X-Git-Url: http://git.ozlabs.org/?p=ccan;a=blobdiff_plain;f=ccan%2Fio%2Fio.c;h=7ebd5a202d7899f356ed1963eb3c6f463ee986e2;hp=7f5113d344c4b5ba199121593c2d5903e236dfd9;hb=a5881c0deb210f56c2095366ae6cdabd5230d68d;hpb=d8ecdc8021b532fe76f001290fcd79c4fb9e1323 diff --git a/ccan/io/io.c b/ccan/io/io.c index 7f5113d3..7ebd5a20 100644 --- a/ccan/io/io.c +++ b/ccan/io/io.c @@ -14,6 +14,8 @@ void *io_loop_return; +struct io_plan io_conn_freed; + struct io_listener *io_new_listener_(const tal_t *ctx, int fd, struct io_plan *(*init)(struct io_conn *, void *), @@ -35,8 +37,6 @@ struct io_listener *io_new_listener_(const tal_t *ctx, int fd, void io_close_listener(struct io_listener *l) { - close(l->fd.fd); - del_listener(l); tal_free(l); } @@ -45,7 +45,8 @@ static struct io_plan *io_never_called(struct io_conn *conn, void *arg) abort(); } -static void next_plan(struct io_conn *conn, struct io_plan *plan) +/* Returns false if conn was freed. */ +static bool next_plan(struct io_conn *conn, struct io_plan *plan) { struct io_plan *(*next)(struct io_conn *, void *arg); @@ -57,14 +58,30 @@ static void next_plan(struct io_conn *conn, struct io_plan *plan) plan = next(conn, plan->next_arg); - /* It should have set a plan inside this conn (or duplex) */ - assert(plan == &conn->plan[IO_IN] - || plan == &conn->plan[IO_OUT] - || plan == &conn->plan[2]); + if (plan == &io_conn_freed) + return false; + + assert(plan == &conn->plan[plan->dir]); assert(conn->plan[IO_IN].status != IO_UNSET || conn->plan[IO_OUT].status != IO_UNSET); backend_new_plan(conn); + return true; +} + +bool io_fd_block(int fd, bool block) +{ + int flags = fcntl(fd, F_GETFL); + + if (flags == -1) + return false; + + if (block) + flags &= ~O_NONBLOCK; + else + flags |= O_NONBLOCK; + + return fcntl(fd, F_SETFL, flags) != -1; } struct io_conn *io_new_conn_(const tal_t *ctx, int fd, @@ -80,18 +97,24 @@ struct io_conn *io_new_conn_(const tal_t *ctx, int fd, conn->fd.fd = fd; conn->finish = NULL; conn->finish_arg = NULL; - conn->list = NULL; - conn->debug = false; if (!add_conn(conn)) return tal_free(conn); + /* Keep our I/O async. */ + io_fd_block(fd, false); + + /* So we can get back from plan -> conn later */ + conn->plan[IO_OUT].dir = IO_OUT; + conn->plan[IO_IN].dir = IO_IN; + /* We start with out doing nothing, and in doing our init. */ conn->plan[IO_OUT].status = IO_UNSET; conn->plan[IO_IN].next = init; conn->plan[IO_IN].next_arg = arg; - next_plan(conn, &conn->plan[IO_IN]); + if (!next_plan(conn, &conn->plan[IO_IN])) + return NULL; return conn; } @@ -108,7 +131,7 @@ struct io_plan_arg *io_plan_arg(struct io_conn *conn, enum io_direction dir) { assert(conn->plan[dir].status == IO_UNSET); - conn->plan[dir].status = IO_POLLING; + conn->plan[dir].status = IO_POLLING_NOTSTARTED; return &conn->plan[dir].arg; } @@ -121,20 +144,34 @@ static struct io_plan *set_always(struct io_conn *conn, struct io_plan *plan = &conn->plan[dir]; plan->status = IO_ALWAYS; - backend_new_always(conn); + /* Only happens on OOM, and only with non-default tal_backend. */ + if (!backend_new_always(plan)) + return NULL; return io_set_plan(conn, dir, NULL, next, arg); } +static struct io_plan *io_always_dir(struct io_conn *conn, + enum io_direction dir, + struct io_plan *(*next)(struct io_conn *, + void *), + void *arg) +{ + return set_always(conn, dir, next, arg); +} + struct io_plan *io_always_(struct io_conn *conn, struct io_plan *(*next)(struct io_conn *, void *), void *arg) { - /* If we're duplex, we want this on the current plan. Otherwise, - * doesn't matter. */ - if (conn->plan[IO_IN].status == IO_UNSET) - return set_always(conn, IO_IN, next, arg); - else - return set_always(conn, IO_OUT, next, arg); + return io_always_dir(conn, IO_IN, next, arg); +} + +struct io_plan *io_out_always_(struct io_conn *conn, + struct io_plan *(*next)(struct io_conn *, + void *), + void *arg) +{ + return io_always_dir(conn, IO_OUT, next, arg); } static int do_write(int fd, struct io_plan_arg *arg) @@ -167,8 +204,12 @@ struct io_plan *io_write_(struct io_conn *conn, const void *data, size_t len, static int do_read(int fd, struct io_plan_arg *arg) { ssize_t ret = read(fd, arg->u1.cp, arg->u2.s); - if (ret <= 0) + if (ret <= 0) { + /* Errno isn't set if we hit EOF, so set it to distinct value */ + if (ret == 0) + errno = 0; return -1; + } arg->u1.cp += ret; arg->u2.s -= ret; @@ -195,8 +236,12 @@ struct io_plan *io_read_(struct io_conn *conn, static int do_read_partial(int fd, struct io_plan_arg *arg) { ssize_t ret = read(fd, arg->u1.cp, *(size_t *)arg->u2.vp); - if (ret <= 0) + if (ret <= 0) { + /* Errno isn't set if we hit EOF, so set it to distinct value */ + if (ret == 0) + errno = 0; return -1; + } *(size_t *)arg->u2.vp = ret; return 1; @@ -263,8 +308,6 @@ static int do_connect(int fd, struct io_plan_arg *arg) return -1; if (err == 0) { - /* Restore blocking if it was initially. */ - fcntl(fd, F_SETFL, arg->u1.s); return 1; } else if (err == EINPROGRESS) return 0; @@ -277,39 +320,31 @@ struct io_plan *io_connect_(struct io_conn *conn, const struct addrinfo *addr, struct io_plan *(*next)(struct io_conn *, void *), void *next_arg) { - struct io_plan_arg *arg = io_plan_arg(conn, IO_IN); int fd = io_conn_fd(conn); - /* Save old flags, set nonblock if not already. */ - arg->u1.s = fcntl(fd, F_GETFL); - fcntl(fd, F_SETFL, arg->u1.s | O_NONBLOCK); + /* We don't actually need the arg, but we need it polling. */ + io_plan_arg(conn, IO_OUT); + + /* Note that io_new_conn() will make fd O_NONBLOCK */ /* Immediate connect can happen. */ if (connect(fd, addr->ai_addr, addr->ai_addrlen) == 0) - return set_always(conn, IO_IN, next, next_arg); + return set_always(conn, IO_OUT, next, next_arg); if (errno != EINPROGRESS) return io_close(conn); - return io_set_plan(conn, IO_IN, do_connect, next, next_arg); + return io_set_plan(conn, IO_OUT, do_connect, next, next_arg); } -struct io_plan *io_wait_(struct io_conn *conn, - const void *wait, - struct io_plan *(*next)(struct io_conn *, void *), - void *next_arg) +static struct io_plan *io_wait_dir(struct io_conn *conn, + const void *wait, + enum io_direction dir, + struct io_plan *(*next)(struct io_conn *, + void *), + void *next_arg) { - enum io_direction dir; - struct io_plan_arg *arg; - - /* If we're duplex, we want this on the current plan. Otherwise, - * doesn't matter. */ - if (conn->plan[IO_IN].status == IO_UNSET) - dir = IO_IN; - else - dir = IO_OUT; - - arg = io_plan_arg(conn, dir); + struct io_plan_arg *arg = io_plan_arg(conn, dir); arg->u1.const_vp = wait; conn->plan[dir].status = IO_WAITING; @@ -317,29 +352,49 @@ struct io_plan *io_wait_(struct io_conn *conn, return io_set_plan(conn, dir, NULL, next, next_arg); } +struct io_plan *io_wait_(struct io_conn *conn, + const void *wait, + struct io_plan *(*next)(struct io_conn *, void *), + void *next_arg) +{ + return io_wait_dir(conn, wait, IO_IN, next, next_arg); +} + +struct io_plan *io_out_wait_(struct io_conn *conn, + const void *wait, + struct io_plan *(*next)(struct io_conn *, void *), + void *next_arg) +{ + return io_wait_dir(conn, wait, IO_OUT, next, next_arg); +} + void io_wake(const void *wait) { backend_wake(wait); } -static int do_plan(struct io_conn *conn, struct io_plan *plan) +/* Returns false if this should not be touched (eg. freed). */ +static bool do_plan(struct io_conn *conn, struct io_plan *plan, + bool idle_on_epipe) { - /* Someone else might have called io_close() on us. */ - if (plan->status == IO_CLOSING) - return -1; - /* We shouldn't have polled for this event if this wasn't true! */ - assert(plan->status == IO_POLLING); + assert(plan->status == IO_POLLING_NOTSTARTED + || plan->status == IO_POLLING_STARTED); switch (plan->io(conn->fd.fd, &plan->arg)) { case -1: + if (errno == EPIPE && idle_on_epipe) { + plan->status = IO_UNSET; + backend_new_plan(conn); + return false; + } io_close(conn); - return -1; + return false; case 0: - return 0; + plan->status = IO_POLLING_STARTED; + return true; case 1: - next_plan(conn, plan); - return 1; + return next_plan(conn, plan); default: /* IO should only return -1, 0 or 1 */ abort(); @@ -349,39 +404,41 @@ static int do_plan(struct io_conn *conn, struct io_plan *plan) void io_ready(struct io_conn *conn, int pollflags) { if (pollflags & POLLIN) - do_plan(conn, &conn->plan[IO_IN]); + if (!do_plan(conn, &conn->plan[IO_IN], false)) + return; if (pollflags & POLLOUT) - do_plan(conn, &conn->plan[IO_OUT]); + /* If we're writing to a closed pipe, we need to wait for + * read to fail if we're duplex: we want to drain it! */ + do_plan(conn, &conn->plan[IO_OUT], + conn->plan[IO_IN].status == IO_POLLING_NOTSTARTED + || conn->plan[IO_IN].status == IO_POLLING_STARTED); } -void io_do_always(struct io_conn *conn) +void io_do_always(struct io_plan *plan) { - if (conn->plan[IO_IN].status == IO_ALWAYS) - next_plan(conn, &conn->plan[IO_IN]); + struct io_conn *conn; + + assert(plan->status == IO_ALWAYS); + conn = container_of(plan, struct io_conn, plan[plan->dir]); - if (conn->plan[IO_OUT].status == IO_ALWAYS) - next_plan(conn, &conn->plan[IO_OUT]); + next_plan(conn, plan); } -void io_do_wakeup(struct io_conn *conn, struct io_plan *plan) +void io_do_wakeup(struct io_conn *conn, enum io_direction dir) { + struct io_plan *plan = &conn->plan[dir]; + assert(plan->status == IO_WAITING); - next_plan(conn, plan); + + set_always(conn, dir, plan->next, plan->next_arg); } /* Close the connection, we're done. */ struct io_plan *io_close(struct io_conn *conn) { - /* Already closing? Don't close twice. */ - if (conn->plan[IO_IN].status == IO_CLOSING) - return &conn->plan[IO_IN]; - - conn->plan[IO_IN].status = conn->plan[IO_OUT].status = IO_CLOSING; - conn->plan[IO_IN].arg.u1.s = errno; - backend_new_closing(conn); - - return io_set_plan(conn, IO_IN, NULL, NULL, NULL); + tal_free(conn); + return &io_conn_freed; } struct io_plan *io_close_cb(struct io_conn *conn, void *next_arg) @@ -389,6 +446,14 @@ struct io_plan *io_close_cb(struct io_conn *conn, void *next_arg) return io_close(conn); } +struct io_plan *io_close_taken_fd(struct io_conn *conn) +{ + io_fd_block(conn->fd.fd, true); + + cleanup_conn_without_close(conn); + return io_close(conn); +} + /* Exit