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android / platform / external / qemu.git / 57c2f0ed82a4c8d9a0bb526177c1ceb525d7a3c4 / . / android / shaper.c
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/* Copyright (C) 2007-2008 The Android Open Source Project
**
** This software is licensed under the terms of the GNU General Public
** License version 2, as published by the Free Software Foundation, and
** may be copied, distributed, and modified under those terms.
**
** 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.
*/
#include "android/shaper.h"
#include "qemu-common.h"
#include "qemu/timer.h"
#include <stdlib.h>
#define SHAPER_CLOCK QEMU_CLOCK_REALTIME
#define SHAPER_CLOCK_UNIT 1000.
static int
_packet_is_internal( const uint8_t* data, size_t size )
{
const uint8_t* end = data + size;
/* must have room for Mac + IP header */
if (data + 40 > end)
return 0;
if (data[12] != 0x08 || data[13] != 0x00 )
return 0;
/* must have valid IP header */
data += 14;
if ((data[0] >> 4) != 4 || (data[0] & 15) < 5)
return 0;
/* internal if both source and dest addresses are in 10.x.x.x */
return ( data[12] == 10 && data[16] == 10);
}
/* here's how we implement network shaping. we want to limit the network
* rate to a given constant MAX_RATE expressed as bits/second. this means
* that it takes 1/MAX_RATE seconds to send a single bit, and count*8/MAX_RATE
* seconds to send 'count' bytes.
*
* we're going to implement a scheme where, when we send a packet of
* 'count' bytes, no other packet will go through in the same direction for
* at least 'count*8/MAX_RATE' seconds. any successive packet that is "sent"
* in this interval is placed in a queue, associated to a timer
*
* there are different (queue/timer/rate) values for the input and output
* direction of the user vlan.
*/
typedef struct QueuedPacketRec_ {
int64_t expiration;
struct QueuedPacketRec_* next;
size_t size;
void* opaque;
void* data;
} QueuedPacketRec, *QueuedPacket;
static QueuedPacket
queued_packet_create( const void* data,
size_t size,
void* opaque,
int do_copy )
{
QueuedPacket packet;
size_t packet_size = sizeof(*packet);
if (do_copy)
packet_size += size;
packet = g_malloc(packet_size);
packet->next = NULL;
packet->expiration = 0;
packet->size = (size_t)size;
packet->opaque = opaque;
if (do_copy) {
packet->data = (void*)(packet+1);
memcpy( (char*)packet->data, (char*)data, packet->size );
} else {
packet->data = (void*)data;
}
return packet;
}
static void
queued_packet_free( QueuedPacket packet )
{
if (packet) {
g_free( packet );
}
}
typedef struct NetShaperRec_ {
QueuedPacket packets; /* list of queued packets, ordered by expiration date */
int num_packets;
int active; /* is this shaper active ? */
int64_t block_until;
double max_rate; /* max rate expressed in bytes/second */
double inv_rate; /* inverse of max rate */
QEMUTimer* timer; /* QEMU timer */
int do_copy;
NetShaperSendFunc send_func;
} NetShaperRec;
void
netshaper_destroy( NetShaper shaper )
{
if (shaper) {
shaper->active = 0;
while (shaper->packets) {
QueuedPacket packet = shaper->packets;
shaper->packets = packet->next;
packet->next = NULL;
queued_packet_free(packet);
}
timer_del(shaper->timer);
timer_free(shaper->timer);
shaper->timer = NULL;
g_free(shaper);
}
}
/* this function is called when the shaper's timer expires */
static void
netshaper_expires( NetShaper shaper )
{
QueuedPacket packet;
while ((packet = shaper->packets) != NULL) {
int64_t now = qemu_clock_get_ms( SHAPER_CLOCK );
if (packet->expiration > now)
break;
shaper->packets = packet->next;
shaper->send_func( packet->data, packet->size, packet->opaque );
queued_packet_free(packet);
shaper->num_packets--;
}
/* reprogram timer if needed */
if (shaper->packets) {
shaper->block_until = shaper->packets->expiration;
timer_mod( shaper->timer, shaper->block_until );
} else {
shaper->block_until = -1;
}
}
NetShaper
netshaper_create( int do_copy,
NetShaperSendFunc send_func )
{
NetShaper shaper = g_malloc(sizeof(*shaper));
shaper->active = 0;
shaper->packets = NULL;
shaper->num_packets = 0;
shaper->timer = timer_new( SHAPER_CLOCK, SCALE_MS,
(QEMUTimerCB*) netshaper_expires,
shaper );
shaper->send_func = send_func;
shaper->max_rate = 1e6;
shaper->inv_rate = 0.;
shaper->block_until = -1; /* magic value, means to not block */
