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|
#include "connection.h"
#include "helper.h"
#include "../clientconfig.h"
#include "../shared/protocol.h"
#include "../shared/fdsignal.h"
#include "../shared/sockhelper.h"
#include "../shared/log.h"
#include <stdlib.h>
#include <pthread.h>
#include <string.h>
#include <stdio.h>
#include <unistd.h>
#include <errno.h>
#include <time.h>
/* Constants */
static const size_t SHORTBUF = 100;
#define MAX_ALTS (8)
#define MAX_HOSTS_PER_ADDRESS (2)
// If a server wasn't reachable this many times, we slowly start skipping it on measurements
static const int FAIL_BACKOFF_START_COUNT = 8;
#define RTT_COUNT (4)
/* Module variables */
// Init guard
static bool connectionInitDone = false;
static bool threadInitDone = false;
static pthread_mutex_t mutexInit = PTHREAD_MUTEX_INITIALIZER;
static bool keepRunning = true;
// List of pending requests
static struct {
dnbd3_async_t *head;
dnbd3_async_t *tail;
pthread_spinlock_t lock;
} requests;
// Connection for the image
static struct {
char *name;
uint16_t rid;
uint64_t size;
} image;
static struct {
int sockFd;
pthread_mutex_t sendMutex;
dnbd3_signal_t* panicSignal;
dnbd3_host_t currentServer;
uint64_t startupTime;
} connection;
// Known alt servers
typedef struct _alt_server {
dnbd3_host_t host;
int consecutiveFails;
int rtt;
int rtts[RTT_COUNT];
int rttIndex;
int bestCount;
} alt_server_t;
alt_server_t altservers[MAX_ALTS];
dnbd3_server_entry_t newservers[MAX_ALTS];
pthread_spinlock_t altLock;
/* Static methods */
static void* connection_receiveThreadMain(void *sock);
static void* connection_backgroundThread(void *something);
static void addAltServers();
static void probeAltServers();
static void switchConnection(int sockFd, alt_server_t *srv);
static void requestAltServers();
static bool throwDataAway(int sockFd, uint32_t amount);
static void enqueueRequest(dnbd3_async_t *request);
static dnbd3_async_t* removeRequest(dnbd3_async_t *request);
static uint64_t nowMilli();
static uint64_t nowMicro();
bool connection_init(const char *hosts, const char *lowerImage, const uint16_t rid)
{
int sock = -1;
char host[SHORTBUF];
serialized_buffer_t buffer;
uint16_t remoteVersion, remoteRid;
char *remoteName;
uint64_t remoteSize;
pthread_mutex_lock( &mutexInit );
if ( !connectionInitDone && keepRunning ) {
dnbd3_host_t tempHosts[MAX_HOSTS_PER_ADDRESS];
const char *current, *end;
int altIndex = 0;
memset( altservers, 0, sizeof altservers );
connection.sockFd = -1;
current = hosts;
do {
// Get next host from string
while ( *current == ' ' ) current++;
end = strchr( current, ' ' );
size_t len = (end == NULL ? SHORTBUF : (size_t)( end - current ) + 1);
if ( len > SHORTBUF ) len = SHORTBUF;
snprintf( host, len, "%s", current );
int newHosts = sock_resolveToDnbd3Host( host, tempHosts, MAX_HOSTS_PER_ADDRESS );
for ( int i = 0; i < newHosts; ++i ) {
if ( altIndex >= MAX_ALTS )
break;
altservers[altIndex].host = tempHosts[i];
altIndex += 1;
}
current = end + 1;
} while ( end != NULL && altIndex < MAX_ALTS );
logadd( LOG_INFO, "Got %d servers from init call", altIndex );
// Connect
for ( int i = 0; i < altIndex; ++i ) {
if ( altservers[i].host.type == 0 )
continue;
// Try to connect
sock = sock_connect( &altservers[i].host, 500, SOCKET_KEEPALIVE_TIMEOUT * 1000 );
if ( sock == -1 ) {
logadd( LOG_ERROR, "Could not connect to host" );
} else if ( !dnbd3_select_image( sock, lowerImage, rid, 0 ) ) {
logadd( LOG_ERROR, "Could not send select image" );
} else if ( !dnbd3_select_image_reply( &buffer, sock, &remoteVersion, &remoteName, &remoteRid, &remoteSize ) ) {
