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|
/*
* tc_util.c Misc TC utility functions.
*
* 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
* 2 of the License, or (at your option) any later version.
*
* Authors: Alexey Kuznetsov, <kuznet@ms2.inr.ac.ru>
*
*/
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <fcntl.h>
#include <sys/socket.h>
#include <sys/param.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <string.h>
#include <math.h>
#include <errno.h>
#include "utils.h"
#include "names.h"
#include "tc_util.h"
#include "tc_common.h"
#ifndef LIBDIR
#define LIBDIR "/usr/lib"
#endif
static struct db_names *cls_names;
#define NAMES_DB "/etc/iproute2/tc_cls"
int cls_names_init(char *path)
{
int ret;
cls_names = db_names_alloc();
if (!cls_names)
return -1;
ret = db_names_load(cls_names, path ?: NAMES_DB);
if (ret == -ENOENT && path) {
fprintf(stderr, "Can't open class names file: %s\n", path);
return -1;
}
if (ret) {
db_names_free(cls_names);
cls_names = NULL;
}
return 0;
}
void cls_names_uninit(void)
{
db_names_free(cls_names);
}
const char *get_tc_lib(void)
{
const char *lib_dir;
lib_dir = getenv("TC_LIB_DIR");
if (!lib_dir)
lib_dir = LIBDIR "/tc/";
return lib_dir;
}
int get_qdisc_handle(__u32 *h, const char *str)
{
unsigned long maj;
char *p;
maj = TC_H_UNSPEC;
if (strcmp(str, "none") == 0)
goto ok;
maj = strtoul(str, &p, 16);
if (p == str || maj >= (1 << 16))
return -1;
maj <<= 16;
if (*p != ':' && *p != 0)
return -1;
ok:
*h = maj;
return 0;
}
int get_tc_classid(__u32 *h, const char *str)
{
unsigned long maj, min;
char *p;
maj = TC_H_ROOT;
if (strcmp(str, "root") == 0)
goto ok;
maj = TC_H_UNSPEC;
if (strcmp(str, "none") == 0)
goto ok;
maj = strtoul(str, &p, 16);
if (p == str) {
maj = 0;
if (*p != ':')
return -1;
}
if (*p == ':') {
if (maj >= (1<<16))
return -1;
maj <<= 16;
str = p+1;
min = strtoul(str, &p, 16);
if (*p != 0)
return -1;
if (min >= (1<<16))
return -1;
maj |= min;
} else if (*p != 0)
return -1;
ok:
*h = maj;
return 0;
}
int print_tc_classid(char *buf, int blen, __u32 h)
{
SPRINT_BUF(handle) = {};
int hlen = SPRINT_BSIZE - 1;
if (h == TC_H_ROOT)
sprintf(handle, "root");
else if (h == TC_H_UNSPEC)
snprintf(handle, hlen, "none");
else if (TC_H_MAJ(h) == 0)
snprintf(handle, hlen, ":%x", TC_H_MIN(h));
else if (TC_H_MIN(h) == 0)
snprintf(handle, hlen, "%x:", TC_H_MAJ(h) >> 16);
else
snprintf(handle, hlen, "%x:%x", TC_H_MAJ(h) >> 16, TC_H_MIN(h));
if (use_names) {
char clname[IDNAME_MAX] = {};
if (id_to_name(cls_names, h, clname))
snprintf(buf, blen, "%s#%s", clname, handle);
else
snprintf(buf, blen, "%s", handle);
} else {
snprintf(buf, blen, "%s", handle);
}
return 0;
}
char *sprint_tc_classid(__u32 h, char *buf)
{
if (print_tc_classid(buf, SPRINT_BSIZE-1, h))
strcpy(buf, "???");
return buf;
}
/* Parse a percent e.g: '30%'
* return: 0 = ok, -1 = error, 1 = out of range
*/
int parse_percent(double *val, const char *str)
{
char *p;
*val = strtod(str, &p) / 100.;
if (*val > 1.0 || *val < 0.0)
