/* * pstree.c - display process tree * * Copyright (C) 1993-2002 Werner Almesberger * Copyright (C) 2002-2009 Craig Small * Copyright (C) 2010 Lauri Kasanen * * Based on pstree (PSmisc) 22.13. * * Licensed under GPLv2, see file LICENSE in this source tree. */ //config:config PSTREE //config: bool "pstree" //config: default y //config: help //config: Display a tree of processes. //applet:IF_PSTREE(APPLET(pstree, BB_DIR_USR_BIN, BB_SUID_DROP)) //kbuild:lib-$(CONFIG_PSTREE) += pstree.o //usage:#define pstree_trivial_usage //usage: "[-p] [PID|USER]" //usage:#define pstree_full_usage "\n\n" //usage: "Display process tree, optionally start from USER or PID\n" //usage: "\n -p Show pids" #include "libbb.h" #define PROC_BASE "/proc" #define OPT_PID (1 << 0) struct child; #ifdef ENABLE_FEATURE_SHOW_THREADS /* For threads, we add {...} around the comm, so we need two extra bytes */ # define COMM_DISP_LEN (COMM_LEN + 2) #else # define COMM_DISP_LEN COMM_LEN #endif typedef struct proc { char comm[COMM_DISP_LEN + 1]; // char flags; - unused, delete? pid_t pid; uid_t uid; struct child *children; struct proc *parent; struct proc *next; } PROC; /* For flags above */ //#define PFLAG_THREAD 0x01 typedef struct child { PROC *child; struct child *next; } CHILD; #define empty_2 " " #define branch_2 "|-" #define vert_2 "| " #define last_2 "`-" #define single_3 "---" #define first_3 "-+-" struct globals { /* 0-based. IOW: the number of chars we printed on current line */ unsigned cur_x; unsigned output_width; /* The buffers will be dynamically increased in size as needed */ unsigned capacity; unsigned *width; uint8_t *more; PROC *list; smallint dumped; /* used by dump_by_user */ }; #define G (*ptr_to_globals) #define INIT_G() do { \ SET_PTR_TO_GLOBALS(xzalloc(sizeof(G))); \ } while (0) /* * Allocates additional buffer space for width and more as needed. * The first call will allocate the first buffer. * * bufindex the index that will be used after the call to this function. */ static void ensure_buffer_capacity(int bufindex) { if (bufindex >= G.capacity) { G.capacity += 0x100; G.width = xrealloc(G.width, G.capacity * sizeof(G.width[0])); G.more = xrealloc(G.more, G.capacity * sizeof(G.more[0])); } } /* NB: this function is never called with "bad" chars * (control chars or chars >= 0x7f) */ static void out_char(char c) { G.cur_x++; if (G.cur_x > G.output_width) return; if (G.cur_x == G.output_width) c = '+'; putchar(c); } /* NB: this function is never called with "bad" chars * (control chars or chars >= 0x7f) */ static void out_string(const char *str) { while (*str) out_char(*str++); } static void out_newline(void) { putchar('\n'); G.cur_x = 0; } static PROC *find_proc(pid_t pid) { PROC *walk; for (walk = G.list; walk; walk = walk->next) if (walk->pid == pid) break; return walk; } static PROC *new_proc(const char *comm, pid_t pid, uid_t uid) { PROC *new = xzalloc(sizeof(*new)); strcpy(new->comm, comm); new->pid = pid; new->uid = uid; new->next = G.list; G.list = new; return G.list; } static void add_child(PROC *parent, PROC *child) { CHILD *new, **walk; int cmp; new = xmalloc(sizeof(*new)); new->child = child; for (walk = &parent->children; *walk; walk = &(*walk)->next) { cmp = strcmp((*walk)->child->comm, child->comm); if (cmp > 0) break; if (cmp == 0 && (*walk)->child->uid > child->uid) break; } new->next = *walk; *walk = new; } static void add_proc(const char *comm, pid_t pid, pid_t ppid, uid_t uid /*, char isthread*/) { PROC *this, *parent; this = find_proc(pid); if (!this) this = new_proc(comm, pid, uid); else { strcpy(this->comm, comm); this->uid = uid; } if (pid == ppid) ppid = 0; // if (isthread) // this->flags |= PFLAG_THREAD; parent = find_proc(ppid); if (!parent) parent = new_proc("?", ppid, 0); add_child(parent, this); this->parent = parent; } static int tree_equal(const PROC *a, const PROC *b) { const CHILD *walk_a, *walk_b; if (strcmp(a->comm, b->comm) != 0) return 0; if ((option_mask32 /*& OPT_PID*/) && a->pid != b->pid) return 0; for (walk_a = a->children, walk_b = b->children; walk_a && walk_b; walk_a = walk_a->next, walk_b = walk_b->next ) { if (!tree_equal(walk_a->child, walk_b->child)) return 0; } return !