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msgq.cc
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#include <iostream>
#include <cassert>
#include <cerrno>
#include <cmath>
#include <cstring>
#include <cstdint>
#include <chrono>
#include <algorithm>
#include <cstdlib>
#include <csignal>
#include <random>
#include <string>
#include <limits>
#include <poll.h>
#include <sys/ioctl.h>
#include <sys/mman.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <sys/syscall.h>
#include <fcntl.h>
#include <unistd.h>
#include <stdio.h>
#include "cereal/messaging/msgq.h"
void sigusr2_handler(int signal) {
assert(signal == SIGUSR2);
}
uint64_t msgq_get_uid(void){
std::random_device rd("/dev/urandom");
std::uniform_int_distribution<uint64_t> distribution(0, std::numeric_limits<uint32_t>::max());
#ifdef __APPLE__
// TODO: this doesn't work
uint64_t uid = distribution(rd) << 32 | getpid();
#else
uint64_t uid = distribution(rd) << 32 | syscall(SYS_gettid);
#endif
return uid;
}
int msgq_msg_init_size(msgq_msg_t * msg, size_t size){
msg->size = size;
msg->data = new(std::nothrow) char[size];
return (msg->data == NULL) ? -1 : 0;
}
int msgq_msg_init_data(msgq_msg_t * msg, char * data, size_t size) {
int r = msgq_msg_init_size(msg, size);
if (r == 0)
memcpy(msg->data, data, size);
return r;
}
int msgq_msg_close(msgq_msg_t * msg){
if (msg->size > 0)
delete[] msg->data;
msg->size = 0;
return 0;
}
void msgq_reset_reader(msgq_queue_t * q){
int id = q->reader_id;
q->read_valids[id]->store(true);
q->read_pointers[id]->store(*q->write_pointer);
}
void msgq_wait_for_subscriber(msgq_queue_t *q){
while (*q->num_readers == 0){
// wait for subscriber
}
return;
}
int msgq_new_queue(msgq_queue_t * q, const char * path, size_t size){
assert(size < 0xFFFFFFFF); // Buffer must be smaller than 2^32 bytes
std::signal(SIGUSR2, sigusr2_handler);
std::string full_path = "/dev/shm/";
const char* prefix = std::getenv("OPENPILOT_PREFIX");
if (prefix) {
full_path += std::string(prefix) + "/";
}
full_path += path;
auto fd = open(full_path.c_str(), O_RDWR | O_CREAT, 0664);
if (fd < 0) {
std::cout << "Warning, could not open: " << full_path << std::endl;
return -1;
}
int rc = ftruncate(fd, size + sizeof(msgq_header_t));
if (rc < 0){
close(fd);
return -1;
}
char * mem = (char*)mmap(NULL, size + sizeof(msgq_header_t), PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
close(fd);
if (mem == NULL){
return -1;
}
q->mmap_p = mem;
msgq_header_t *header = (msgq_header_t *)mem;
// Setup pointers to header segment
q->num_readers = reinterpret_cast<std::atomic<uint64_t>*>(&header->num_readers);
q->write_pointer = reinterpret_cast<std::atomic<uint64_t>*>(&header->write_pointer);
q->write_uid = reinterpret_cast<std::atomic<uint64_t>*>(&header->write_uid);
for (size_t i = 0; i < NUM_READERS; i++){
q->read_pointers[i] = reinterpret_cast<std::atomic<uint64_t>*>(&header->read_pointers[i]);
q->read_valids[i] = reinterpret_cast<std::atomic<uint64_t>*>(&header->read_valids[i]);
q->read_uids[i] = reinterpret_cast<std::atomic<uint64_t>*>(&header->read_uids[i]);
}
q->data = mem + sizeof(msgq_header_t);
q->size = size;
q->reader_id = -1;
q->endpoint = path;
q->read_conflate = false;
return 0;
}
void msgq_close_queue(msgq_queue_t *q){
if (q->mmap_p != NULL){
munmap(q->mmap_p, q->size + sizeof(msgq_header_t));
}
}
void msgq_init_publisher(msgq_queue_t * q) {
//std::cout << "Starting publisher" << std::endl;
uint64_t uid = msgq_get_uid();
*q->write_uid = uid;
*q->num_readers = 0;
for (size_t i = 0; i < NUM_READERS; i++){
*q->read_valids[i] = false;
*q->read_uids[i] = 0;
}
q->write_uid_local = uid;
}
static void thread_signal(uint32_t tid) {
#ifndef SYS_tkill
// TODO: this won't work for multithreaded programs
kill(tid, SIGUSR2);
#else