logadd( LOG_ERROR, "Could not read select image reply (%d)", errno );
} else if ( rid != 0 && rid != remoteRid ) {
logadd( LOG_ERROR, "rid mismatch (want: %d, got: %d)", (int)rid, (int)remoteRid );
} else {
image.name = strdup( remoteName );
image.rid = remoteRid;
image.size = remoteSize;
connection.currentServer = altservers[i].host;
connection.panicSignal = signal_new();
connection.startupTime = nowMilli();
connection.sockFd = sock;
requests.head = NULL;
requests.tail = NULL;
requestAltServers();
break;
}
// Failed
logadd( LOG_DEBUG1, "Server does not offer requested image... " );
if ( sock != -1 ) {
close( sock );
sock = -1;
}
}
if ( sock != -1 ) {
connectionInitDone = true;
}
}
pthread_mutex_unlock( &mutexInit );
return sock != -1;
}
bool connection_initThreads()
{
pthread_mutex_lock( &mutexInit );
if ( !keepRunning || !connectionInitDone || threadInitDone || connection.sockFd == -1 ) {
pthread_mutex_unlock( &mutexInit );
return false;
}
bool success = true;
pthread_t thread;
threadInitDone = true;
logadd( LOG_DEBUG1, "Initializing stuff" );
if ( pthread_mutex_init( &connection.sendMutex, NULL ) != 0
|| pthread_spin_init( &requests.lock, PTHREAD_PROCESS_PRIVATE ) != 0
|| pthread_spin_init( &altLock, PTHREAD_PROCESS_PRIVATE ) != 0 ) {
logadd( LOG_ERROR, "Mutex or spinlock init failure" );
success = false;
} else {
if ( pthread_create( &thread, NULL, &connection_receiveThreadMain, (void*)(size_t)connection.sockFd ) != 0 ) {
logadd( LOG_ERROR, "Could not create receive thread" );
success = false;
} else if ( pthread_create( &thread, NULL, &connection_backgroundThread, NULL ) != 0 ) {
logadd( LOG_ERROR, "Could not create background thread" );
success = false;
}
}
if ( !success ) {
close( connection.sockFd );
connection.sockFd = -1;
}
pthread_mutex_unlock( &mutexInit );
return success;
}
uint64_t connection_getImageSize()
{
return image.size;
}
bool connection_read(dnbd3_async_t *request)
{
if (!connectionInitDone) return false;
pthread_mutex_lock( &connection.sendMutex );
enqueueRequest( request );
if ( connection.sockFd != -1 ) {
if ( !dnbd3_get_block( connection.sockFd, request->offset, request->length, (uint64_t)request ) ) {
shutdown( connection.sockFd, SHUT_RDWR );
connection.sockFd = -1;
pthread_mutex_unlock( &connection.sendMutex );
signal_call( connection.panicSignal );
return true;
}
}
pthread_mutex_unlock( &connection.sendMutex );
return true;
}
void connection_close()
{
if ( keepRunning ) {
logadd( LOG_INFO, "Tearing down dnbd3 connections and workers" );
}
pthread_mutex_lock( &mutexInit );
keepRunning = false;
if ( !connectionInitDone ) {
pthread_mutex_unlock( &mutexInit );
return;
}
pthread_mutex_unlock( &mutexInit );
pthread_mutex_lock( &connection.sendMutex );
if ( connection.sockFd != -1 ) {
shutdown( connection.sockFd, SHUT_RDWR );
}
pthread_mutex_unlock( &connection.sendMutex );
}
int connection_printStats(char *buffer, const int len)
{
int ret;
int remaining = len;
if ( remaining > 0 ) {
ret = snprintf( buffer, remaining, "Image: %s\nRevision: %d\n\nCurrent connection time: %ds\n\n",
image.name, (int)image.rid, (int)( (nowMilli() - connection.startupTime) / 1000 ) );
if ( ret > 0 ) {
remaining -= ret;
buffer += ret;
}
}
int i = -1;
pthread_spin_lock( &altLock );
while ( remaining > 3 && ++i < MAX_ALTS ) {
if ( altservers[i].host.type == 0 )
continue;
if ( isSameAddressPort( &connection.currentServer, &altservers[i].host ) ) {
*buffer++ = '*';
} else {
*buffer++ = ' ';
}
ret = sock_printHost( &altservers[i].host, buffer, remaining );