return 1;
if (*p && strcmp(p, "%"))
return -1;
return 0;
}
static int parse_percent_rate(char *rate, size_t len,
const char *str, const char *dev)
{
long dev_mbit;
int ret;
double perc, rate_bit;
char *str_perc = NULL;
if (!dev[0]) {
fprintf(stderr, "No device specified; specify device to rate limit by percentage\n");
return -1;
}
if (read_prop(dev, "speed", &dev_mbit))
return -1;
ret = sscanf(str, "%m[0-9.%]", &str_perc);
if (ret != 1)
goto malf;
ret = parse_percent(&perc, str_perc);
if (ret == 1) {
fprintf(stderr, "Invalid rate specified; should be between [0,100]%% but is %s\n", str);
goto err;
} else if (ret == -1) {
goto malf;
}
free(str_perc);
rate_bit = perc * dev_mbit * 1000 * 1000;
ret = snprintf(rate, len, "%lf", rate_bit);
if (ret <= 0 || ret >= len) {
fprintf(stderr, "Unable to parse calculated rate\n");
return -1;
}
return 0;
malf:
fprintf(stderr, "Specified rate value could not be read or is malformed\n");
err:
free(str_perc);
return -1;
}
int get_percent_rate(unsigned int *rate, const char *str, const char *dev)
{
char r_str[20];
if (parse_percent_rate(r_str, sizeof(r_str), str, dev))
return -1;
return get_rate(rate, r_str);
}
int get_percent_rate64(__u64 *rate, const char *str, const char *dev)
{
char r_str[20];
if (parse_percent_rate(r_str, sizeof(r_str), str, dev))
return -1;
return get_rate64(rate, r_str);
}
void __attribute__((format(printf, 3, 0)))
tc_print_rate(enum output_type t, const char *key, const char *fmt,
unsigned long long rate)
{
print_rate(use_iec, t, key, fmt, rate);
}
char *sprint_ticks(__u32 ticks, char *buf)
{
return sprint_time(tc_core_tick2time(ticks), buf);
}
int get_size_and_cell(unsigned int *size, int *cell_log, char *str)
{
char *slash = strchr(str, '/');
if (slash)
*slash = 0;
if (get_size(size, str))
return -1;
if (slash) {
int cell;
int i;
if (get_integer(&cell, slash+1, 0))
return -1;
*slash = '/';
for (i = 0; i < 32; i++) {
if ((1<<i) == cell) {
*cell_log = i;
return 0;
}
}
return -1;
}
return 0;
}
void print_devname(enum output_type type, int ifindex)
{
const char *ifname = ll_index_to_name(ifindex);
if (!is_json_context())
printf("dev ");
print_color_string(type, COLOR_IFNAME,
"dev", "%s ", ifname);
}
static const char *action_n2a(int action)
{
static char buf[64];
if (TC_ACT_EXT_CMP(action, TC_ACT_GOTO_CHAIN))
return "goto";
if (TC_ACT_EXT_CMP(action, TC_ACT_JUMP))
return "jump";
switch (action) {
case TC_ACT_UNSPEC:
return "continue";
case TC_ACT_OK:
return "pass";
case TC_ACT_SHOT:
return "drop";
case TC_ACT_RECLASSIFY:
return "reclassify";
case TC_ACT_PIPE:
return "pipe";
case TC_ACT_STOLEN:
return "stolen";
case TC_ACT_TRAP:
return "trap";
default:
snprintf(buf, 64, "%d", action);
return buf;
}
}
/* Convert action branch name into numeric format.
*
* Parameters:
* @arg - string to parse
* @result - pointer to output variable
* @allow_num - whether @arg may be in numeric format already
*
* In error case, returns -1 and does not touch @result. Otherwise returns 0.