syscall(SYS_tkill, tid, SIGUSR2);
#endif
}
void msgq_init_subscriber(msgq_queue_t * q) {
assert(q != NULL);
assert(q->num_readers != NULL);
uint64_t uid = msgq_get_uid();
// Get reader id
while (true){
uint64_t cur_num_readers = *q->num_readers;
uint64_t new_num_readers = cur_num_readers + 1;
// No more slots available. Reset all subscribers to kick out inactive ones
if (new_num_readers > NUM_READERS){
//std::cout << "Warning, evicting all subscribers!" << std::endl;
*q->num_readers = 0;
for (size_t i = 0; i < NUM_READERS; i++){
*q->read_valids[i] = false;
uint64_t old_uid = *q->read_uids[i];
*q->read_uids[i] = 0;
// Wake up reader in case they are in a poll
thread_signal(old_uid & 0xFFFFFFFF);
}
continue;
}
// Use atomic compare and swap to handle race condition
// where two subscribers start at the same time
if (std::atomic_compare_exchange_strong(q->num_readers,
&cur_num_readers,
new_num_readers)){
q->reader_id = cur_num_readers;
q->read_uid_local = uid;
// We start with read_valid = false,
// on the first read the read pointer will be synchronized with the write pointer
*q->read_valids[cur_num_readers] = false;
*q->read_pointers[cur_num_readers] = 0;
*q->read_uids[cur_num_readers] = uid;
break;
}
}
//std::cout << "New subscriber id: " << q->reader_id << " uid: " << q->read_uid_local << " " << q->endpoint << std::endl;
msgq_reset_reader(q);
}
int msgq_msg_send(msgq_msg_t * msg, msgq_queue_t *q){
// Die if we are no longer the active publisher
if (q->write_uid_local != *q->write_uid){
std::cout << "Killing old publisher: " << q->endpoint << std::endl;
errno = EADDRINUSE;
return -1;
}
uint64_t total_msg_size = ALIGN(msg->size + sizeof(int64_t));
// We need to fit at least three messages in the queue,
// then we can always safely access the last message
assert(3 * total_msg_size <= q->size);
uint64_t num_readers = *q->num_readers;
uint32_t write_cycles, write_pointer;
UNPACK64(write_cycles, write_pointer, *q->write_pointer);
char *p = q->data + write_pointer; // add base offset
// Check remaining space
// Always leave space for a wraparound tag for the next message, including alignment
int64_t remaining_space = q->size - write_pointer - total_msg_size - sizeof(int64_t);
if (remaining_space <= 0){
// Write -1 size tag indicating wraparound
*(int64_t*)p = -1;
// Invalidate all readers that are beyond the write pointer
// TODO: should we handle the case where a new reader shows up while this is running?
for (uint64_t i = 0; i < num_readers; i++){
uint64_t read_pointer = *q->read_pointers[i];
uint64_t read_cycles = read_pointer >> 32;
read_pointer &= 0xFFFFFFFF;
if ((read_pointer > write_pointer) && (read_cycles != write_cycles)) {
*q->read_valids[i] = false;
}
}
// Update global and local copies of write pointer and write_cycles
write_pointer = 0;
write_cycles = write_cycles + 1;
PACK64(*q->write_pointer, write_cycles, write_pointer);
// Set actual pointer to the beginning of the data segment
p = q->data;
}
// Invalidate readers that are in the area that will be written
uint64_t start = write_pointer;
uint64_t end = ALIGN(start + sizeof(int64_t) + msg->size);
for (uint64_t i = 0; i < num_readers; i++){
uint32_t read_cycles, read_pointer;
UNPACK64(read_cycles, read_pointer, *q->read_pointers[i]);
if ((read_pointer >= start) && (read_pointer < end) && (read_cycles != write_cycles)) {
*q->read_valids[i] = false;
}
}
// Write size tag
std::atomic<int64_t> *size_p = reinterpret_cast<std::atomic<int64_t>*>(p);
*size_p = msg->size;
// Copy data
memcpy(p + sizeof(int64_t), msg->data, msg->size);
__sync_synchronize();
// Update write pointer
uint32_t new_ptr = ALIGN(write_pointer + msg->size + sizeof(int64_t));
PACK64(*q->write_pointer, write_cycles, new_ptr);
// Notify readers
for (uint64_t i = 0; i < num_readers; i++){
