/* * * Conky, a system monitor, based on torsmo * * Any original torsmo code is licensed under the BSD license * * All code written since the fork of torsmo is licensed under the GPL * * Please see COPYING for details * * Copyright (c) 2004, Hannu Saransaari and Lauri Hakkarainen * Copyright (c) 2005-2019 Brenden Matthews, Philip Kovacs, et. al. * (see AUTHORS) * All rights reserved. * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * You should have received a copy of the GNU General Public License * along with this program. If not, see . * */ #include "proc.h" #include #include #include #include #include #include "conky.h" #include "core.h" #include "logging.h" char *readfile(const char *filename, int *total_read, char showerror) { FILE *file; char *buf = nullptr; int bytes_read; *total_read = 0; file = fopen(filename, "re"); if (file != nullptr) { do { buf = static_cast(realloc(buf, *total_read + READSIZE + 1)); bytes_read = fread(buf + *total_read, 1, READSIZE, file); *total_read += bytes_read; buf[*total_read] = 0; } while (bytes_read != 0); fclose(file); } else if (showerror != 0) { NORM_ERR(READERR, filename); } return buf; } void pid_readlink(const char *file, char *p, unsigned int p_max_size) { std::unique_ptr buf(new char[p_max_size]); memset(buf.get(), 0, p_max_size); if (readlink(file, buf.get(), p_max_size) >= 0) { snprintf(p, p_max_size, "%s", buf.get()); } else { NORM_ERR(READERR, file); } } struct ll_string { char *string; struct ll_string *next; }; struct ll_string *addnode(struct ll_string *end, char *string) { auto *current = static_cast(malloc(sizeof(struct ll_string))); current->string = strdup(string); current->next = nullptr; if (end != nullptr) { end->next = current; } return current; } void freelist(struct ll_string *front) { if (front != nullptr) { free(front->string); if (front->next != nullptr) { freelist(front->next); } free(front); } } int inlist(struct ll_string *front, char *string) { struct ll_string *current; for (current = front; current != nullptr; current = current->next) { if (strcmp(current->string, string) == 0) { return 1; } } return 0; } void print_pid_chroot(struct text_object *obj, char *p, unsigned int p_max_size) { std::ostringstream pathstream; std::unique_ptr buf(new char[max_user_text.get(*state)]); generate_text_internal(buf.get(), max_user_text.get(*state), *obj->sub); pathstream << PROCDIR "/" << buf.get() << "/root"; pid_readlink(pathstream.str().c_str(), p, p_max_size); } void print_pid_cmdline(struct text_object *obj, char *p, unsigned int p_max_size) { char *buf; int i, bytes_read; std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); if (*(objbuf.get()) != 0) { pathstream << PROCDIR "/" << objbuf.get() << "/cmdline"; buf = readfile(pathstream.str().c_str(), &bytes_read, 1); if (buf != nullptr) { for (i = 0; i < bytes_read - 1; i++) { if (buf[i] == 0) { buf[i] = ' '; } } snprintf(p, p_max_size, "%s", buf); free(buf); } } else { NORM_ERR("$pid_cmdline didn't receive a argument"); } } void print_pid_cwd(struct text_object *obj, char *p, unsigned int p_max_size) { std::unique_ptr buf(new char[p_max_size]); int bytes_read; std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); pathstream << PROCDIR "/" << objbuf.get() << "/cwd"; bytes_read = readlink(pathstream.str().c_str(), buf.get(), p_max_size); if (bytes_read != -1) { buf[bytes_read] = 0; snprintf(p, p_max_size, "%s", buf.get()); } else { NORM_ERR(READERR, pathstream.str().c_str()); } } void print_pid_environ(struct text_object *obj, char *p, unsigned int p_max_size) { int i, total_read; pid_t pid; std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); char *buf, *var = strdup(obj->data.s); ; generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); if (sscanf(objbuf.get(), "%d %s", &pid, var) == 2) { for (i = 0; var[i] != 0; i++) { var[i] = toupper(static_cast(var[i])); } pathstream << PROCDIR "/" << pid << "/cwd"; buf = readfile(pathstream.str().c_str(), &total_read, 1); if (buf != nullptr) { for (i = 0; i < total_read; i += strlen(buf + i) + 1) { if (strncmp(buf + i, var, strlen(var)) == 0 && *(buf + i + strlen(var)) == '=') { snprintf(p, p_max_size, "%s", buf + i + strlen(var) + 1); free(buf); free(var); return; } } free(buf); } *p = 0; } free(var); } void print_pid_environ_list(struct text_object *obj, char *p, unsigned int p_max_size) { char *buf = nullptr; char *buf2; int bytes_read, total_read; int i = 0; std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); pathstream << PROCDIR "/" << objbuf.get() << "/environ"; buf = readfile(pathstream.str().c_str(), &total_read, 1); if (buf != nullptr) { for (bytes_read = 0; bytes_read < total_read; buf[i - 1] = ';') { buf2 = strdup(buf + bytes_read); bytes_read += strlen(buf2) + 1; sscanf(buf2, "%[^=]", buf + i); free(buf2); i = strlen(buf) + 1; } buf[i - 1] = 0; snprintf(p, p_max_size, "%s", buf); free(buf); } } void print_pid_exe(struct text_object *obj, char *p, unsigned int p_max_size) { std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); pathstream << PROCDIR "/" << objbuf.get() << "/exe"; pid_readlink(pathstream.str().c_str(), p, p_max_size); } void print_pid_nice(struct text_object *obj, char *p, unsigned int p_max_size) { char *buf = nullptr; int bytes_read; long int nice_value; std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); if (!obj->data.s) { pathstream << PROCDIR "/" << objbuf.get() << "/stat"; buf = readfile(pathstream.str().c_str(), &bytes_read, 1); if (buf != nullptr) { sscanf(buf, "%*d %*s %*c %*d %*d %*d %*d %*d %*u %*u %*u %*u %*u %*u %*u %*d " "%*d %*d %ld", &nice_value); snprintf(p, p_max_size, "%ld", nice_value); free(buf); } } else { NORM_ERR("$pid_nice didn't receive a argument"); } } void print_pid_openfiles(struct text_object *obj, char *p, unsigned int p_max_size) { DIR *dir; struct dirent *entry; std::unique_ptr buf(new char[p_max_size]); int length, totallength = 0; struct ll_string *files_front = nullptr; struct ll_string *files_back = nullptr; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); dir = opendir(objbuf.get()); if (dir != nullptr) { while ((entry = readdir(dir)) != nullptr) { if (entry->d_name[0] != '.') { snprintf(buf.get(), p_max_size, "%s/%s", objbuf.get(), entry->d_name); length = readlink(buf.get(), buf.get(), p_max_size); buf[length] = 0; if (inlist(files_front, buf.get()) == 0) { files_back = addnode(files_back, buf.get()); snprintf(p + totallength, p_max_size - totallength, "%s; ", buf.get()); totallength += length + strlen("; "); } if (files_front == nullptr) { files_front = files_back; } } } closedir(dir); freelist(files_front); p[totallength - strlen("; ")] = 0; } else { p[0] = 0; } } void print_pid_parent(struct text_object *obj, char *p, unsigned int p_max_size) { #define PARENT_ENTRY "PPid:\t" #define PARENTNOTFOUND "Can't find the process parent in '%s'" char *begin, *end, *buf = nullptr; int bytes_read; std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); pathstream << PROCDIR "/" << objbuf.get() << "/status"; buf = readfile(pathstream.str().c_str(), &bytes_read, 1); if (buf != nullptr) { begin = strstr(buf, PARENT_ENTRY); if (begin != nullptr) { begin += strlen(PARENT_ENTRY); end = strchr(begin, '\n'); if (end != nullptr) { *(end) = 0; } snprintf(p, p_max_size, "%s", begin); } else { NORM_ERR(PARENTNOTFOUND, pathstream.str().c_str()); } free(buf); } } void print_pid_priority(struct text_object *obj, char *p, unsigned int p_max_size) { char *buf = nullptr; int bytes_read; long int priority; std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); if (*(objbuf.get()) != 0) { pathstream << PROCDIR "/" << objbuf.get() << "/stat"; buf = readfile(pathstream.str().c_str(), &bytes_read, 1); if (buf != nullptr) { sscanf(buf, "%*d %*s %*c %*d %*d %*d %*d %*d %*u %*u %*u %*u %*u %*u %*u %*d " "%*d %ld", &priority); snprintf(p, p_max_size, "%ld", priority); free(buf); } } else { NORM_ERR("$pid_priority didn't receive a argument"); } } void print_pid_state(struct text_object *obj, char *p, unsigned int p_max_size) { #define STATE_ENTRY "State:\t" #define STATENOTFOUND "Can't find the process state in '%s'" char *begin, *end, *buf = nullptr; int bytes_read; std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); pathstream << PROCDIR "/" << objbuf.get() << "/status"; buf = readfile(pathstream.str().c_str(), &bytes_read, 1); if (buf != nullptr) { begin = strstr(buf, STATE_ENTRY); if (begin != nullptr) { begin += strlen(STATE_ENTRY) + 3; // +3 will strip the char representing the short state and // the space and '(' that follow end = strchr(begin, '\n'); if (end != nullptr) { *(end - 1) = 0; // -1 strips the ')' } snprintf(p, p_max_size, "%s", begin); } else { NORM_ERR(STATENOTFOUND, pathstream.str().c_str()); } free(buf); } } void print_pid_state_short(struct text_object *obj, char *p, unsigned int p_max_size) { char *begin, *buf = nullptr; int bytes_read; std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); pathstream << PROCDIR "/" << objbuf.get() << "/status"; buf = readfile(pathstream.str().c_str(), &bytes_read, 1); if (buf != nullptr) { begin = strstr(buf, STATE_ENTRY); if (begin != nullptr) { snprintf(p, p_max_size, "%c", *begin); } else { NORM_ERR(STATENOTFOUND, pathstream.str().c_str()); } free(buf); } } void print_pid_stderr(struct text_object *obj, char *p, unsigned int p_max_size) { std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); pathstream << PROCDIR "/" << objbuf.get() << "/fd/2"; pid_readlink(pathstream.str().c_str(), p, p_max_size); } void print_pid_stdin(struct text_object *obj, char *p, unsigned int p_max_size) { std::unique_ptr objbuf(new char[max_user_text.get(*state)]); std::ostringstream pathstream; generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); pathstream << PROCDIR "/" << objbuf.get() << "/fd/0"; pid_readlink(pathstream.str().c_str(), p, p_max_size); } void print_pid_stdout(struct text_object *obj, char *p, unsigned int p_max_size) { std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); pathstream << PROCDIR "/" << objbuf.get() << "/fd/1"; pid_readlink(pathstream.str().c_str(), p, p_max_size); } void scan_cmdline_to_pid_arg(struct text_object *obj, const char *arg, void *free_at_crash) { unsigned int i; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); /* FIXME */ generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); if (strlen(arg) > 0) { obj->data.s = strdup(arg); for (i = 0; obj->data.s[i] != 0; i++) { while (obj->data.s[i] == ' ' && obj->data.s[i + 1] == ' ') { memmove(obj->data.s + i, obj->data.s + i + 1, strlen(obj->data.s + i + 1) + 1); } } if (obj->data.s[i - 1] == ' ') { obj->data.s[i - 1] = 0; } } else { CRIT_ERR(obj, free_at_crash, "${cmdline_to_pid commandline}"); } } void print_cmdline_to_pid(struct text_object *obj, char *p, unsigned int p_max_size) { DIR *dir; struct dirent *entry; char *buf; int bytes_read, i; std::ostringstream pathstream; dir = opendir(PROCDIR); if (dir != nullptr) { while ((entry = readdir(dir)) != nullptr) { pathstream << PROCDIR "/" << entry->d_name << "/cmdline"; buf = readfile(pathstream.str().c_str(), &bytes_read, 0); if (buf != nullptr) { for (i = 0; i < bytes_read - 1; i++) { if (buf[i] == 0) { buf[i] = ' '; } } if (strstr(buf, obj->data.s) != nullptr) { snprintf(p, p_max_size, "%s", entry->d_name); free(buf); closedir(dir); return; } free(buf); } } closedir(dir); } else { NORM_ERR(READERR, PROCDIR); } } void print_pid_threads(struct text_object *obj, char *p, unsigned int p_max_size) { #define THREADS_ENTRY "Threads:\t" #define THREADSNOTFOUND \ "Can't find the number of the threads of the process in '%s'" char *begin, *end, *buf = nullptr; int bytes_read; std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); pathstream << PROCDIR "/" << objbuf.get() << "/status"; buf = readfile(pathstream.str().c_str(), &bytes_read, 1); if (buf != nullptr) { begin = strstr(buf, THREADS_ENTRY); if (begin != nullptr) { begin += strlen(THREADS_ENTRY); end = strchr(begin, '\n'); if (end != nullptr) { *(end) = 0; } snprintf(p, p_max_size, "%s", begin); } else { NORM_ERR(THREADSNOTFOUND, pathstream.str().c_str()); } free(buf); } } void print_pid_thread_list(struct text_object *obj, char *p, unsigned int p_max_size) { DIR *dir; struct dirent *entry; int totallength = 0; std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); pathstream << PROCDIR "/" << objbuf.get() << "/task"; dir = opendir(pathstream.str().c_str()); if (dir != nullptr) { while ((entry = readdir(dir)) != nullptr) { if (entry->d_name[0] != '.') { snprintf(p + totallength, p_max_size - totallength, "%s,", entry->d_name); totallength += strlen(entry->d_name) + 1; } } closedir(dir); if (totallength > 0 && p[totallength - 1] == ',') { p[totallength - 1] = 0; } } else { p[0] = 0; } } void print_pid_time_kernelmode(struct text_object *obj, char *p, unsigned int p_max_size) { char *buf = nullptr; int bytes_read; unsigned long int umtime; std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); if (*(objbuf.get()) != 0) { pathstream << PROCDIR "/" << objbuf.get() << "/stat"; buf = readfile(pathstream.str().c_str(), &bytes_read, 1); if (buf != nullptr) { sscanf(buf, "%*d %*s %*c %*d %*d %*d %*d %*d %*u %*u %*u %*u %*u %lu", &umtime); snprintf(p, p_max_size, "%.2f", static_cast(umtime) / 100); free(buf); } } else { NORM_ERR("$pid_time_kernelmode didn't receive a argument"); } } void print_pid_time_usermode(struct text_object *obj, char *p, unsigned int p_max_size) { char *buf = nullptr; int bytes_read; unsigned long int kmtime; std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); if (*(objbuf.get()) != 0) { pathstream << PROCDIR "/" << objbuf.get() << "/stat"; buf = readfile(pathstream.str().c_str(), &bytes_read, 1); if (buf != nullptr) { sscanf(buf, "%*d %*s %*c %*d %*d %*d %*d %*d %*u %*u %*u %*u %*u %*u %lu", &kmtime); snprintf(p, p_max_size, "%.2f", static_cast(kmtime) / 100); free(buf); } } else { NORM_ERR("$pid_time_usermode didn't receive a argument"); } } void print_pid_time(struct text_object *obj, char *p, unsigned int p_max_size) { char *buf = nullptr; int bytes_read; unsigned long int umtime, kmtime; std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); if (*(objbuf.get()) != 0) { pathstream << PROCDIR "/" << objbuf.get() << "/stat"; buf = readfile(pathstream.str().c_str(), &bytes_read, 1); if (buf != nullptr) { sscanf(buf, "%*d %*s %*c %*d %*d %*d %*d %*d %*u %*u %*u %*u %*u %lu %lu", &umtime, &kmtime); snprintf(p, p_max_size, "%.2f", static_cast(umtime + kmtime) / 100); free(buf); } } else { NORM_ERR("$pid_time didn't receive a argument"); } } enum xid_type { egid, euid, fsgid, fsuid, gid, sgid, suid, uid }; void print_pid_Xid(struct text_object *obj, char *p, int p_max_size, xid_type type) { char *begin, *end, *buf = nullptr; int bytes_read; std::ostringstream pathstream; std::string errorstring; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); pathstream << PROCDIR "/" << objbuf.get() << "/status"; buf = readfile(pathstream.str().c_str(), &bytes_read, 1); if (buf != nullptr) { switch (type) { case egid: begin = strstr(buf, "Gid:\t"); break; case euid: begin = strstr(buf, "Uid:\t"); break; case fsgid: begin = strstr(buf, "Gid:\t"); break; case fsuid: begin = strstr(buf, "Uid:\t"); break; case gid: begin = strstr(buf, "Gid:\t"); break; case sgid: begin = strstr(buf, "Gid:\t"); break; case suid: begin = strstr(buf, "Uid:\t"); break; case uid: begin = strstr(buf, "Uid:\t"); break; default: break; } if (begin != nullptr) { switch (type) { case gid: begin += strlen("Gid:\t"); break; case uid: begin += strlen("Uid:\t"); break; case egid: case euid: begin = strchr(begin, '\t'); begin++; begin = strchr(begin, '\t'); begin++; break; case sgid: case suid: begin = strchr(begin, '\t'); begin++; begin = strchr(begin, '\t'); begin++; begin = strchr(begin, '\t'); begin++; break; case fsgid: case fsuid: begin = strchr(begin, '\t'); begin++; begin = strchr(begin, '\t'); begin++; begin = strchr(begin, '\t'); begin++; begin = strchr(begin, '\t'); begin++; break; default: break; } if (type == fsgid || type == fsuid) { end = strchr(begin, '\n'); } else { end = strchr(begin, '\t'); } if (end != nullptr) { *(end) = 0; } snprintf(p, p_max_size, "%s", begin); } else { errorstring = "Can't find the process "; switch (type) { case egid: errorstring.append("effective gid"); break; case euid: errorstring.append("effective uid"); break; case fsgid: errorstring.append("process file system gid"); break; case fsuid: errorstring.append("process file system uid"); break; case gid: errorstring.append("real gid"); break; case sgid: errorstring.append("saved set gid"); break; case suid: errorstring.append("saved set uid"); break; case uid: errorstring.append("real uid"); break; default: break; } errorstring.append(" in '%s'"); NORM_ERR(errorstring.c_str(), pathstream.str().c_str()); } free(buf); } } void print_pid_egid(struct text_object *obj, char *p, unsigned int p_max_size) { print_pid_Xid(obj, p, p_max_size, egid); } void print_pid_euid(struct text_object *obj, char *p, unsigned int p_max_size) { print_pid_Xid(obj, p, p_max_size, euid); } void print_pid_fsgid(struct text_object *obj, char *p, unsigned int p_max_size) { print_pid_Xid(obj, p, p_max_size, fsgid); } void print_pid_fsuid(struct text_object *obj, char *p, unsigned int p_max_size) { print_pid_Xid(obj, p, p_max_size, fsuid); } void print_pid_gid(struct text_object *obj, char *p, unsigned int p_max_size) { print_pid_Xid(obj, p, p_max_size, gid); } void print_pid_sgid(struct text_object *obj, char *p, unsigned int p_max_size) { print_pid_Xid(obj, p, p_max_size, sgid); } void print_pid_suid(struct text_object *obj, char *p, unsigned int p_max_size) { print_pid_Xid(obj, p, p_max_size, suid); } void print_pid_uid(struct text_object *obj, char *p, unsigned int p_max_size) { print_pid_Xid(obj, p, p_max_size, uid); } void internal_print_pid_vm(struct text_object *obj, char *p, int p_max_size, const char *entry, const char *errorstring) { char *begin, *end, *buf = nullptr; int bytes_read; std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); pathstream << PROCDIR "/" << objbuf.get() << "/status"; buf = readfile(pathstream.str().c_str(), &bytes_read, 1); if (buf != nullptr) { begin = strstr(buf, entry); if (begin != nullptr) { begin += strlen(entry); while (*begin == '\t' || *begin == ' ') { begin++; } end = strchr(begin, '\n'); if (end != nullptr) { *(end) = 0; } snprintf(p, p_max_size, "%s", begin); } else { NORM_ERR(errorstring, pathstream.str().c_str()); } free(buf); } } void print_pid_vmpeak(struct text_object *obj, char *p, unsigned int p_max_size) { internal_print_pid_vm( obj, p, p_max_size, "VmPeak:\t", "Can't find the process peak virtual memory size in '%s'"); } void print_pid_vmsize(struct text_object *obj, char *p, unsigned int p_max_size) { internal_print_pid_vm(obj, p, p_max_size, "VmSize:\t", "Can't find the process virtual memory size in '%s'"); } void print_pid_vmlck(struct text_object *obj, char *p, unsigned int p_max_size) { internal_print_pid_vm(obj, p, p_max_size, "VmLck:\t", "Can't find the process locked memory size in '%s'"); } void print_pid_vmhwm(struct text_object *obj, char *p, unsigned int p_max_size) { internal_print_pid_vm( obj, p, p_max_size, "VmHWM:\t", "Can't find the process peak resident set size in '%s'"); } void print_pid_vmrss(struct text_object *obj, char *p, unsigned int p_max_size) { internal_print_pid_vm(obj, p, p_max_size, "VmHWM:\t", "Can't find the process resident set size in '%s'"); } void print_pid_vmdata(struct text_object *obj, char *p, unsigned int p_max_size) { internal_print_pid_vm(obj, p, p_max_size, "VmData:\t", "Can't find the process data segment size in '%s'"); } void print_pid_vmstk(struct text_object *obj, char *p, unsigned int p_max_size) { internal_print_pid_vm(obj, p, p_max_size, "VmData:\t", "Can't find the process stack segment size in '%s'"); } void print_pid_vmexe(struct text_object *obj, char *p, unsigned int p_max_size) { internal_print_pid_vm(obj, p, p_max_size, "VmData:\t", "Can't find the process text segment size in '%s'"); } void print_pid_vmlib(struct text_object *obj, char *p, unsigned int p_max_size) { internal_print_pid_vm( obj, p, p_max_size, "VmLib:\t", "Can't find the process shared library code size in '%s'"); } void print_pid_vmpte(struct text_object *obj, char *p, unsigned int p_max_size) { internal_print_pid_vm( obj, p, p_max_size, "VmPTE:\t", "Can't find the process page table entries size in '%s'"); } #define READ_ENTRY "read_bytes: " #define READNOTFOUND "Can't find the amount of bytes read in '%s'" void print_pid_read(struct text_object *obj, char *p, unsigned int p_max_size) { char *begin, *end, *buf = nullptr; int bytes_read; std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); pathstream << PROCDIR "/" << objbuf.get() << "/io"; buf = readfile(pathstream.str().c_str(), &bytes_read, 1); if (buf != nullptr) { begin = strstr(buf, READ_ENTRY); if (begin != nullptr) { end = strchr(begin, '\n'); if (end != nullptr) { *(end) = 0; } snprintf(p, p_max_size, "%s", begin); } else { NORM_ERR(READNOTFOUND, pathstream.str().c_str()); } free(buf); } } #define WRITE_ENTRY "write_bytes: " #define WRITENOTFOUND "Can't find the amount of bytes written in '%s'" void print_pid_write(struct text_object *obj, char *p, unsigned int p_max_size) { char *begin, *end, *buf = nullptr; int bytes_read; std::ostringstream pathstream; std::unique_ptr objbuf(new char[max_user_text.get(*state)]); generate_text_internal(objbuf.get(), max_user_text.get(*state), *obj->sub); pathstream << PROCDIR "/" << objbuf.get() << "/io"; buf = readfile(pathstream.str().c_str(), &bytes_read, 1); if (buf != nullptr) { begin = strstr(buf, WRITE_ENTRY); if (begin != nullptr) { end = strchr(begin, '\n'); if (end != nullptr) { *(end) = 0; } snprintf(p, p_max_size, "%s", begin); } else { NORM_ERR(WRITENOTFOUND, pathstream.str().c_str()); } free(buf); } }