remaining -= (ret + 1); // For space or * above
buffer += ret;
if ( remaining < 3 )
break;
int width = MAX( 35 - ret, 0 );
char *unit;
int value;
if ( altservers[i].rtt > 5000 ) {
unit = "ms ";
value = altservers[i].rtt / 1000;
} else {
unit = "µs";
value = altservers[i].rtt;
width += 3;
}
ret = snprintf( buffer, remaining, "% *d %s Unreachable: % 4d BestCount: % 4d\n",
width, value, unit, altservers[i].consecutiveFails, altservers[i].bestCount );
remaining -= ret;
buffer += ret;
}
pthread_spin_unlock( &altLock );
return len - remaining;
}
static void* connection_receiveThreadMain(void *sockPtr)
{
int sockFd = (int)(size_t)sockPtr;
dnbd3_reply_t reply;
pthread_detach(pthread_self());
while ( keepRunning ) {
int ret;
do {
ret = dnbd3_read_reply( sockFd, &reply, true );
if ( ret == REPLY_OK ) break;
} while ( ret == REPLY_INTR || ret == REPLY_AGAIN );
if ( ret != REPLY_OK ) {
logadd( LOG_DEBUG1, "Error receiving reply on receiveThread (%d)", ret );
goto fail;
}
if ( reply.cmd == CMD_GET_BLOCK ) {
// Get block reply. find matching request
dnbd3_async_t *request = removeRequest( (dnbd3_async_t*)reply.handle );
if ( request == NULL ) {
logadd( LOG_WARNING, "WARNING BUG ALERT SOMETHING: Got block reply with no matching request" );
if ( reply.size != 0 && !throwDataAway( sockFd, reply.size ) ) {
logadd( LOG_DEBUG1, "....and choked on reply payload" );
goto fail;
}
} else {
// Found a match
const ssize_t ret = sock_recv( sockFd, request->buffer, request->length );
if ( ret != (ssize_t)request->length ) {
logadd( LOG_DEBUG1, "receiving payload for a block reply failed" );
connection_read( request );
goto fail;
}
// Success, wake up caller
request->success = true;
request->finished = true;
signal_call( request->signal );
}
} else if ( reply.cmd == CMD_GET_SERVERS ) {
// List of known alt servers
dnbd3_server_entry_t entries[MAX_ALTS];
const int count = MIN( reply.size / sizeof(dnbd3_server_entry_t), MAX_ALTS );
const size_t relevantSize = sizeof(dnbd3_server_entry_t) * count;
if ( sock_recv( sockFd, entries, relevantSize ) != (ssize_t)relevantSize
|| !throwDataAway( sockFd, reply.size - (uint32_t)relevantSize ) ) {
logadd( LOG_DEBUG1, "Error receiving list of alt servers." );
goto fail;
}
pthread_spin_lock( &altLock );
memcpy( newservers, entries, relevantSize );
pthread_spin_unlock( &altLock );
} else {
// TODO: Handle the others?
if ( reply.size != 0 && !throwDataAway( sockFd, reply.size ) ) {
logadd( LOG_DEBUG1, "Could not throw %d bytes away on CMD %d", (int)reply.size, (int)reply.cmd );
goto fail;
}
}
}
logadd( LOG_DEBUG1, "Aus der Schleife rausgeflogen! ARRRRRRRRRR" );
fail:;
// Make sure noone is trying to use the socket for sending by locking,
pthread_mutex_lock( &connection.sendMutex );
// then just set the fd to -1, but only if it's the same fd as ours,
// as someone could have established a new connection already
if ( connection.sockFd == sockFd ) {
connection.sockFd = -1;
signal_call( connection.panicSignal );
}
pthread_mutex_unlock( &connection.sendMutex );
// As we're the only reader, it's safe to close the socket now
close( sockFd );
return NULL;
}
static void* connection_backgroundThread(void *something UNUSED)
{
uint64_t nextKeepalive = 0;
uint64_t nextRttCheck = 0;
while ( keepRunning ) {
const uint64_t now = nowMilli();
if ( now < nextKeepalive && now < nextRttCheck ) {
int waitTime = (int)( MIN( nextKeepalive, nextRttCheck ) - now );
int waitRes = signal_wait( connection.panicSignal, waitTime );
if ( waitRes == SIGNAL_ERROR ) {
logadd( LOG_WARNING, "Error waiting on signal in background thread! Errno = %d", errno );