*/
int action_a2n(char *arg, int *result, bool allow_num)
{
int n;
char dummy;
struct {
const char *a;
int n;
} a2n[] = {
{"continue", TC_ACT_UNSPEC},
{"drop", TC_ACT_SHOT},
{"shot", TC_ACT_SHOT},
{"pass", TC_ACT_OK},
{"ok", TC_ACT_OK},
{"reclassify", TC_ACT_RECLASSIFY},
{"pipe", TC_ACT_PIPE},
{"goto", TC_ACT_GOTO_CHAIN},
{"jump", TC_ACT_JUMP},
{"trap", TC_ACT_TRAP},
{ NULL },
}, *iter;
for (iter = a2n; iter->a; iter++) {
if (matches(arg, iter->a) != 0)
continue;
n = iter->n;
goto out_ok;
}
if (!allow_num || sscanf(arg, "%d%c", &n, &dummy) != 1)
return -1;
out_ok:
if (result)
*result = n;
return 0;
}
static int __parse_action_control(int *argc_p, char ***argv_p, int *result_p,
bool allow_num, bool ignore_a2n_miss)
{
int argc = *argc_p;
char **argv = *argv_p;
int result;
if (!argc)
return -1;
if (action_a2n(*argv, &result, allow_num) == -1) {
if (!ignore_a2n_miss)
fprintf(stderr, "Bad action type %s\n", *argv);
return -1;
}
if (result == TC_ACT_GOTO_CHAIN) {
__u32 chain_index;
NEXT_ARG();
if (matches(*argv, "chain") != 0) {
fprintf(stderr, "\"chain index\" expected\n");
return -1;
}
NEXT_ARG();
if (get_u32(&chain_index, *argv, 10) ||
chain_index > TC_ACT_EXT_VAL_MASK) {
fprintf(stderr, "Illegal \"chain index\"\n");
return -1;
}
result |= chain_index;
}
if (result == TC_ACT_JUMP) {
__u32 jump_cnt = 0;
NEXT_ARG();
if (get_u32(&jump_cnt, *argv, 10) ||
jump_cnt > TC_ACT_EXT_VAL_MASK) {
fprintf(stderr, "Invalid \"jump count\" (%s)\n", *argv);
return -1;
}
result |= jump_cnt;
}
NEXT_ARG_FWD();
*argc_p = argc;
*argv_p = argv;
*result_p = result;
return 0;
}
/* Parse action control including possible options.
*
* Parameters:
* @argc_p - pointer to argc to parse
* @argv_p - pointer to argv to parse
* @result_p - pointer to output variable
* @allow_num - whether action may be in numeric format already
*
* In error case, returns -1 and does not touch @result_1p. Otherwise returns 0.
*/
int parse_action_control(int *argc_p, char ***argv_p,
int *result_p, bool allow_num)
{
return __parse_action_control(argc_p, argv_p, result_p,
allow_num, false);
}
/* Parse action control including possible options.
*
* Parameters:
* @argc_p - pointer to argc to parse
* @argv_p - pointer to argv to parse
* @result_p - pointer to output variable
* @allow_num - whether action may be in numeric format already
* @default_result - set as a result in case of parsing error
*
* In case there is an error during parsing, the default result is used.
*/
void parse_action_control_dflt(int *argc_p, char ***argv_p,
int *result_p, bool allow_num,
int default_result)
{
if (__parse_action_control(argc_p, argv_p, result_p, allow_num, true))
*result_p = default_result;
}
static int parse_action_control_slash_spaces(int *argc_p, char ***argv_p,
int *result1_p, int *result2_p,
bool allow_num)
{
int argc = *argc_p;
char **argv = *argv_p;
int result1 = -1, result2;
int *result_p = &result1;
int ok = 0;
int ret;
while (argc > 0) {
switch (ok) {
case 1:
if (strcmp(*argv, "/") != 0)
goto out;
result_p = &result2;
NEXT_ARG();
/* fall-through */
case 0:
ret = parse_action_control(&argc, &argv,
result_p, allow_num);
if (ret)
return ret;
ok++;
break;
default:
goto out;
}
}
out:
*result1_p = result1;
if (ok == 2)
*result2_p = result2;
*argc_p = argc;
*argv_p = argv;
return 0;
}
/* Parse action control with slash including possible options.
*
* Parameters:
* @argc_p - pointer to argc to parse
* @argv_p - pointer to argv to parse
* @result1_p - pointer to the first (before slash) output variable
* @result2_p - pointer to the second (after slash) output variable
* @allow_num - whether action may be in numeric format already
*
* In error case, returns -1 and does not touch @result*. Otherwise returns 0.
