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conky/src/top.c

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/*
* Conky, a system monitor, based on torsmo
*
* This program is licensed under BSD license, read COPYING
*
* $Id$
*/
#include "top.h"
static regex_t *exclusion_expression = 0;
static unsigned long g_time = 0;
static unsigned long previous_total = 0;
static struct process *first_process = 0;
struct process *get_first_process()
{
return first_process;
}
void free_all_processes(struct process *pr)
{
struct process *next = NULL;
while (pr) {
next = pr->next;
if (pr->name) {
free(pr->name);
}
free(pr);
pr = next;
}
}
static struct process *find_process(pid_t pid)
{
struct process *p = first_process;
while (p) {
if (p->pid == pid)
return p;
p = p->next;
}
return 0;
}
/*
* Create a new process object and insert it into the process list
*/
static struct process *new_process(int p)
{
struct process *process;
process = (struct process*)malloc(sizeof(struct process));
// clean up memory first
memset(process, 0, sizeof(struct process));
/*
* Do stitching necessary for doubly linked list
*/
process->name = 0;
process->previous = 0;
process->next = first_process;
if (process->next)
process->next->previous = process;
first_process = process;
process->pid = p;
process->time_stamp = 0;
process->previous_user_time = ULONG_MAX;
process->previous_kernel_time = ULONG_MAX;
process->counted = 1;
/* process_find_name(process); */
return process;
}
/******************************************/
/* Functions */
/******************************************/
static int process_parse_stat(struct process *);
static int update_process_table(void);
static int calculate_cpu(struct process *);
static void process_cleanup(void);
static void delete_process(struct process *);
/*inline void draw_processes(void);*/
static unsigned long calc_cpu_total(void);
static void calc_cpu_each(unsigned long);
/******************************************/
/* Extract information from /proc */
/******************************************/
/*
* These are the guts that extract information out of /proc.
* Anyone hoping to port wmtop should look here first.
*/
static int process_parse_stat(struct process *process)
{
struct information *cur;
cur = &info;
char line[BUFFER_LEN], filename[BUFFER_LEN], procname[BUFFER_LEN];
int ps;
unsigned long user_time = 0;
unsigned long kernel_time = 0;
int rc;
char *r, *q;
char deparenthesised_name[BUFFER_LEN];
int endl;
int nice_val;
snprintf(filename, sizeof(filename), PROCFS_TEMPLATE,
process->pid);
ps = open(filename, O_RDONLY);
if (ps < 0)
/*
* The process must have finished in the last few jiffies!
*/
return 1;
/*
* Mark process as up-to-date.
*/
process->time_stamp = g_time;
rc = read(ps, line, sizeof(line));
close(ps);
if (rc < 0)
return 1;
/*
* Extract cpu times from data in /proc filesystem
*/
rc = sscanf(line,
"%*s %s %*s %*s %*s %*s %*s %*s %*s %*s %*s %*s %*s %lu %lu %*s %*s %*s %d %*s %*s %*s %d %d",
procname, &process->user_time, &process->kernel_time,
&nice_val, &process->vsize, &process->rss);
if (rc < 5)
return 1;
/*
* Remove parentheses from the process name stored in /proc/ under Linux...
*/
r = procname + 1;
/* remove any "kdeinit: " */
if (r == strstr(r, "kdeinit")) {
snprintf(filename, sizeof(filename),
PROCFS_CMDLINE_TEMPLATE, process->pid);
ps = open(filename, O_RDONLY);
if (ps < 0)
/*
* The process must have finished in the last few jiffies!