return shaper;
}
void
netshaper_set_rate( NetShaper shaper,
double rate )
{
/* send all current packets when changing the rate */
while (shaper->packets) {
QueuedPacket packet = shaper->packets;
shaper->packets = packet->next;
shaper->send_func(packet->data, packet->size, packet->opaque);
g_free(packet);
shaper->num_packets = 0;
}
shaper->max_rate = rate;
if (rate > 1.) {
shaper->inv_rate = (8.*SHAPER_CLOCK_UNIT)/rate; /* qemu_get_clock returns time in ms */
shaper->active = 1; /* for the real-time clock */
} else {
shaper->active = 0;
}
shaper->block_until = -1;
}
void
netshaper_send_aux( NetShaper shaper,
void* data,
size_t size,
void* opaque )
{
int64_t now;
if (!shaper->active || _packet_is_internal(data, size)) {
shaper->send_func( data, size, opaque );
return;
}
now = qemu_clock_get_ms( SHAPER_CLOCK );
if (now >= shaper->block_until) {
shaper->send_func( data, size, opaque );
shaper->block_until = now + size*shaper->inv_rate;
//fprintf(stderr, "NETSHAPER: block for %.2fms\n", (shaper->block_until - now)*1.0 );
return;
}
/* create new packet, add it to the queue */
{
QueuedPacket packet;
packet = queued_packet_create( data, size, opaque, shaper->do_copy );
packet->expiration = shaper->block_until;
{
QueuedPacket *pnode, node;
pnode = &shaper->packets;
for (;;) {
node = *pnode;
if (node == NULL || node->expiration > packet->expiration )
break;
pnode = &node->next;
}
packet->next = *pnode;
*pnode = packet;
if (packet == shaper->packets)
timer_mod( shaper->timer, packet->expiration );
}
shaper->num_packets += 1;
}
shaper->block_until += size*shaper->inv_rate;
//fprintf(stderr, "NETSHAPER: block2 for %.2fms\n", (shaper->block_until - now)*1.0 );
}
void
netshaper_send( NetShaper shaper,
void* data,
size_t size )
{
netshaper_send_aux(shaper, data, size, NULL);
}
int
netshaper_can_send( NetShaper shaper )
{
int64_t now;
if (!shaper->active || shaper->block_until < 0)
return 1;
if (shaper->packets)
return 0;
now = qemu_clock_get_ms( SHAPER_CLOCK );
return (now >= shaper->block_until);
}
/* this type is used to model a session connection/state
* if session->packet is != NULL, then the connection is delayed
*/
typedef struct SessionRec_ {
int64_t expiration;
struct SessionRec_* next;
unsigned src_ip;
unsigned dst_ip;
unsigned short src_port;
unsigned short dst_port;
uint8_t protocol;
QueuedPacket packet;
} SessionRec, *Session;
#define _PROTOCOL_TCP 6
#define _PROTOCOL_UDP 17
static void
session_free( Session session )
{
if (session) {
if (session->packet) {
queued_packet_free(session->packet);
session->packet = NULL;
}
g_free( session );
}
}
#if 0 /* useful for debugging */
static const char*
session_to_string( Session session )
{
static char temp[256];
const char* format = (session->protocol == _PROTOCOL_TCP) ? "TCP" : "UDP";
sprintf( temp, "%s[%d.%d.%d.%d:%d / %d.%d.%d.%d:%d]", format,
(session->src_ip >> 24) & 255, (session->src_ip >> 16) & 255,
(session->src_ip >> 8) & 255, (session->src_ip) & 255, session->src_port,
(session->dst_ip >> 24) & 255, (session->dst_ip >> 16) & 255,
(session->dst_ip >> 8) & 255, (session->dst_ip) & 255, session->dst_port);
return temp;
}
#endif
/* returns TRUE if this corresponds to a SYN packet */
int
_packet_SYN_flags( const void* _data, size_t size, Session info )
{
const uint8_t* data = (const uint8_t*)_data;
const uint8_t* end = data + size;
/* enough room for a Ethernet MAC packet ? */
if (data + 14 > end - 4)
return 0;
/* is it an IP packet ? */
if (data[12] != 0x8 || data[13] != 0)
return 0;
data += 14;
end -= 4;
if (data + 20 > end)
return 0;
/* IP version must be 4, and the header length in words at least 5 */
if ((data[0] & 0xF) < 5 || (data[0] >> 4) != 4)
return 0;
/* time-to-live must be > 0 */
if (data[8] == 0)
return 0;
/* must be TCP or UDP packet */
if (data[9] != _PROTOCOL_TCP && data[9] != _PROTOCOL_UDP)
return 0;
info->protocol = data[9];
info->src_ip = (data[12] << 24) | (data[13] << 16) | (data[14] << 8) | data[15];
info->dst_ip = (data[16] << 24) | (data[17] << 16) | (data[18] << 8) | data[19];
data += 4*(data[0] & 15);
if (data + 20 > end)
return 0;
info->src_port = (unsigned short)((data[0] << 8) | data[1]);
info->dst_port = (unsigned short)((data[2] << 8) | data[3]);
return (data[13] & 0x1f);
}
typedef struct NetDelayRec_
{
Session sessions;