*/
int parse_action_control_slash(int *argc_p, char ***argv_p,
int *result1_p, int *result2_p, bool allow_num)
{
int result1, result2, argc = *argc_p;
char **argv = *argv_p;
char *p = strchr(*argv, '/');
if (!p)
return parse_action_control_slash_spaces(argc_p, argv_p,
result1_p, result2_p,
allow_num);
*p = 0;
if (action_a2n(*argv, &result1, allow_num)) {
*p = '/';
return -1;
}
*p = '/';
if (action_a2n(p + 1, &result2, allow_num))
return -1;
*result1_p = result1;
*result2_p = result2;
NEXT_ARG_FWD();
*argc_p = argc;
*argv_p = argv;
return 0;
}
void print_action_control(FILE *f, const char *prefix,
int action, const char *suffix)
{
print_string(PRINT_FP, NULL, "%s", prefix);
open_json_object("control_action");
print_string(PRINT_ANY, "type", "%s", action_n2a(action));
if (TC_ACT_EXT_CMP(action, TC_ACT_GOTO_CHAIN))
print_uint(PRINT_ANY, "chain", " chain %u",
action & TC_ACT_EXT_VAL_MASK);
if (TC_ACT_EXT_CMP(action, TC_ACT_JUMP))
print_uint(PRINT_ANY, "jump", " %u",
action & TC_ACT_EXT_VAL_MASK);
close_json_object();
print_string(PRINT_FP, NULL, "%s", suffix);
}
int get_linklayer(unsigned int *val, const char *arg)
{
int res;
if (matches(arg, "ethernet") == 0)
res = LINKLAYER_ETHERNET;
else if (matches(arg, "atm") == 0)
res = LINKLAYER_ATM;
else if (matches(arg, "adsl") == 0)
res = LINKLAYER_ATM;
else
return -1; /* Indicate error */
*val = res;
return 0;
}
static void print_linklayer(char *buf, int len, unsigned int linklayer)
{
switch (linklayer) {
case LINKLAYER_UNSPEC:
snprintf(buf, len, "%s", "unspec");
return;
case LINKLAYER_ETHERNET:
snprintf(buf, len, "%s", "ethernet");
return;
case LINKLAYER_ATM:
snprintf(buf, len, "%s", "atm");
return;
default:
snprintf(buf, len, "%s", "unknown");
return;
}
}
char *sprint_linklayer(unsigned int linklayer, char *buf)
{
print_linklayer(buf, SPRINT_BSIZE-1, linklayer);
return buf;
}
void print_tm(FILE *f, const struct tcf_t *tm)
{
int hz = get_user_hz();
if (tm->install != 0)
print_uint(PRINT_ANY, "installed", " installed %u sec",
tm->install / hz);
if (tm->lastuse != 0)
print_uint(PRINT_ANY, "last_used", " used %u sec",
tm->lastuse / hz);
if (tm->firstuse != 0)
print_uint(PRINT_ANY, "first_used", " firstused %u sec",
tm->firstuse / hz);
if (tm->expires != 0)
print_uint(PRINT_ANY, "expires", " expires %u sec",
tm->expires / hz);
}
static void print_tcstats_basic_hw(struct rtattr **tbs, const char *prefix)
{
struct gnet_stats_basic bs_hw;
if (!tbs[TCA_STATS_BASIC_HW])
return;
memcpy(&bs_hw, RTA_DATA(tbs[TCA_STATS_BASIC_HW]),
MIN(RTA_PAYLOAD(tbs[TCA_STATS_BASIC_HW]), sizeof(bs_hw)));
if (bs_hw.bytes == 0 && bs_hw.packets == 0)
return;
if (tbs[TCA_STATS_BASIC]) {
struct gnet_stats_basic bs;
memcpy(&bs, RTA_DATA(tbs[TCA_STATS_BASIC]),
MIN(RTA_PAYLOAD(tbs[TCA_STATS_BASIC]),
sizeof(bs)));