the loop, returning this (non-NULL) arg. */ void io_break(const void *ret) { @@ -406,43 +471,17 @@ int io_conn_fd(const struct io_conn *conn) return conn->fd.fd; } -void io_duplex_prepare(struct io_conn *conn) +struct io_plan *io_duplex(struct io_conn *conn, + struct io_plan *in_plan, struct io_plan *out_plan) { - assert(conn->plan[IO_IN].status == IO_UNSET); - assert(conn->plan[IO_OUT].status == IO_UNSET); - - /* We can't sync debug until we've set both: io_wait() and io_always - * can't handle it. */ - conn->debug_saved = conn->debug; - conn->debug = false; -} - -struct io_plan *io_duplex_(struct io_plan *in_plan, struct io_plan *out_plan) -{ - struct io_conn *conn; - + assert(conn == container_of(in_plan, struct io_conn, plan[IO_IN])); /* in_plan must be conn->plan[IO_IN], out_plan must be [IO_OUT] */ assert(out_plan == in_plan + 1); - - /* Restore debug. */ - conn = container_of(in_plan, struct io_conn, plan[IO_IN]); - conn->debug = conn->debug_saved; - - /* Now set the plans again, to invoke sync debug. */ - io_set_plan(conn, IO_OUT, - out_plan->io, out_plan->next, out_plan->next_arg); - io_set_plan(conn, IO_IN, - in_plan->io, in_plan->next, in_plan->next_arg); - - return out_plan + 1; + return in_plan; } struct io_plan *io_halfclose(struct io_conn *conn) { - /* Already closing? Don't close twice. */ - if (conn->plan[IO_IN].status == IO_CLOSING) - return &conn->plan[IO_IN]; - /* Both unset? OK. */ if (conn->plan[IO_IN].status == IO_UNSET && conn->plan[IO_OUT].status == IO_UNSET) @@ -465,42 +504,53 @@ struct io_plan *io_set_plan(struct io_conn *conn, enum io_direction dir, plan->io = io; plan->next = next; plan->next_arg = next_arg; - assert(plan->status == IO_CLOSING || next != NULL); - - if (!conn->debug) - return plan; - - if (io_loop_return) { - io_debug_complete(conn); - return plan; - } - - switch (plan->status) { - case IO_POLLING: - while (do_plan(conn, plan) == 0); - break; - /* Shouldn't happen, since you said you did plan! */ - case IO_UNSET: - abort(); - case IO_ALWAYS: - /* If other one is ALWAYS, leave in list! */ - if (conn->plan[!dir].status != IO_ALWAYS) - remove_from_always(conn); - next_plan(conn, plan); - break; - case IO_WAITING: - case IO_CLOSING: - io_debug_complete(conn); - } + assert(next != NULL); return plan; } -void io_set_debug(struct io_conn *conn, bool debug) +bool io_plan_in_started(const struct io_conn *conn) +{ + return conn->plan[IO_IN].status == IO_POLLING_STARTED; +} + +bool io_plan_out_started(const struct io_conn *conn) { - conn->debug = debug; + return conn->plan[IO_OUT].status == IO_POLLING_STARTED; } -void io_debug_complete(struct io_conn *conn) +bool io_flush_sync(struct io_conn *conn) { + struct io_plan *plan = &conn->plan[IO_OUT]; + bool ok; + + /* Not writing? Nothing to do. */ + if (plan->status != IO_POLLING_STARTED + && plan->status != IO_POLLING_NOTSTARTED) + return true; + + /* Synchronous please. */ + io_fd_block(io_conn_fd(conn), true); + +again: + switch (plan->io(conn->fd.fd, &plan->arg)) { + case -1: + ok = false; + break; + /* Incomplete, try again. */ + case 0: + plan->status = IO_POLLING_STARTED; + goto again; + case 1: + ok = true; + /* In case they come back. */ + set_always(conn, IO_OUT, plan->next, plan->next_arg); + break; + default: + /* IO should only return -1, 0 or 1 */ + abort(); + } + + io_fd_block(io_conn_fd(conn), false); + return ok; }