mirror of
https://github.com/Rucknium/xmrpeers.git
synced 2024-12-22 19:49:24 +00:00
222 lines
7.2 KiB
R
222 lines
7.2 KiB
R
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# This function is not exported
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get.peer.ip.port.direction <- function(x, notification) {
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x <- stringr::str_extract(x,
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paste0("\t\\[+([^\\[\\]]+)\\]*:([0-9]+) ([INCOUT]{3})\\] ", notification),
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group = 1:3)
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if (!is.matrix(x)) {
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x <- matrix(x, ncol = 3, byrow = TRUE)
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# stringr::str_extract() creates an atomic vector instead of a matrix
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# if the x has only one element
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}
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x <- as.data.frame(x)
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colnames(x) <- c("ip", "port", "direction")
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x
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}
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#' Ping peer nodes for latency measurement
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#'
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#' @param bitmonero.dir .bitmonero directory where the monero.log file is.
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#' @param output.file Name of the output file. The file will be created in `bitmonero.dir`.
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#' @param sleep Number of seconds to sleep between each round of collecting new peer IPs.
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#' @param ping.count Number of times to ping each peer.
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#' @param threads Override default number of threads for sending pings.
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#'
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#' @return No return value. Executes in a loop until interrupted.
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#' @export
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#'
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#' @examples
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#' \dontrun{
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#' ping.peers()
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#' }
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ping.peers <- function(bitmonero.dir = "~/.bitmonero", output.file = "monero_peer_pings.csv", sleep = 10, ping.count = 5, threads = NULL) {
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Sys.setenv(VROOM_CONNECTION_SIZE = formatC(131072 * 10000, format = "fg"))
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# Fixes occasional issues with https://github.com/tidyverse/vroom/issues/364
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# formatC() is used since VROOM_CONNECTION_SIZE cannot interpret scientific notation
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bitmonero.dir <- path.expand(bitmonero.dir)
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bitmonero.dir <- gsub("/+$", "", bitmonero.dir)
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# Remove trailing slash(es) if they exist
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output.file <- paste0(bitmonero.dir, "/", output.file)
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files.in.dir <- list.files(bitmonero.dir)
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log.file.name <- files.in.dir[grepl("(^bitmonero[.]log$)|(^monero[.]log$)", files.in.dir, ignore.case = TRUE)]
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if (length(log.file.name) == 0) {
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stop("Cannot find log file in bitmonero.dir")
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}
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if (length(log.file.name) > 1) {
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stop("Files named 'bitmonero.log' _and_ 'monero.log' exist in bitmonero.dir")
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}
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log.file <- paste0(bitmonero.dir, "/", log.file.name)
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first.file.line <- readr::read_lines(log.file, n_max = 1)
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# Get the first file line so we know when the log file rolls over
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# to the next file.
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# Better to do this than file.info() because file.info() is OS-dependent:
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# > What is meant by the three file times depends on the OS and file system.
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# > On Windows native file systems ctime is the file creation time
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# > (something which is not recorded on most Unix-alike file systems).
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# > What is meant by ‘file access’ and hence the ‘last access time’ is system-dependent.
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while (length(first.file.line) == 0) {
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Sys.sleep(sleep)
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first.file.line <- readr::read_lines(log.file, n_max = 1)
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# If the log file is empty, sleep until it has at least one line.
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}
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lines.already.read <- 0
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while (TRUE) {
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check.first.file.line <- readr::read_lines(log.file, n_max = 1)
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if (length(check.first.file.line) == 0) {
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lines.already.read <- 0
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Sys.sleep(sleep)
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next
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# If the log file is empty, sleep until it has at least one line.