if (bs.bytes >= bs_hw.bytes && bs.packets >= bs_hw.packets) {
print_nl();
print_string(PRINT_FP, NULL, "%s", prefix);
print_lluint(PRINT_ANY, "sw_bytes",
"Sent software %llu bytes",
bs.bytes - bs_hw.bytes);
print_uint(PRINT_ANY, "sw_packets", " %u pkt",
bs.packets - bs_hw.packets);
}
}
print_nl();
print_string(PRINT_FP, NULL, "%s", prefix);
print_lluint(PRINT_ANY, "hw_bytes", "Sent hardware %llu bytes",
bs_hw.bytes);
print_uint(PRINT_ANY, "hw_packets", " %u pkt", bs_hw.packets);
}
void print_tcstats2_attr(FILE *fp, struct rtattr *rta,
const char *prefix, struct rtattr **xstats)
{
struct rtattr *tbs[TCA_STATS_MAX + 1];
parse_rtattr_nested(tbs, TCA_STATS_MAX, rta);
if (tbs[TCA_STATS_BASIC]) {
struct gnet_stats_basic bs = {0};
__u64 packets64 = 0;
if (tbs[TCA_STATS_PKT64])
packets64 = rta_getattr_u64(tbs[TCA_STATS_PKT64]);
memcpy(&bs, RTA_DATA(tbs[TCA_STATS_BASIC]),
MIN(RTA_PAYLOAD(tbs[TCA_STATS_BASIC]), sizeof(bs)));
print_string(PRINT_FP, NULL, "%s", prefix);
print_lluint(PRINT_ANY, "bytes", "Sent %llu bytes", bs.bytes);
if (packets64)
print_lluint(PRINT_ANY, "packets",
" %llu pkt", packets64);
else
print_uint(PRINT_ANY, "packets",
" %u pkt", bs.packets);
}
if (tbs[TCA_STATS_QUEUE]) {
struct gnet_stats_queue q = {0};
memcpy(&q, RTA_DATA(tbs[TCA_STATS_QUEUE]),
MIN(RTA_PAYLOAD(tbs[TCA_STATS_QUEUE]), sizeof(q)));
print_uint(PRINT_ANY, "drops", " (dropped %u", q.drops);
print_uint(PRINT_ANY, "overlimits", ", overlimits %u",
q.overlimits);
print_uint(PRINT_ANY, "requeues", " requeues %u) ", q.requeues);
}
if (tbs[TCA_STATS_BASIC_HW])
print_tcstats_basic_hw(tbs, prefix);
if (tbs[TCA_STATS_RATE_EST64]) {
struct gnet_stats_rate_est64 re = {0};
memcpy(&re, RTA_DATA(tbs[TCA_STATS_RATE_EST64]),
MIN(RTA_PAYLOAD(tbs[TCA_STATS_RATE_EST64]),
sizeof(re)));
print_string(PRINT_FP, NULL, "\n%s", prefix);
print_lluint(PRINT_JSON, "rate", NULL, re.bps);
tc_print_rate(PRINT_FP, NULL, "rate %s", re.bps);
print_lluint(PRINT_ANY, "pps", " %llupps", re.pps);
} else if (tbs[TCA_STATS_RATE_EST]) {
struct gnet_stats_rate_est re = {0};
memcpy(&re, RTA_DATA(tbs[TCA_STATS_RATE_EST]),
MIN(RTA_PAYLOAD(tbs[TCA_STATS_RATE_EST]), sizeof(re)));
print_string(PRINT_FP, NULL, "\n%s", prefix);
print_uint(PRINT_JSON, "rate", NULL, re.bps);
tc_print_rate(PRINT_FP, NULL, "rate %s", re.bps);
print_uint(PRINT_ANY, "pps", " %upps", re.pps);
}
if (tbs[TCA_STATS_QUEUE]) {
struct gnet_stats_queue q = {0};
memcpy(&q, RTA_DATA(tbs[TCA_STATS_QUEUE]),
MIN(RTA_PAYLOAD(tbs[TCA_STATS_QUEUE]), sizeof(q)));
if (!tbs[TCA_STATS_RATE_EST])
print_nl();
print_string(PRINT_FP, NULL, "%s", prefix);
print_size(PRINT_ANY, "backlog", "backlog %s", q.backlog);
print_uint(PRINT_ANY, "qlen", " %up", q.qlen);
print_uint(PRINT_FP, NULL, " requeues %u", q.requeues);
}
if (xstats)
*xstats = tbs[TCA_STATS_APP] ? : NULL;
