TLS_READ(3) | Library Functions Manual | TLS_READ(3) |
tls_read
,
tls_write
, tls_handshake
,
tls_error
, tls_close
,
tls_reset
— use a TLS
connection
#include
<tls.h>
ssize_t
tls_read
(struct tls *ctx,
void *buf, size_t buflen);
ssize_t
tls_write
(struct tls *ctx,
const void *buf, size_t
buflen);
int
tls_handshake
(struct
tls *ctx);
const char *
tls_error
(struct
tls *ctx);
int
tls_close
(struct
tls *ctx);
void
tls_reset
(struct
tls *ctx);
tls_read
()
reads buflen bytes of data from the socket into
buf. It returns the amount of data read.
tls_write
()
writes buflen bytes of data from
buf to the socket. It returns the amount of data
written.
tls_handshake
()
explicitly performs the TLS handshake. It is only necessary to call this
function if you need to guarantee that the handshake has completed, as both
tls_read
() and tls_write
()
automatically perform the TLS handshake when necessary.
The
tls_error
()
function may be used to retrieve a string containing more information about
the most recent error relating to a context.
tls_close
()
closes a connection after use. Only the TLS layer will be shut down and the
caller is responsible for closing the file descriptors, unless the
connection was established using tls_connect(3) or
tls_connect_servername(3). After closing the connection,
ctx can be passed to
tls_free(3).
tls_read
() and
tls_write
() return a size on success or -1 on
error.
tls_handshake
() and
tls_close
() return 0 on success or -1 on error.
The tls_read
(),
tls_write
(),
tls_handshake
(), and
tls_close
() functions also have two special return
values:
TLS_WANT_POLLIN
TLS_WANT_POLLOUT
In the case of blocking file descriptors, the same function call should be repeated immediately. In the case of non-blocking file descriptors, the same function call should be repeated when the required condition has been met.
Callers of these functions cannot rely on the value of the global
errno. To prevent mishandling of error conditions,
tls_read
(), tls_write
(),
tls_handshake
(), and
tls_close
() all explicitly clear
errno.
tls_error
() returns
NULL
if no error occurred with
ctx during or since the last call to
tls_handshake
(), tls_read
(),
tls_write
(), tls_close
(), or
tls_reset
() involving ctx, or
if memory allocation failed while trying to assemble the string describing
the most recent error related to ctx.
The following example demonstrates how to handle TLS writes on a blocking file descriptor:
... while (len > 0) { ssize_t ret; ret = tls_write(ctx, buf, len); if (ret == TLS_WANT_POLLIN || ret == TLS_WANT_POLLOUT) continue; if (ret == -1) errx(1, "tls_write: %s", tls_error(ctx)); buf += ret; len -= ret; } ...
The following example demonstrates how to handle TLS writes on a non-blocking file descriptor using poll(2):
... pfd[0].fd = fd; pfd[0].events = POLLIN|POLLOUT; while (len > 0) { nready = poll(pfd, 1, 0); if (nready == -1) err(1, "poll"); if ((pfd[0].revents & (POLLERR|POLLNVAL))) errx(1, "bad fd %d", pfd[0].fd); if ((pfd[0].revents & (pfd[0].events|POLLHUP))) { ssize_t ret; ret = tls_write(ctx, buf, len); if (ret == TLS_WANT_POLLIN) pfd[0].events = POLLIN; else if (ret == TLS_WANT_POLLOUT) pfd[0].events = POLLOUT; else if (ret == -1) errx(1, "tls_write: %s", tls_error(ctx)); else { buf += ret; len -= ret; } } } ...
tls_accept_socket(3), tls_configure(3), tls_conn_version(3), tls_connect(3), tls_init(3), tls_ocsp_process_response(3)
tls_read
(),
tls_write
(), tls_error
(),
tls_close
(), and tls_reset
()
appeared in OpenBSD 5.6 and got their final names in
OpenBSD 5.7.
tls_handshake
() appeared in
OpenBSD 5.9.
Joel Sing
<jsing@openbsd.org>
with contributions from
Bob Beck
<beck@openbsd.org>
The function tls_error
() returns an
internal pointer. It must not be freed by the application, or a double free
error will occur. The pointer will become invalid when the next error occurs
with ctx. Consequently, if the application may need
the message at a later time, it has to copy the string before calling the
next
libtls
function involving ctx, or a segmentation fault or
read access to unintended data is the likely result.
July 9, 2019 | Debian |