TYPE base, void *dest, size_t len) { struct iovec in; in.iov_base = reinterpret_cast(base); // Address from target process in.iov_len = len; // Length struct iovec out; out.iov_base = dest; out.iov_len = len; ssize_t nread = process_vm_readv(pPid, &out, 1, &in, 1, 0); return (nread != -1 && static_cast(nread) == in.iov_len); } template T peekProc(PTR_TYPE base) { T v = 0; if (!peekProc(base, reinterpret_cast(&v), sizeof(T))) { return 0; } return v; } template bool peekProc(PTR_TYPE base, T &dest) { struct iovec in; in.iov_base = reinterpret_cast(base); // Address from target process in.iov_len = sizeof(T); // Length struct iovec out; out.iov_base = &dest; out.iov_len = sizeof(T); ssize_t nread = process_vm_readv(pPid, &out, 1, &in, 1, 0); return (nread != -1 && static_cast(nread) == in.iov_len); } static bool inline initialize(const std::multimap &pids, const wchar_t *procname, const wchar_t *modname = NULL) { pModule = 0; if (! pids.empty()) { std::multimap::const_iterator iter = pids.find(std::wstring(procname)); if (iter != pids.end()) pPid = static_cast(iter->second); else pPid = 0; } else { pPid = 0; } if (pPid == 0) return false; pModule = getModuleAddr(modname ? modname : procname); if (pModule == 0) { pPid = 0; return false; } return true; } static void generic_unlock() { pModule = 0; pPid = 0; } #endif