/** \file builtin_ulimit.cpp Functions defining the ulimit builtin Functions used for implementing the ulimit builtin. */ #include "config.h" #include #include #include #include #include #include #include #include #include "fallback.h" #include "util.h" #include "builtin.h" #include "common.h" #include "wgetopt.h" /** Struct describing a resource limit */ struct resource_t { /** Resource id */ int resource; /** Description of resource */ const wchar_t *desc; /** Switch used on commandline to specify resource */ wchar_t switch_char; /** The implicit multiplier used when setting getting values */ int multiplier; } ; /** Array of resource_t structs, describing all known resource types. */ static const struct resource_t resource_arr[] = { { RLIMIT_CORE, L"Maximum size of core files created", L'c', 1024 } , { RLIMIT_DATA, L"Maximum size of a process’s data segment", L'd', 1024 } , { RLIMIT_FSIZE, L"Maximum size of files created by the shell", L'f', 1024 } , #ifdef RLIMIT_MEMLOCK { RLIMIT_MEMLOCK, L"Maximum size that may be locked into memory", L'l', 1024 } , #endif #ifdef RLIMIT_RSS { RLIMIT_RSS, L"Maximum resident set size", L'm', 1024 } , #endif { RLIMIT_NOFILE, L"Maximum number of open file descriptors", L'n', 1 } , { RLIMIT_STACK, L"Maximum stack size", L's', 1024 } , { RLIMIT_CPU, L"Maximum amount of cpu time in seconds", L't', 1 } , #ifdef RLIMIT_NPROC { RLIMIT_NPROC, L"Maximum number of processes available to a single user", L'u', 1 } , #endif #ifdef RLIMIT_AS { RLIMIT_AS, L"Maximum amount of virtual memory available to the shell", L'v', 1024 } , #endif { 0, 0, 0, 0 } } ; /** Get the implicit multiplication factor for the specified resource limit */ static int get_multiplier(int what) { int i; for (i=0; resource_arr[i].desc; i++) { if (resource_arr[i].resource == what) { return resource_arr[i].multiplier; } } return -1; } /** Return the value for the specified resource limit. This function does _not_ multiply the limit value by the multiplier constant used by the commandline ulimit. */ static rlim_t get(int resource, int hard) { struct rlimit ls; getrlimit(resource, &ls); return hard ? ls.rlim_max:ls.rlim_cur; } /** Print the value of the specified resource limit */ static void print(int resource, int hard) { rlim_t l = get(resource, hard); if (l == RLIM_INFINITY) stdout_buffer.append(L"unlimited\n"); else append_format(stdout_buffer, L"%d\n", l / get_multiplier(resource)); } /** Print values of all resource limits */ static void print_all(int hard) { int i; int w=0; for (i=0; resource_arr[i].desc; i++) { w=maxi(w, my_wcswidth(resource_arr[i].desc)); } for (i=0; resource_arr[i].desc; i++) { struct rlimit ls; rlim_t l; getrlimit(resource_arr[i].resource, &ls); l = hard ? ls.rlim_max:ls.rlim_cur; const wchar_t *unit = ((resource_arr[i].resource==RLIMIT_CPU)?L"(seconds, ":(get_multiplier(resource_arr[i].resource)==1?L"(":L"(kB, ")); append_format(stdout_buffer, L"%-*ls %10ls-%lc) ", w, resource_arr[i].desc, unit, resource_arr[i].switch_char); if (l == RLIM_INFINITY) { stdout_buffer.append(L"unlimited\n"); } else { append_format(stdout_buffer, L"%d\n", l/get_multiplier(resource_arr[i].resource)); } } } /** Returns the description for the specified resource limit */ static const wchar_t *get_desc(int what) { int i; for (i=0; resource_arr[i].desc; i++) { if (resource_arr[i].resource == what) { return resource_arr[i].desc; } } return L"Not a resource"; } /** Set the new value of the specified resource limit. This function does _not_ multiply the limit value by the multiplier constant used by the commandline ulimit. */ static int set(int resource, int hard, int soft, rlim_t value) { struct rlimit ls; getrlimit(resource, &ls); if (hard) { ls.rlim_max = value; } if (soft) { ls.rlim_cur = value; /* Do not attempt to set the soft limit higher than the hard limit */ if ((value == RLIM_INFINITY && ls.rlim_max != RLIM_INFINITY) || (value != RLIM_INFINITY && ls.rlim_max != RLIM_INFINITY && value > ls.rlim_max)) { ls.rlim_cur = ls.rlim_max; } } if (setrlimit(resource, &ls)) { if (errno == EPERM) append_format(stderr_buffer, L"ulimit: Permission denied when changing resource of type '%ls'\n", get_desc(resource)); else builtin_wperror(L"ulimit"); return 1; } return 0; } /** The ulimit builtin, used for setting resource limits. Defined in builtin_ulimit.c. */ static int builtin_ulimit(parser_t &parser, wchar_t ** argv) { int hard=0; int soft=0; int what = RLIMIT_FSIZE; int report_all = 0; int argc = builtin_count_args(argv); woptind=0; while (1) { static const struct woption long_options[] = { { L"all", no_argument, 0, 'a' } , { L"hard", no_argument, 0, 'H' } , { L"soft", no_argument, 0, 'S' } , { L"core-size", no_argument, 0, 'c' } , { L"data-size", no_argument, 0, 'd' } , { L"file-size", no_argument, 0, 'f' } , { L"lock-size", no_argument, 0, 'l' } , { L"resident-set-size", no_argument, 0, 'm' } , { L"file-descriptor-count", no_argument, 0, 'n' } , { L"stack-size", no_argument, 0, 's' } , { L"cpu-time", no_argument, 0, 't' } , { L"process-count", no_argument, 0, 'u' } , { L"virtual-memory-size", no_argument, 0, 'v' } , { L"help", no_argument, 0, 'h' } , { 0, 0, 0, 0 } } ; int opt_index = 0; int opt = wgetopt_long(argc, argv, L"aHScdflmnstuvh", long_options, &opt_index); if (opt == -1) break; switch (opt) { case 0: if (long_options[opt_index].flag != 0) break; append_format(stderr_buffer, BUILTIN_ERR_UNKNOWN, argv[0], long_options[opt_index].name); builtin_print_help(parser, argv[0], stderr_buffer); return 1; case L'a': report_all=1; break; case L'H': hard=1; break; case L'S': soft=1; break; case L'c': what=RLIMIT_CORE; break; case L'd': what=RLIMIT_DATA; break; case L'f': what=RLIMIT_FSIZE; break; #ifdef RLIMIT_MEMLOCK case L'l': what=RLIMIT_MEMLOCK; break; #endif #ifdef RLIMIT_RSS case L'm': what=RLIMIT_RSS; break; #endif case L'n': what=RLIMIT_NOFILE; break; case L's': what=RLIMIT_STACK; break; case L't': what=RLIMIT_CPU; break; #ifdef RLIMIT_NPROC case L'u': what=RLIMIT_NPROC; break; #endif #ifdef RLIMIT_AS case L'v': what=RLIMIT_AS; break; #endif case L'h': builtin_print_help(parser, argv[0], stdout_buffer); return 0; case L'?': builtin_unknown_option(parser, argv[0], argv[woptind-1]); return 1; } } if (report_all) { if (argc - woptind == 0) { print_all(hard); } else { stderr_buffer.append(argv[0]); stderr_buffer.append(L": Too many arguments\n"); builtin_print_help(parser, argv[0], stderr_buffer); return 1; } return 0; } switch (argc - woptind) { case 0: { /* Show current limit value */ print(what, hard); break; } case 1: { /* Change current limit value */ rlim_t new_limit; wchar_t *end; /* Set both hard and soft limits if nothing else was specified */ if (!(hard+soft)) { hard=soft=1; } if (wcscasecmp(argv[woptind], L"unlimited")==0) { new_limit = RLIM_INFINITY; } else if (wcscasecmp(argv[woptind], L"hard")==0) { new_limit = get(what, 1); } else if (wcscasecmp(argv[woptind], L"soft")==0) { new_limit = get(what, soft); } else { errno=0; new_limit = wcstol(argv[woptind], &end, 10); if (errno || *end) { append_format(stderr_buffer, L"%ls: Invalid limit '%ls'\n", argv[0], argv[woptind]); builtin_print_help(parser, argv[0], stderr_buffer); return 1; } new_limit *= get_multiplier(what); } return set(what, hard, soft, new_limit); } default: { stderr_buffer.append(argv[0]); stderr_buffer.append(L": Too many arguments\n"); builtin_print_help(parser, argv[0], stderr_buffer); return 1; } } return 0; }