}
}
// Woken up, see what we have to do
const bool panic = connection.sockFd == -1;
// Check alt servers
if ( panic || now >= nextRttCheck ) {
addAltServers();
probeAltServers();
if ( panic || connection.startupTime + ( STARTUP_MODE_DURATION * 1000ull ) > now ) {
nextRttCheck = now + TIMER_INTERVAL_PROBE_STARTUP * 1000ull;
} else {
nextRttCheck = now + TIMER_INTERVAL_PROBE_NORMAL * 1000ull;
}
}
// Send keepalive packet
if ( now >= nextKeepalive ) {
pthread_mutex_lock( &connection.sendMutex );
if ( connection.sockFd != -1 ) {
dnbd3_request_t request;
request.magic = dnbd3_packet_magic;
request.cmd = CMD_KEEPALIVE;
request.handle = request.offset = request.size = 0;
fixup_request( request );
ssize_t ret = sock_sendAll( connection.sockFd, &request, sizeof request, 2 );
if ( (size_t)ret != sizeof request ) {
shutdown( connection.sockFd, SHUT_RDWR );
connection.sockFd = -1;
nextRttCheck = now;
}
}
pthread_mutex_unlock( &connection.sendMutex );
nextKeepalive = now + TIMER_INTERVAL_KEEPALIVE_PACKET * 1000ull;
}
}
return NULL;
}
// Private quick helpers
static void addAltServers()
{
pthread_spin_lock( &altLock );
for ( int nIdx = 0; nIdx < MAX_ALTS; ++nIdx ) {
if ( newservers[nIdx].host.type == 0 )
continue;
// Got a new alt server, see if it's already known
for ( int eIdx = 0; eIdx < MAX_ALTS; ++eIdx ) {
if ( isSameAddress( &newservers[nIdx].host, &altservers[eIdx].host ) ) {
goto skip_server;
}
}
// Not known yet, add
int slot = -1;
for ( int eIdx = 0; eIdx < MAX_ALTS; ++eIdx ) {
if ( altservers[eIdx].host.type == 0 ) {
slot = eIdx;
break;
}
if ( altservers[eIdx].consecutiveFails > FAIL_BACKOFF_START_COUNT
&& slot != -1 && altservers[slot].consecutiveFails < altservers[eIdx].consecutiveFails ) {
slot = eIdx;
}
}
if ( slot != -1 ) {
char txt[200];
sock_printHost( &newservers[nIdx].host, txt, 200 );
logadd( LOG_DEBUG1, "new server %s in slot %d", txt, slot );
altservers[slot].consecutiveFails = 0;
altservers[slot].bestCount = 0;
altservers[slot].rtts[0] = RTT_UNREACHABLE;
altservers[slot].rttIndex = 1;
altservers[slot].host = newservers[nIdx].host;
}
skip_server:;
}
memset( newservers, 0, sizeof(newservers) );
pthread_spin_unlock( &altLock );
}
static void probeAltServers()
{
serialized_buffer_t buffer;
dnbd3_reply_t reply;
int bestIndex = -1;
int currentIndex = -1;
int bestSock = -1;
int currentRtt = RTT_UNREACHABLE;
uint16_t remoteRid, remoteProto;
uint64_t remoteSize;
char *remoteName;
bool doSwitch;
const bool panic = connection.sockFd == -1;
for ( int altIndex = 0; altIndex < MAX_ALTS; ++altIndex ) {
alt_server_t * const srv = &altservers[altIndex];
if ( srv->host.type == 0 )
continue;
if ( !panic && srv->consecutiveFails > FAIL_BACKOFF_START_COUNT
&& rand() % srv->consecutiveFails >= FAIL_BACKOFF_START_COUNT ) {
continue;
}
if ( srv->rttIndex >= RTT_COUNT ) {
srv->rttIndex = 0;
} else {
srv->rttIndex += 1;
}
// Probe
const uint64_t start = nowMicro();
errno = 0;
int sock = sock_connect( &srv->host, panic ? 1000 : 333, 1000 );
if ( sock == -1 ) {
logadd( LOG_DEBUG1, "Could not connect for probing. errno = %d", errno );
goto fail;
}
if ( !dnbd3_select_image( sock, image.name, image.rid, 0 ) ) {
logadd( LOG_DEBUG1, "-> select fail" );
goto fail;
}
if ( !dnbd3_select_image_reply( &buffer, sock, &remoteProto, &remoteName, &remoteRid, &remoteSize )) {
logadd( LOG_DEBUG1, "<- select fail" );
goto fail;
}
if ( remoteProto < MIN_SUPPORTED_SERVER || remoteProto > PROTOCOL_VERSION ) {
logadd( LOG_WARNING, "Unsupported remote version (local: %d, remote: %d)", (int)PROTOCOL_VERSION, (int)remoteProto );
