From b527294153be3b79563c82c66102adc0004736c0 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Mon, 15 Apr 2024 19:54:12 +0200 Subject: Adding upstream version 2.6.7+dfsg. Signed-off-by: Daniel Baumann --- contrib/slapd-modules/nssov/nss-pam-ldapd/tio.c | 520 ++++++++++++++++++++++++ 1 file changed, 520 insertions(+) create mode 100644 contrib/slapd-modules/nssov/nss-pam-ldapd/tio.c (limited to 'contrib/slapd-modules/nssov/nss-pam-ldapd/tio.c') diff --git a/contrib/slapd-modules/nssov/nss-pam-ldapd/tio.c b/contrib/slapd-modules/nssov/nss-pam-ldapd/tio.c new file mode 100644 index 0000000..012e680 --- /dev/null +++ b/contrib/slapd-modules/nssov/nss-pam-ldapd/tio.c @@ -0,0 +1,520 @@ +/* + tio.c - timed io functions + This file is part of the nss-pam-ldapd library. + + Copyright (C) 2007-2014 Arthur de Jong + + This library is free software; you can redistribute it and/or + modify it under the terms of the GNU Lesser General Public + License as published by the Free Software Foundation; either + version 2.1 of the License, or (at your option) any later version. + + This library 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 + Lesser General Public License for more details. + + You should have received a copy of the GNU Lesser General Public + License along with this library; if not, write to the Free Software + Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA + 02110-1301 USA +*/ + +#include "portable.h" + +#ifdef HAVE_STDINT_H +#include +#endif /* HAVE_STDINT_H */ +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include "tio.h" + +/* for platforms that don't have ETIME use ETIMEDOUT */ +#ifndef ETIME +#define ETIME ETIMEDOUT +#endif /* ETIME */ + +/* structure that holds a buffer + the buffer contains the data that is between the application and the + file descriptor that is used for efficient transfer + the buffer is built up as follows: + |.....********......| + ^start ^size + ^--len--^ */ +struct tio_buffer { + uint8_t *buffer; + size_t size; /* the size of the buffer */ + size_t maxsize; /* the maximum size of the buffer */ + size_t start; /* the start of the data (before start is unused) */ + size_t len; /* size of the data (from the start) */ +}; + +/* structure that holds all the state for files */ +struct tio_fileinfo { + int fd; + struct tio_buffer readbuffer; + struct tio_buffer writebuffer; + int readtimeout; + int writetimeout; + int read_resettable; /* whether the tio_reset() function can be called */ +#ifdef DEBUG_TIO_STATS + /* this is used to collect statistics on the use of the streams + and can be used to tune the buffer sizes */ + size_t byteswritten; + size_t bytesread; +#endif /* DEBUG_TIO_STATS */ +}; + +/* some older versions of Solaris don't provide CLOCK_MONOTONIC but do have + a CLOCK_HIGHRES that has the same properties we need */ +#ifndef CLOCK_MONOTONIC +#ifdef CLOCK_HIGHRES +#define CLOCK_MONOTONIC CLOCK_HIGHRES +#endif /* CLOCK_HIGHRES */ +#endif /* not CLOCK_MONOTONIC */ + +/* update the timeout to the value that is remaining before the deadline + returns the number of milliseconds before the deadline (or a negative + value of the deadline has expired) */ +static inline int tio_time_remaining(struct timespec *deadline, int timeout) +{ + struct timespec tv; + /* if this is the first call, set the deadline and return the full time */ + if ((deadline->tv_sec == 0) && (deadline->tv_nsec == 0)) + { + if (clock_gettime(CLOCK_MONOTONIC, deadline) == 0) + { + deadline->tv_sec += timeout / 1000; + deadline->tv_nsec += (timeout % 1000) * 1000000; + } + return timeout; + } + /* get the current time (fall back to full time on error) */ + if (clock_gettime(CLOCK_MONOTONIC, &tv)) + return timeout; + /* calculate time remaining in milliseconds */ + return (deadline->tv_sec - tv.tv_sec) * 1000 + + (deadline->tv_nsec - tv.tv_nsec) / 1000000; +} + +/* open a new TFILE based on the file descriptor */ +TFILE *tio_fdopen(int fd, int readtimeout, int writetimeout, + size_t initreadsize, size_t maxreadsize, + size_t initwritesize, size_t maxwritesize) +{ + struct tio_fileinfo *fp; + fp = (struct tio_fileinfo *)malloc(sizeof(struct tio_fileinfo)); + if (fp == NULL) + return NULL; + fp->fd = fd; + /* initialize read buffer */ + fp->readbuffer.buffer = (uint8_t *)malloc(initreadsize); + if (fp->readbuffer.buffer == NULL) + { + free(fp); + return NULL; + } + fp->readbuffer.size = initreadsize; + fp->readbuffer.maxsize = maxreadsize; + fp->readbuffer.start = 0; + fp->readbuffer.len = 0; + /* initialize write buffer */ + fp->writebuffer.buffer = (uint8_t *)malloc(initwritesize); + if (fp->writebuffer.buffer == NULL) + { + free(fp->readbuffer.buffer); + free(fp); + return NULL; + } + fp->writebuffer.size = initwritesize; + fp->writebuffer.maxsize = maxwritesize; + fp->writebuffer.start = 0; + fp->writebuffer.len = 0; + /* initialize other attributes */ + fp->readtimeout = readtimeout; + fp->writetimeout = writetimeout; + fp->read_resettable = 0; +#ifdef DEBUG_TIO_STATS + fp->byteswritten = 0; + fp->bytesread = 0; +#endif /* DEBUG_TIO_STATS */ + return fp; +} + +/* wait for any activity on the specified file descriptor using + the specified deadline */ +static int tio_wait(int fd, short events, int timeout, + struct timespec *deadline) +{ + int t; + struct pollfd fds[1]; + int rv; + while (1) + { + fds[0].fd = fd; + fds[0].events = events; + /* figure out the time we need to wait */ + if ((t = tio_time_remaining(deadline, timeout)) < 0) + { + errno = ETIME; + return -1; + } + /* sanity check for moving clock */ + if (t > timeout) + t = timeout; + /* wait for activity */ + rv = poll(fds, 1, t); + if (rv > 0) + return 0; /* we have activity */ + else if (rv == 0) + { + /* no file descriptors were available within the specified time */ + errno = ETIME; + return -1; + } + else if ((errno != EINTR) && (errno != EAGAIN)) + /* some error occurred */ + return -1; + /* we just try again on EINTR or EAGAIN */ + } +} + +/* do a read on the file descriptor, returning the data in the buffer + if no data was read in the specified time an error is returned */ +int tio_read(TFILE *fp, void *buf, size_t count) +{ + struct timespec deadline = {0, 0}; + int rv; + uint8_t *tmp; + size_t newsz; + size_t len; + /* have a more convenient storage type for the buffer */ + uint8_t *ptr = (uint8_t *)buf; + /* loop until we have returned all the needed data */ + while (1) + { + /* check if we have enough data in the buffer */ + if (fp->readbuffer.len >= count) + { + if (count > 0) + { + if (ptr != NULL) + memcpy(ptr, fp->readbuffer.buffer + fp->readbuffer.start, count); + /* adjust buffer position */ + fp->readbuffer.start += count; + fp->readbuffer.len -= count; + } + return 0; + } + /* empty what we have and continue from there */ + if (fp->readbuffer.len > 0) + { + if (ptr != NULL) + { + memcpy(ptr, fp->readbuffer.buffer + fp->readbuffer.start, + fp->readbuffer.len); + ptr += fp->readbuffer.len; + } + count -= fp->readbuffer.len; + fp->readbuffer.start += fp->readbuffer.len; + fp->readbuffer.len = 0; + } + /* after this point until the read fp->readbuffer.len is 0 */ + if (!fp->read_resettable) + { + /* the stream is not resettable, re-use the buffer */ + fp->readbuffer.start = 0; + } + else if (fp->readbuffer.start >= (fp->readbuffer.size - 4)) + { + /* buffer is running empty, try to grow buffer */ + if (fp->readbuffer.size < fp->readbuffer.maxsize) + { + newsz = fp->readbuffer.size * 2; + if (newsz > fp->readbuffer.maxsize) + newsz = fp->readbuffer.maxsize; + tmp = realloc(fp->readbuffer.buffer, newsz); + if (tmp != NULL) + { + fp->readbuffer.buffer = tmp; + fp->readbuffer.size = newsz; + } + } + /* if buffer still does not contain enough room, clear resettable */ + if (fp->readbuffer.start >= (fp->readbuffer.size - 4)) + { + fp->readbuffer.start = 0; + fp->read_resettable = 0; + } + } + /* wait until we have input */ + if (tio_wait(fp->fd, POLLIN, fp->readtimeout, &deadline)) + return -1; + /* read the input in the buffer */ + len = fp->readbuffer.size - fp->readbuffer.start; +#ifdef SSIZE_MAX + if (len > SSIZE_MAX) + len = SSIZE_MAX; +#endif /* SSIZE_MAX */ + rv = read(fp->fd, fp->readbuffer.buffer + fp->readbuffer.start, len); + /* check for errors */ + if (rv == 0) + { + errno = ECONNRESET; + return -1; + } + else if ((rv < 0) && (errno != EINTR) && (errno != EAGAIN)) + return -1; /* something went wrong with the read */ + else if (rv > 0) + fp->readbuffer.len = rv; /* skip the read part in the buffer */ +#ifdef DEBUG_TIO_STATS + fp->bytesread += rv; +#endif /* DEBUG_TIO_STATS */ + } +} + +/* Read and discard the specified number of bytes from the stream. */ +int tio_skip(TFILE *fp, size_t count) +{ + return tio_read(fp, NULL, count); +} + +/* Read all available data from the stream and empty the read buffer. */ +int tio_skipall(TFILE *fp, int timeout) +{ + struct timespec deadline = {0, 0}; + int rv; + size_t len; + /* clear the read buffer */ + fp->readbuffer.start = 0; + fp->readbuffer.len = 0; + fp->read_resettable = 0; + /* read until we can't read no more */ + len = fp->readbuffer.size; +#ifdef SSIZE_MAX + if (len > SSIZE_MAX) + len = SSIZE_MAX; +#endif /* SSIZE_MAX */ + while (1) + { + /* wait until we have input */ + if (tio_wait(fp->fd, POLLIN, timeout, &deadline)) + return -1; + /* read data from the stream */ + rv = read(fp->fd, fp->readbuffer.buffer, len); + if (rv == 0) + return 0; /* end-of-file */ + if ((rv < 0) && (errno == EWOULDBLOCK)) + return 0; /* we've ready everything we can without blocking */ + if ((rv < 0) && (errno != EINTR) && (errno != EAGAIN)) + return -1; /* something went wrong with the read */ + } +} + +/* the caller has assured us that we can write to the file descriptor + and we give it a shot */ +static int tio_writebuf(TFILE *fp) +{ + int rv; + /* write the buffer */ +#ifdef MSG_NOSIGNAL + rv = send(fp->fd, fp->writebuffer.buffer + fp->writebuffer.start, + fp->writebuffer.len, MSG_NOSIGNAL); +#else /* not MSG_NOSIGNAL */ + /* on platforms that cannot use send() with masked signals, we change the + signal mask and change it back after the write (note that there is a + race condition here) */ + struct sigaction act, oldact; + /* set up sigaction */ + memset(&act, 0, sizeof(struct sigaction)); + act.sa_sigaction = NULL; + act.sa_handler = SIG_IGN; + sigemptyset(&act.sa_mask); + act.sa_flags = SA_RESTART; + /* ignore SIGPIPE */ + if (sigaction(SIGPIPE, &act, &oldact) != 0) + return -1; /* error setting signal handler */ + /* write the buffer */ + rv = write(fp->fd, fp->writebuffer.buffer + fp->writebuffer.start, + fp->writebuffer.len); + /* restore the old handler for SIGPIPE */ + if (sigaction(SIGPIPE, &oldact, NULL) != 0) + return -1; /* error restoring signal handler */ +#endif + /* check for errors */ + if ((rv == 0) || ((rv < 0) && (errno != EINTR) && (errno != EAGAIN))) + return -1; /* something went wrong with the write */ + /* skip the written part in the buffer */ + if (rv > 0) + { + fp->writebuffer.start += rv; + fp->writebuffer.len -= rv; +#ifdef DEBUG_TIO_STATS + fp->byteswritten += rv; +#endif /* DEBUG_TIO_STATS */ + /* reset start if len is 0 */ + if (fp->writebuffer.len == 0) + fp->writebuffer.start = 0; + /* move contents of the buffer to the front if it will save enough room */ + if (fp->writebuffer.start >= (fp->writebuffer.size / 4)) + { + memmove(fp->writebuffer.buffer, + fp->writebuffer.buffer + fp->writebuffer.start, + fp->writebuffer.len); + fp->writebuffer.start = 0; + } + } + return 0; +} + +/* write all the data in the buffer to the stream */ +int tio_flush(TFILE *fp) +{ + struct timespec deadline = {0, 0}; + /* loop until we have written our buffer */ + while (fp->writebuffer.len > 0) + { + /* wait until we can write */ + if (tio_wait(fp->fd, POLLOUT, fp->writetimeout, &deadline)) + return -1; + /* write one block */ + if (tio_writebuf(fp)) + return -1; + } + return 0; +} + +/* try a single write of data in the buffer if the file descriptor + will accept data */ +static int tio_flush_nonblock(TFILE *fp) +{ + struct pollfd fds[1]; + int rv; + /* see if we can write without blocking */ + fds[0].fd = fp->fd; + fds[0].events = POLLOUT; + rv = poll(fds, 1, 0); + /* check if any file descriptors were ready (timeout) or we were + interrupted */ + if ((rv == 0) || ((rv < 0) && ((errno == EINTR) || (errno == EAGAIN)))) + return 0; + /* any other errors? */ + if (rv < 0) + return -1; + /* so file descriptor will accept writes */ + return tio_writebuf(fp); +} + +int tio_write(TFILE *fp, const void *buf, size_t count) +{ + size_t fr; + uint8_t *tmp; + size_t newsz; + const uint8_t *ptr = (const uint8_t *)buf; + /* keep filling the buffer until we have buffered everything */ + while (count > 0) + { + /* figure out free size in buffer */ + fr = fp->writebuffer.size - (fp->writebuffer.start + fp->writebuffer.len); + if (count <= fr) + { + /* the data fits in the buffer */ + memcpy(fp->writebuffer.buffer + fp->writebuffer.start + + fp->writebuffer.len, ptr, count); + fp->writebuffer.len += count; + return 0; + } + else if (fr > 0) + { + /* fill the buffer with data that will fit */ + memcpy(fp->writebuffer.buffer + fp->writebuffer.start + + fp->writebuffer.len, ptr, fr); + fp->writebuffer.len += fr; + ptr += fr; + count -= fr; + } + /* try to flush some of the data that is in the buffer */ + if (tio_flush_nonblock(fp)) + return -1; + /* if we have room now, try again */ + if (fp->writebuffer.size > (fp->writebuffer.start + fp->writebuffer.len)) + continue; + /* try to grow the buffer */ + if (fp->writebuffer.size < fp->writebuffer.maxsize) + { + newsz = fp->writebuffer.size * 2; + if (newsz > fp->writebuffer.maxsize) + newsz = fp->writebuffer.maxsize; + tmp = realloc(fp->writebuffer.buffer, newsz); + if (tmp != NULL) + { + fp->writebuffer.buffer = tmp; + fp->writebuffer.size = newsz; + continue; /* try again */ + } + } + /* write the buffer to the stream */ + if (tio_flush(fp)) + return -1; + } + return 0; +} + +int tio_close(TFILE *fp) +{ + int retv; + /* write any buffered data */ + retv = tio_flush(fp); +#ifdef DEBUG_TIO_STATS + /* dump statistics to stderr */ + fprintf(stderr, "DEBUG_TIO_STATS READ=%d WRITTEN=%d\n", fp->bytesread, + fp->byteswritten); +#endif /* DEBUG_TIO_STATS */ + /* close file descriptor */ + if (close(fp->fd)) + retv = -1; + /* free any allocated buffers */ + memset(fp->readbuffer.buffer, 0, fp->readbuffer.size); + memset(fp->writebuffer.buffer, 0, fp->writebuffer.size); + free(fp->readbuffer.buffer); + free(fp->writebuffer.buffer); + /* free the tio struct itself */ + free(fp); + /* return the result of the earlier operations */ + return retv; +} + +void tio_mark(TFILE *fp) +{ + /* move any data in the buffer to the start of the buffer */ + if ((fp->readbuffer.start > 0) && (fp->readbuffer.len > 0)) + { + memmove(fp->readbuffer.buffer, + fp->readbuffer.buffer + fp->readbuffer.start, fp->readbuffer.len); + fp->readbuffer.start = 0; + } + /* mark the stream as resettable */ + fp->read_resettable = 1; +} + +int tio_reset(TFILE *fp) +{ + /* check if the stream is (still) resettable */ + if (!fp->read_resettable) + return -1; + /* reset the buffer */ + fp->readbuffer.len += fp->readbuffer.start; + fp->readbuffer.start = 0; + return 0; +} -- cgit v1.2.3