(walk_a || walk_b); } static int out_args(const char *mystr) { const char *here; int strcount = 0; char tmpstr[5]; for (here = mystr; *here; here++) { if (*here == '\\') { out_string("\\\\"); strcount += 2; } else if (*here >= ' ' && *here < 0x7f) { out_char(*here); strcount++; } else { sprintf(tmpstr, "\\%03o", (unsigned char) *here); out_string(tmpstr); strcount += 4; } } return strcount; } static void dump_tree(PROC *current, int level, int rep, int leaf, int last, int closing) { CHILD *walk, *next, **scan; int lvl, i, add, offset, count, comm_len, first; char tmp[sizeof(int)*3 + 4]; if (!current) return; if (!leaf) { for (lvl = 0; lvl < level; lvl++) { i = G.width[lvl] + 1; while (--i >= 0) out_char(' '); if (lvl == level - 1) { if (last) { out_string(last_2); } else { out_string(branch_2); } } else { if (G.more[lvl + 1]) { out_string(vert_2); } else { out_string(empty_2); } } } } add = 0; if (rep > 1) { add += sprintf(tmp, "%d*[", rep); out_string(tmp); } comm_len = out_args(current->comm); if (option_mask32 /*& OPT_PID*/) { comm_len += sprintf(tmp, "(%d)", (int)current->pid); out_string(tmp); } offset = G.cur_x; if (!current->children) { while (closing--) out_char(']'); out_newline(); } ensure_buffer_capacity(level); G.more[level] = !last; G.width[level] = comm_len + G.cur_x - offset + add; if (G.cur_x >= G.output_width) { //out_string(first_3); - why? it won't print anything //out_char('+'); out_newline(); return; } first = 1; for (walk = current->children; walk; walk = next) { count = 0; next = walk->next; scan = &walk->next; while (*scan) { if (!tree_equal(walk->child, (*scan)->child)) scan = &(*scan)->next; else { if (next == *scan) next = (*scan)->next; count++; *scan = (*scan)->next; } } if (first) { out_string(next ? first_3 : single_3); first = 0; } dump_tree(walk->child, level + 1, count + 1, walk == current->children, !next, closing + (count ? 1 : 0)); } } static void dump_by_user(PROC *current, uid_t uid) { const CHILD *walk; if (!current) return; if (current->uid == uid) { if (G.dumped) putchar('\n'); dump_tree(current, 0, 1, 1, 1, 0); G.dumped = 1; return; } for (walk = current->children; walk; walk = walk->next) dump_by_user(walk->child, uid); } #if ENABLE_FEATURE_SHOW_THREADS static void handle_thread(const char *comm, pid_t pid, pid_t ppid, uid_t uid) { char threadname[COMM_DISP_LEN + 1]; sprintf(threadname, "{%.*s}", (int)sizeof(threadname) - 3, comm); add_proc(threadname, pid, ppid, uid/*, 1*/); } #endif static void mread_proc(void) { procps_status_t *p = NULL; pid_t parent = 0; int flags = PSSCAN_COMM | PSSCAN_PID | PSSCAN_PPID | PSSCAN_UIDGID | PSSCAN_TASKS; while ((p = procps_scan(p, flags)) != NULL) { #if ENABLE_FEATURE_SHOW_THREADS if (p->pid != p->main_thread_pid) handle_thread(p->comm, p->pid, parent, p->uid); else #endif { add_proc(p->comm, p->pid, p->ppid, p->uid/*, 0*/); parent = p->pid; } } } int pstree_main(int argc, char **argv) MAIN_EXTERNALLY_VISIBLE; int pstree_main(int argc UNUSED_PARAM, char **argv) { pid_t pid = 1; long uid = 0; INIT_G(); get_terminal_width_height(0, &G.output_width, NULL); opt_complementary = "?1"; getopt32(argv, "p"); argv += optind; if (argv[0]) { if (argv[0][0] >= '0' && argv[0][0] <= '9') { pid = xatoi(argv[0]); } else { uid = xuname2uid(argv[0]); } } mread_proc(); if (!uid) dump_tree(find_proc(pid), 0, 1, 1, 1, 0); else { dump_by_user(find_proc(1), uid); if (!G.dumped) { bb_error_msg_and_die("no processes found"); } } if (ENABLE_FEATURE_CLEAN_UP) { free(G.width); free(G.more); } return 0; }