}
void print_tcstats_attr(FILE *fp, struct rtattr *tb[], const char *prefix,
struct rtattr **xstats)
{
if (tb[TCA_STATS2]) {
print_tcstats2_attr(fp, tb[TCA_STATS2], prefix, xstats);
if (xstats && !*xstats)
goto compat_xstats;
return;
}
/* backward compatibility */
if (tb[TCA_STATS]) {
struct tc_stats st = {};
/* handle case where kernel returns more/less than we know about */
memcpy(&st, RTA_DATA(tb[TCA_STATS]),
MIN(RTA_PAYLOAD(tb[TCA_STATS]), sizeof(st)));
fprintf(fp,
"%sSent %llu bytes %u pkts (dropped %u, overlimits %u) ",
prefix, (unsigned long long)st.bytes,
st.packets, st.drops, st.overlimits);
if (st.bps || st.pps || st.qlen || st.backlog) {
fprintf(fp, "\n%s", prefix);
if (st.bps || st.pps) {
fprintf(fp, "rate ");
if (st.bps)
tc_print_rate(PRINT_FP, NULL, "%s ",
st.bps);
if (st.pps)
fprintf(fp, "%upps ", st.pps);
}
if (st.qlen || st.backlog) {
fprintf(fp, "backlog ");
if (st.backlog)
print_size(PRINT_FP, NULL, "%s ",
st.backlog);
if (st.qlen)
fprintf(fp, "%up ", st.qlen);
}
}
}
compat_xstats:
if (tb[TCA_XSTATS] && xstats)
*xstats = tb[TCA_XSTATS];
}
static void print_masked_type(__u32 type_max,
__u32 (*rta_getattr_type)(const struct rtattr *),
const char *name, struct rtattr *attr,
struct rtattr *mask_attr, bool newline)
{
__u32 value, mask;
if (!attr)
return;
value = rta_getattr_type(attr);
mask = mask_attr ? rta_getattr_type(mask_attr) : type_max;
if (newline)
print_string(PRINT_FP, NULL, "%s ", _SL_);
else
print_string(PRINT_FP, NULL, " ", _SL_);
print_uint_name_value(name, value);
if (mask != type_max) {
char mask_name[SPRINT_BSIZE-6];
snprintf(mask_name, sizeof(mask_name), "%s_mask", name);
print_hex(PRINT_ANY, mask_name, "/0x%x", mask);
}
}
void print_masked_u32(const char *name, struct rtattr *attr,
struct rtattr *mask_attr, bool newline)
{
print_masked_type(UINT32_MAX, rta_getattr_u32, name, attr, mask_attr,
newline);
}
static __u32 __rta_getattr_u16_u32(const struct rtattr *attr)
{
return rta_getattr_u16(attr);
}
void print_masked_u16(const char *name, struct rtattr *attr,
struct rtattr *mask_attr, bool newline)
{
print_masked_type(UINT16_MAX, __rta_getattr_u16_u32, name, attr,
mask_attr, newline);
}
static __u32 __rta_getattr_u8_u32(const struct rtattr *attr)
{
return rta_getattr_u8(attr);
}
void print_masked_u8(const char *name, struct rtattr *attr,
struct rtattr *mask_attr, bool newline)
{
print_masked_type(UINT8_MAX, __rta_getattr_u8_u32, name, attr,
mask_attr, newline);
}
static __u32 __rta_getattr_be16_u32(const struct rtattr *attr)
{
return rta_getattr_be16(attr);
}
void print_masked_be16(const char *name, struct rtattr *attr,
struct rtattr *mask_attr, bool newline)
{
print_masked_type(UINT16_MAX, __rta_getattr_be16_u32, name, attr,
mask_attr, newline);
}
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