*/
return 1;
endl = read(ps, line, sizeof(line));
close(ps);
/* null terminate the input */
line[endl] = 0;
/* account for "kdeinit: " */
if ((char *) line == strstr(line, "kdeinit: "))
r = ((char *) line) + 9;
else
r = (char *) line;
q = deparenthesised_name;
/* stop at space */
while (*r && *r != ' ')
*q++ = *r++;
*q = 0;
} else {
q = deparenthesised_name;
while (*r && *r != ')')
*q++ = *r++;
*q = 0;
}
if (process->name) {
free(process->name);
}
process->name = strdup(deparenthesised_name);
process->rss *= getpagesize();
if (!cur->memmax)
update_total_processes();
process->totalmem = (float)(((float) process->rss / cur->memmax) / 10);
if (process->previous_user_time == ULONG_MAX)
process->previous_user_time = process->user_time;
if (process->previous_kernel_time == ULONG_MAX)
process->previous_kernel_time = process->kernel_time;
/* store the difference of the user_time */
user_time = process->user_time - process->previous_user_time;
kernel_time = process->kernel_time - process->previous_kernel_time;
/* backup the process->user_time for next time around */
process->previous_user_time = process->user_time;
process->previous_kernel_time = process->kernel_time;
/* store only the difference of the user_time here... */
process->user_time = user_time;
process->kernel_time = kernel_time;
return 0;
}
/******************************************/
/* Update process table */
/******************************************/
static int update_process_table()
{
DIR *dir;
struct dirent *entry;
if (!(dir = opendir("/proc")))
return 1;
++g_time;
/*
* Get list of processes from /proc directory
*/
while ((entry = readdir(dir))) {
pid_t pid;
if (!entry) {
/*
* Problem reading list of processes
*/
closedir(dir);
return 1;
}
if (sscanf(entry->d_name, "%d", &pid) > 0) {
struct process *p;
p = find_process(pid);
if (!p)
p = new_process(pid);
/* compute each process cpu usage */
calculate_cpu(p);
}
}
closedir(dir);
return 0;
}
/******************************************/
/* Get process structure for process pid */
/******************************************/
/*
* This function seems to hog all of the CPU time. I can't figure out why - it
* doesn't do much.
*/
static int calculate_cpu(struct process *process)
{
int rc;
/* compute each process cpu usage by reading /proc/<proc#>/stat */
rc = process_parse_stat(process);
if (rc)
return 1;
/*rc = process_parse_statm(process);
if (rc)
return 1; */
/*
* Check name against the exclusion list
*/
if (process->counted && exclusion_expression
&& !regexec(exclusion_expression, process->name, 0, 0, 0))
process->counted = 0;
return 0;
}
/******************************************/
/* Strip dead process entries */
/******************************************/
static void process_cleanup()
{
struct process *p = first_process;
while (p) {
struct process *current = p;
#if defined(PARANOID)
assert(p->id == 0x0badfeed);
#endif /* defined(PARANOID) */
p = p->next;
/*
* Delete processes that have died
*/
if (current->time_stamp != g_time)
delete_process(current);
}
}
/******************************************/
/* Destroy and remove a process */
/******************************************/
static void delete_process(struct process *p)
{
#if defined(PARANOID)
assert(p->id == 0x0badfeed);
/*
* Ensure that deleted processes aren't reused.
*/
p->id = 0x007babe;
#endif /* defined(PARANOID) */
/*
* Maintain doubly linked list.
*/
if (p->next)
p->next->previous = p->previous;
if (p->previous)
p->previous->next = p->next;
else
first_process = p->next;
if (p->name) {
free(p->name);
}
free(p);
}
/******************************************/
/* Calculate cpu total */
/******************************************/
static unsigned long calc_cpu_total()
{
unsigned long total = 0;
unsigned long t = 0;
int rc;
int ps;
char line[BUFFER_LEN];
unsigned long cpu = 0;
unsigned long nice = 0;
unsigned long system = 0;
unsigned long idle = 0;
ps = open("/proc/stat", O_RDONLY);
rc = read(ps, line, sizeof(line));
close(ps);
if (rc < 0)
return 0;
sscanf(line, "%*s %lu %lu %lu %lu", &cpu, &nice, &system, &idle);
total = cpu + nice + system + idle;
t = total - previous_total;
previous_total = total;
return t;
}
/******************************************/
/* Calculate each processes cpu */
/******************************************/
inline static void calc_cpu_each(unsigned long total)
{
struct process *p = first_process;
while (p) {
/*p->amount = total ?