uint64_t reader_uid = *q->read_uids[i];
thread_signal(reader_uid & 0xFFFFFFFF);
}
return msg->size;
}
int msgq_msg_ready(msgq_queue_t * q){
start:
int id = q->reader_id;
assert(id >= 0); // Make sure subscriber is initialized
if (q->read_uid_local != *q->read_uids[id]){
//std::cout << q->endpoint << ": Reader was evicted, reconnecting" << std::endl;
msgq_init_subscriber(q);
goto start;
}
// Check valid
if (!*q->read_valids[id]){
msgq_reset_reader(q);
goto start;
}
uint32_t read_cycles, read_pointer;
UNPACK64(read_cycles, read_pointer, *q->read_pointers[id]);
UNUSED(read_cycles);
uint32_t write_cycles, write_pointer;
UNPACK64(write_cycles, write_pointer, *q->write_pointer);
UNUSED(write_cycles);
// Check if new message is available
return (read_pointer != write_pointer);
}
int msgq_msg_recv(msgq_msg_t * msg, msgq_queue_t * q){
start:
int id = q->reader_id;
assert(id >= 0); // Make sure subscriber is initialized
if (q->read_uid_local != *q->read_uids[id]){
//std::cout << q->endpoint << ": Reader was evicted, reconnecting" << std::endl;
msgq_init_subscriber(q);
goto start;
}
// Check valid
if (!*q->read_valids[id]){
msgq_reset_reader(q);
goto start;
}
uint32_t read_cycles, read_pointer;
UNPACK64(read_cycles, read_pointer, *q->read_pointers[id]);
uint32_t write_cycles, write_pointer;
UNPACK64(write_cycles, write_pointer, *q->write_pointer);
UNUSED(write_cycles);
char * p = q->data + read_pointer;
// Check if new message is available
if (read_pointer == write_pointer) {
msg->size = 0;
return 0;
}
// Read potential message size
std::atomic<int64_t> *size_p = reinterpret_cast<std::atomic<int64_t>*>(p);
std::int64_t size = *size_p;
// Check if the size that was read is valid
if (!*q->read_valids[id]){
msgq_reset_reader(q);
goto start;
}
// If size is -1 the buffer was full, and we need to wrap around
if (size == -1){
read_cycles++;
PACK64(*q->read_pointers[id], read_cycles, 0);
goto start;
}
// crashing is better than passing garbage data to the consumer
// the size will have weird value if it was overwritten by data accidentally
assert((uint64_t)size < q->size);
assert(size > 0);
uint32_t new_read_pointer = ALIGN(read_pointer + sizeof(std::int64_t) + size);
// If conflate is true, check if this is the latest message, else start over
if (q->read_conflate){
if (new_read_pointer != write_pointer){
// Update read pointer
PACK64(*q->read_pointers[id], read_cycles, new_read_pointer);
goto start;
}
}
// Copy message
if (msgq_msg_init_size(msg, size) < 0)
return -1;
__sync_synchronize();
memcpy(msg->data, p + sizeof(int64_t), size);
__sync_synchronize();
// Update read pointer
PACK64(*q->read_pointers[id], read_cycles, new_read_pointer);
// Check if the actual data that was copied is valid
if (!*q->read_valids[id]){
msgq_msg_close(msg);
msgq_reset_reader(q);
goto start;
}
return msg->size;
}
int msgq_poll(msgq_pollitem_t * items, size_t nitems, int timeout){
int num = 0;
// Check if messages ready
for (size_t i = 0; i < nitems; i++) {
items[i].revents = msgq_msg_ready(items[i].q);
if (items[i].revents) num++;
}
int ms = (timeout == -1) ? 100 : timeout;
struct timespec ts;
ts.tv_sec = ms / 1000;
ts.tv_nsec = (ms % 1000) * 1000 * 1000;
while (num == 0) {
int ret;
ret = nanosleep(&ts, &ts);
// Check if messages ready
for (size_t i = 0; i < nitems; i++) {
if (items[i].revents == 0 && msgq_msg_ready(items[i].q)){
num += 1;
items[i].revents = 1;
}
}
// exit if we had a timeout and the sleep finished
if (timeout != -1 && ret == 0){
break;
}
}
return num;
}
bool msgq_all_readers_updated(msgq_queue_t *q) {
uint64_t num_readers = *q->num_readers;
for (uint64_t i = 0; i < num_readers; i++) {
if (*q->read_valids[i] && *q->write_pointer != *q->read_pointers[i]) {
return false;
}
}
return num_readers > 0;
}