srv->consecutiveFails += 10;
goto fail;
}
if ( remoteRid != image.rid || strcmp( remoteName, image.name ) != 0 ) {
logadd( LOG_WARNING, "Remote rid or name mismatch (got '%s')", remoteName );
srv->consecutiveFails += 10;
goto fail;
}
if ( !dnbd3_get_block( sock, 0, RTT_BLOCK_SIZE, 0 ) ) {
logadd( LOG_DEBUG1, "-> block request fail" );
goto fail;
}
int a = 111, b = 111;
if ( !(a = dnbd3_get_reply( sock, &reply )) || reply.size != RTT_BLOCK_SIZE
|| !(b = throwDataAway( sock, RTT_BLOCK_SIZE )) ) {
logadd( LOG_DEBUG1, "<- block payload fail %d %d %d", a, (int)reply.size, b );
goto fail;
}
// Yay, success
// Panic mode? Just switch to server
if ( panic ) {
switchConnection( sock, srv );
return;
}
// Non-panic mode:
// Update stats of server
const uint64_t end = nowMicro();
srv->consecutiveFails = 0;
srv->rtts[srv->rttIndex] = (int)(end - start);
srv->rtt = 0;
for ( int i = 0; i < RTT_COUNT; ++i ) {
srv->rtt += srv->rtts[i];
}
srv->rtt /= RTT_COUNT;
// Remember rtt if this server matches the current one
if ( isSameAddressPort( &srv->host, &connection.currentServer ) ) {
currentRtt = srv->rtt;
currentIndex = altIndex;
}
// Keep socket open if this is currently the best one
if ( bestIndex == -1 || altservers[bestIndex].rtt > srv->rtt ) {
bestIndex = altIndex;
if ( bestSock != -1 ) {
close( bestSock );
}
bestSock = sock;
} else {
close( sock );
}
continue;
fail:;
if ( sock != -1 ) {
close( sock );
}
srv->rtts[srv->rttIndex] = RTT_UNREACHABLE;
srv->consecutiveFails += 1;
}
doSwitch = false;
if ( bestIndex != -1 ) {
// Time-sensitive switch decision: If a server was best for some consecutive measurements,
// we switch no matter how small the difference to the current server is
for ( int i = 0; i < MAX_ALTS; ++i ) {
if ( i == bestIndex ) {
if ( altservers[i].bestCount < 50 ) {
altservers[i].bestCount += 2;
}
// Switch with increasing probability the higher the bestCount is
if ( altservers[i].bestCount > 12 && altservers[i].rtt < currentRtt && altservers[i].bestCount > rand() % 50 ) {
doSwitch = true;
}
} else if ( altservers[i].bestCount > 0 ) {
altservers[i].bestCount--;
}
}
// This takes care of the situation where two servers alternate being the best server all the time
if ( doSwitch && currentIndex != -1 && altservers[bestIndex].bestCount - altservers[currentIndex].bestCount < 8 ) {
doSwitch = false;
}
// Regular logic: Apply threshold when considering switch
if ( !doSwitch ) {
doSwitch = currentRtt > altservers[bestIndex].rtt + RTT_ABSOLUTE_THRESHOLD
|| RTT_THRESHOLD_FACTOR(currentRtt) > altservers[bestIndex].rtt + 1000;
}
}
// Switch if a better server was found
if ( doSwitch ) {
logadd( LOG_INFO, "Current: %dµs, best: %dµs. Will switch!", currentRtt, altservers[bestIndex].rtt );
for ( int i = 0; i < MAX_ALTS; ++i ) {
if ( i != bestIndex ) {
altservers[i].bestCount = 0;
}
}
switchConnection( bestSock, &altservers[bestIndex] );
} else if ( bestIndex != -1 ) {
// No switch
close( bestSock );
}
}
static void switchConnection(int sockFd, alt_server_t *srv)
{
pthread_t thread;
struct sockaddr_storage addr;
socklen_t addrLen = sizeof(addr);
char message[200] = "Connection switched to ";
const size_t len = strlen( message );
int ret;
dnbd3_async_t *queue, *it;
pthread_mutex_lock( &connection.sendMutex );
if ( connection.sockFd != -1 ) {
shutdown( connection.sockFd, SHUT_RDWR );
}
ret = getpeername( sockFd, (struct sockaddr*)&addr, &addrLen );
if ( ret == 0 ) {
connection.currentServer = srv->host;
connection.sockFd = sockFd;
pthread_spin_lock( &requests.lock );