(100.0 * (float) (p->user_time + p->kernel_time) /
total) : 0; */
p->amount =
(100.0 * (p->user_time + p->kernel_time) / total);
/* if (p->amount > 100)
p->amount = 0;*/
p = p->next;
}
}
/******************************************/
/* Find the top processes */
/******************************************/
/*
* cpu comparison function for insert_sp_element
*/
int compare_cpu(struct process *a, struct process *b) {
if (a->amount < b->amount) return 1;
return 0;
}
/*
* mem comparison function for insert_sp_element
*/
int compare_mem(struct process *a, struct process *b) {
if (a->totalmem < b->totalmem) return 1;
return 0;
}
/*
* insert this process into the list in a sorted fashion,
* or destroy it if it doesn't fit on the list
*/
int insert_sp_element(
struct sorted_process * sp_cur
, struct sorted_process ** p_sp_head
, struct sorted_process ** p_sp_tail
, int max_elements
, int (*compare_funct) (struct process *, struct process *)
) {
struct sorted_process * sp_readthru=NULL, * sp_destroy=NULL;
int did_insert = 0, x = 0;
if (*p_sp_head == NULL) {
*p_sp_head = sp_cur;
*p_sp_tail = sp_cur;
return(1);
}
for(sp_readthru=*p_sp_head, x=0; sp_readthru != NULL && x < max_elements; sp_readthru=sp_readthru->less, x++) {
if (compare_funct(sp_readthru->proc, sp_cur->proc) && !did_insert) {
/* sp_cur is bigger than sp_readthru so insert it before sp_readthru */
sp_cur->less=sp_readthru;
if (sp_readthru == *p_sp_head) {
*p_sp_head = sp_cur; /* insert as the new head of the list */
} else {
sp_readthru->greater->less = sp_cur; /* insert inside the list */
sp_cur->greater = sp_readthru->greater;
}
sp_readthru->greater=sp_cur;
did_insert = ++x; /* element was inserted, so increase the counter */
}
}
if (x < max_elements && sp_readthru == NULL && !did_insert) {
/* sp_cur is the smallest element and list isn't full, so insert at the end */
(*p_sp_tail)->less=sp_cur;
sp_cur->greater=*p_sp_tail;
*p_sp_tail = sp_cur;
did_insert=x;
} else if (x == max_elements && sp_readthru != NULL) {
/* we inserted an element and now the list is too big by one. Destroy the smallest element */
sp_destroy = sp_readthru;
sp_readthru->greater->less = NULL;
*p_sp_tail = sp_readthru->greater;
free(sp_destroy);
}
if (!did_insert) {
/* sp_cur wasn't added to the sorted list, so destroy it */
free(sp_cur);
}
return did_insert;
}
/*
* create a new sp_process structure
*/
struct sorted_process * malloc_sp(struct process * proc) {
struct sorted_process * sp;
sp = malloc(sizeof(struct sorted_process));
sp->greater = NULL;
sp->less = NULL;
sp->proc = proc;
return(sp);
}
/*
* copy the procs in the sorted list to the array, and destroy the list
*/
void sp_acopy(struct sorted_process *sp_head, struct process ** ar, int max_size)
{
struct sorted_process * sp_cur, * sp_tmp;
int x;
sp_cur = sp_head;
for (x = 0; x < max_size && sp_cur != NULL; x++) {
ar[x] = sp_cur->proc;
sp_tmp = sp_cur;
sp_cur = sp_cur->less;
free(sp_tmp);
}
}
// stole from common.c
#define NEED(a) ((need_mask & (1 << a)) && ((info.mask & (1 << a)) == 0))
/* ****************************************************************** */
/* Get a sorted list of the top cpu hogs and top mem hogs. */
/* Results are stored in the cpu,mem arrays in decreasing order[0-9]. */
/* ****************************************************************** */
inline void process_find_top(struct process **cpu, struct process **mem)
{
struct sorted_process *spc_head = NULL, *spc_tail = NULL, *spc_cur = NULL;
struct sorted_process *spm_head = NULL, *spm_tail = NULL, *spm_cur = NULL;
struct process *cur_proc = NULL;
unsigned long total = 0;
if (!top_cpu && !top_mem) return;
total = calc_cpu_total(); /* calculate the total of the processor */
update_process_table(); /* update the table with process list */
calc_cpu_each(total); /* and then the percentage for each task */
process_cleanup(); /* cleanup list from exited processes */
cur_proc = first_process;
while (cur_proc !=NULL) {
if (top_cpu) {
spc_cur = malloc_sp(cur_proc);
insert_sp_element(spc_cur, &spc_head, &spc_tail, MAX_SP, &compare_cpu);
}
if (top_mem) {
spm_cur = malloc_sp(cur_proc);
insert_sp_element(spm_cur, &spm_head, &spm_tail, MAX_SP, &compare_mem);
}
cur_proc = cur_proc->next;
}
sp_acopy(spc_head, cpu, MAX_SP);
sp_acopy(spm_head, mem, MAX_SP);
}