int num_sessions;
QEMUTimer* timer;
int active;
int min_ms;
int max_ms;
NetShaperSendFunc send_func;
} NetDelayRec;
static Session*
netdelay_lookup_session( NetDelay delay, Session info )
{
Session* pnode = &delay->sessions;
Session node;
for (;;) {
node = *pnode;
if (node == NULL)
break;
if (node->src_ip == info->src_ip &&
node->dst_ip == info->dst_ip &&
node->src_port == info->src_port &&
node->dst_port == info->dst_port &&
node->protocol == info->protocol )
break;
pnode = &node->next;
}
return pnode;
}
/* called by the delay's timer on expiration */
static void
netdelay_expires( NetDelay delay )
{
Session session;
int64_t now = qemu_clock_get_ms(SHAPER_CLOCK);
int rearm = 0;
int64_t rearm_time = 0;
for (session = delay->sessions; session != NULL; session = session->next)
{
QueuedPacket packet = session->packet;
if (packet == NULL)
continue;
if (session->expiration <= now) {
/* send the SYN packet now */
//fprintf(stderr, "NetDelay:RST: sending creation for %s\n", session_to_string(session) );
delay->send_func( packet->data, packet->size, packet->opaque );
session->packet = NULL;
queued_packet_free( packet );
} else {
if (!rearm) {
rearm = 1;
rearm_time = session->expiration;
}
else if ( session->expiration < rearm_time )
rearm_time = session->expiration;
}
}
if (rearm)
timer_mod( delay->timer, rearm_time );
}
NetDelay
netdelay_create( NetShaperSendFunc send_func )
{
NetDelay delay = g_malloc(sizeof(*delay));
delay->sessions = NULL;
delay->num_sessions = 0;
delay->timer = timer_new( SHAPER_CLOCK, SCALE_MS,
(QEMUTimerCB*) netdelay_expires,
delay );
delay->active = 0;
delay->min_ms = 0;
delay->max_ms = 0;
delay->send_func = send_func;
return delay;
}
void
netdelay_set_latency( NetDelay delay, int min_ms, int max_ms )
{
/* when changing the latency, accept all sessions */
while (delay->sessions) {
Session session = delay->sessions;
delay->sessions = session->next;
session->next = NULL;
if (session->packet) {
QueuedPacket packet = session->packet;
delay->send_func( packet->data, packet->size, packet->opaque );
}
session_free(session);
delay->num_sessions--;
}
delay->min_ms = min_ms;
delay->max_ms = max_ms;
delay->active = (min_ms <= max_ms) && min_ms > 0;
}
void
netdelay_send( NetDelay delay, const void* data, size_t size )
{
netdelay_send_aux(delay, data, size, NULL);
}
void
netdelay_send_aux( NetDelay delay, const void* data, size_t size, void* opaque )
{
if (delay->active && !_packet_is_internal(data, size)) {
SessionRec info[1];
int flags;
flags = _packet_SYN_flags( data, size, info );
if ((flags & 0x05) != 0)
{ /* FIN or RST: drop connection */
Session* lookup = netdelay_lookup_session( delay, info );
Session session = *lookup;
if (session != NULL) {
//fprintf(stderr, "NetDelay:RST: dropping %s\n", session_to_string(info) );
*lookup = session->next;
session_free( session );
delay->num_sessions -= 1;
}
}
else if ((flags & 0x12) == 0x02)
{
/* SYN: create connection */
Session* lookup = netdelay_lookup_session( delay, info );
Session session = *lookup;
if (session != NULL) {
if (session->packet != NULL) {
/* this is a SYN re-transmission, since we didn't
* send the original SYN packet yet, just eat this one
*/
//fprintf(stderr, "NetDelay:RST: swallow SYN re-send for %s\n", session_to_string(info) );
return;
}
} else {
/* establish a new session slightly in the future */
int latency = delay->min_ms;
int range = delay->max_ms - delay->min_ms;
if (range > 0)
latency += rand() % range;
//fprintf(stderr, "NetDelay:RST: delay creation for %s\n", session_to_string(info) );
session = g_malloc( sizeof(*session) );
session->next = delay->sessions;
delay->sessions = session;
delay->num_sessions += 1;
session->expiration = qemu_clock_get_ms(SHAPER_CLOCK) + latency;
session->src_ip = info->src_ip;
session->dst_ip = info->dst_ip;
session->src_port = info->src_port;
session->dst_port = info->dst_port;
session->protocol = info->protocol;
session->packet = queued_packet_create( data, size, opaque, 1 );
netdelay_expires(delay);
return;
}
}
}
delay->send_func( (void*)data, size, opaque );
}
void
netdelay_destroy( NetDelay delay )
{
if (delay) {
while (delay->sessions) {
Session session = delay->sessions;
delay->sessions = session->next;
session_free(session);
delay->num_sessions -= 1;
}
delay->active = 0;
g_free( delay );
}
}