queue = requests.head;
requests.head = requests.tail = NULL;
pthread_spin_unlock( &requests.lock );
} else {
connection.sockFd = -1;
}
requestAltServers();
pthread_mutex_unlock( &connection.sendMutex );
if ( ret != 0 ) {
close( sockFd );
logadd( LOG_WARNING, "Could not getpeername after connection switch, assuming connection already dead again. (Errno=%d)", errno );
signal_call( connection.panicSignal );
return;
}
connection.startupTime = nowMilli();
pthread_create( &thread, NULL, &connection_receiveThreadMain, (void*)(size_t)sockFd );
sock_printable( (struct sockaddr*)&addr, sizeof(addr), message + len, sizeof(message) - len );
logadd( LOG_INFO, message );
// resend queue
if ( queue != NULL ) {
pthread_mutex_lock( &connection.sendMutex );
dnbd3_async_t *next = NULL;
for ( it = queue; it != NULL; it = next ) {
logadd( LOG_DEBUG1, "Requeue after server change" );
next = it->next;
enqueueRequest( it );
if ( connection.sockFd != -1 && !dnbd3_get_block( connection.sockFd, it->offset, it->length, (uint64_t)it ) ) {
logadd( LOG_WARNING, "Resending pending request failed, re-entering panic mode" );
shutdown( connection.sockFd, SHUT_RDWR );
connection.sockFd = -1;
signal_call( connection.panicSignal );
}
}
pthread_mutex_unlock( &connection.sendMutex );
}
}
/**
* Does not lock, so get the sendMutex first!
*/
static void requestAltServers()
{
if ( connection.sockFd == -1 )
return;
dnbd3_request_t request = { 0 };
request.magic = dnbd3_packet_magic;
request.cmd = CMD_GET_SERVERS;
fixup_request( request );
if ( sock_sendAll( connection.sockFd, &request, sizeof(request), 2 ) != (ssize_t)sizeof(request) ) {
logadd( LOG_WARNING, "Connection failed while requesting alt server list" );
shutdown( connection.sockFd, SHUT_RDWR );
connection.sockFd = -1;
}
}
static bool throwDataAway(int sockFd, uint32_t amount)
{
size_t done = 0;
char tempBuffer[SHORTBUF];
while ( done < amount ) {
const ssize_t ret = sock_recv( sockFd, tempBuffer, MIN( amount - done, SHORTBUF ) );
if ( ret <= 0 )
return false;
done += (size_t)ret;
}
return true;
}
static void enqueueRequest(dnbd3_async_t *request)
{
request->next = NULL;
request->finished = false;
request->success = false;
pthread_spin_lock( &requests.lock );
//logadd( LOG_DEBUG2, "Queue: %p @ %s : %d", request, file, line );
if ( requests.head == NULL ) {
requests.head = requests.tail = request;
} else {
requests.tail->next = request;
requests.tail = request;
}
pthread_spin_unlock( &requests.lock );
}
static dnbd3_async_t* removeRequest(dnbd3_async_t *request)
{
pthread_spin_lock( &requests.lock );
//logadd( LOG_DEBUG2, "Remov: %p @ %s : %d", request, file, line );
dnbd3_async_t *iterator, *prev = NULL;
for ( iterator = requests.head; iterator != NULL; iterator = iterator->next ) {
if ( iterator == request ) {
// Found it, break!
if ( prev != NULL ) {
prev->next = iterator->next;
} else {
requests.head = iterator->next;
}
if ( requests.tail == iterator ) {
requests.tail = prev;
}
break;
}
prev = iterator;
}
pthread_spin_unlock( &requests.lock );
return iterator;
}
static uint64_t nowMilli()
{
struct timespec ts;
if ( clock_gettime( CLOCK_MONOTONIC_RAW, &ts ) != 0 ) {
printf( "clock_gettime() failed. Errno: %d\n", errno );
return 0;
}
return ( ts.tv_sec * 1000ull ) + ( ts.tv_nsec / 1000000ull );
}
static uint64_t nowMicro()
{
struct timespec ts;
if ( clock_gettime( CLOCK_MONOTONIC_RAW, &ts ) != 0 ) {
printf( "clock_gettime() failed. Errno: %d\n", errno );
return 0;
}
return ( ts.tv_sec * 1000000ull ) + ( ts.tv_nsec / 1000ull );
}
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