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}
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if (first.file.line != check.first.file.line) {
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first.file.line <- check.first.file.line
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lines.already.read <- 0
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}
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if (file.exists(output.file)) {
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old.ping.data <- read.csv(output.file, header = FALSE)
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old.ip.ports <- paste0(old.ping.data[, 1], ":", old.ping.data[, 2])
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} else {
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old.ip.ports <- ""
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}
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tail.file <- readr::read_lines(log.file, skip = lines.already.read)
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n.lines.file <- length(tail.file) + lines.already.read
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ip.lines <- grep("Received NOTIFY_NEW_TRANSACTIONS", tail.file, fixed = TRUE)
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if (length(ip.lines) == 0) {
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Sys.sleep(sleep)
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cat(base::date(), " Peers pinged: 0\n", sep = "")
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next
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}
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peers <- get.peer.ip.port.direction(tail.file[ip.lines], "Received NOTIFY_NEW_TRANSACTIONS")
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peers <- unique(peers)
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missed.parsing <- (! complete.cases(peers))
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if (any(missed.parsing)) {
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cat("Unable to parse ", sum(missed.parsing), " IPs of peers\n", sep = "")
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}
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peers <- peers[! missed.parsing, , drop = FALSE] # Drops any NAs in case the parsing doesn't work
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peers <- peers[! paste0(peers$ip, ":", peers$port) %in% old.ip.ports, , drop = FALSE]
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if (nrow(peers) == 0) {
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Sys.sleep(sleep)
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cat(base::date(), " Peers pinged: 0\n", sep = "")
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next
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}
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get.ping.data <- function(x) {
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ip <- x[[1]]
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ip.type <- IP::ip(ip)@.Data
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if (is.na(ip.type) || (! ip.type %in% c(4, 6))) {
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cat("Could not determine ipv4/ipv6 type of peer\n")
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return(paste("UNPARSEABLE", "UNPARSEABLE", "UNPARSEABLE",
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paste(rep(NA, ping.count), collapse = ","), sep = ","))
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}
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port <- x[[2]]
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direction <- x[[3]]
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if (paste0(ip, ":", port) %in% old.ip.ports) {
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return("")
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}
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if (ip.type == 4) {
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pings <- pingr::ping_port(ip, port = port, count = ping.count)
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if (all(is.na(pings))) {
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# This may happen if it is an incoming connection and the peer's port is closed
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pings <- pingr::ping(ip, count = ping.count)
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}
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}
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if (ip.type == 6) {
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# pingr::ping() doesn't seem to work with ipv6, so switch to
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# the pingers package
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# pingers::ping_capture() output format makes it difficult to get the
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# ping latency for each ping, so we will just loop ping.count times
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ping.ipv6 <- function() {
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y <- pingers::ping_capture(paste0(ip, ":", port), count = 1)$ping_min
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if (is.na(y)) {
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# This may happen if it is an incoming connection and the peer's port is closed
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y <- pingers::ping_capture(ip, count = 1)$ping_min
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}
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y
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}
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pings <- replicate(ping.count, ping.ipv6())
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}
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paste(ip, port, direction, paste(pings, collapse = ","), sep = ",")
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}
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get.ping.data.errors.handled <- function(x) {
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tryCatch(get.ping.data(x), error = function(e) {""})
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}
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if (nrow(peers) * ping.count > 5) {
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if (is.null(threads)) {
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n.workers <- min(c(floor(nrow(peers) * ping.count / 5), parallelly::availableCores()*4, 100))
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} else {
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n.workers <- threads
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}
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options(parallelly.maxWorkers.localhost = 4) # This means number of CPU cores times 4
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# Most time in thread is waiting for ping to return, so can have
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# high number of workers
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future::plan(future::multisession, workers = n.workers)
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# Must have this instead of
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# future::plan(future::multisession(workers = n.workers))
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# since the latter fails with" object 'n.workers' not found"
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# because of a strange scoping reason.
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ping.data <- future.apply::future_apply(peers, MARGIN = 1, get.ping.data.errors.handled, future.seed = TRUE)
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future::plan(future::sequential)
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# Shut down workers
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} else {
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ping.data <- apply(peers, MARGIN = 1, get.ping.data.errors.handled)
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}
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ping.data <- unname(ping.data)
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ping.data <- ping.data[ping.data != ""]
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if (length(ping.data) > 0) {
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cat(ping.data, file = output.file, sep = "\n", append = TRUE)
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}
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lines.already.read <- n.lines.file
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Sys.sleep(sleep)
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cat(base::date(), " Peers pinged: ", length(ping.data), "\n", sep = "")
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}
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}
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