diff options
Diffstat (limited to 'transport-helper.c')
-rw-r--r-- | transport-helper.c | 314 |
1 files changed, 313 insertions, 1 deletions
diff --git a/transport-helper.c b/transport-helper.c index 191fbf798a..4e4754c32b 100644 --- a/transport-helper.c +++ b/transport-helper.c @@ -8,6 +8,7 @@ #include "quote.h" #include "remote.h" #include "string-list.h" +#include "thread-utils.h" static int debug; @@ -689,7 +690,7 @@ static int push_refs_with_export(struct transport *transport, struct child_process *helper, exporter; struct helper_data *data = transport->data; char *export_marks = NULL, *import_marks = NULL; - struct string_list revlist_args = { NULL, 0, 0 }; + struct string_list revlist_args = STRING_LIST_INIT_NODUP; struct strbuf buf = STRBUF_INIT; helper = get_helper(transport); @@ -862,3 +863,314 @@ int transport_helper_init(struct transport *transport, const char *name) transport->smart_options = &(data->transport_options); return 0; } + +/* + * Linux pipes can buffer 65536 bytes at once (and most platforms can + * buffer less), so attempt reads and writes with up to that size. + */ +#define BUFFERSIZE 65536 +/* This should be enough to hold debugging message. */ +#define PBUFFERSIZE 8192 + +/* Print bidirectional transfer loop debug message. */ +static void transfer_debug(const char *fmt, ...) +{ + va_list args; + char msgbuf[PBUFFERSIZE]; + static int debug_enabled = -1; + + if (debug_enabled < 0) + debug_enabled = getenv("GIT_TRANSLOOP_DEBUG") ? 1 : 0; + if (!debug_enabled) + return; + + va_start(args, fmt); + vsnprintf(msgbuf, PBUFFERSIZE, fmt, args); + va_end(args); + fprintf(stderr, "Transfer loop debugging: %s\n", msgbuf); +} + +/* Stream state: More data may be coming in this direction. */ +#define SSTATE_TRANSFERING 0 +/* + * Stream state: No more data coming in this direction, flushing rest of + * data. + */ +#define SSTATE_FLUSHING 1 +/* Stream state: Transfer in this direction finished. */ +#define SSTATE_FINISHED 2 + +#define STATE_NEEDS_READING(state) ((state) <= SSTATE_TRANSFERING) +#define STATE_NEEDS_WRITING(state) ((state) <= SSTATE_FLUSHING) +#define STATE_NEEDS_CLOSING(state) ((state) == SSTATE_FLUSHING) + +/* Unidirectional transfer. */ +struct unidirectional_transfer { + /* Source */ + int src; + /* Destination */ + int dest; + /* Is source socket? */ + int src_is_sock; + /* Is destination socket? */ + int dest_is_sock; + /* Transfer state (TRANSFERING/FLUSHING/FINISHED) */ + int state; + /* Buffer. */ + char buf[BUFFERSIZE]; + /* Buffer used. */ + size_t bufuse; + /* Name of source. */ + const char *src_name; + /* Name of destination. */ + const char *dest_name; +}; + +/* Closes the target (for writing) if transfer has finished. */ +static void udt_close_if_finished(struct unidirectional_transfer *t) +{ + if (STATE_NEEDS_CLOSING(t->state) && !t->bufuse) { + t->state = SSTATE_FINISHED; + if (t->dest_is_sock) + shutdown(t->dest, SHUT_WR); + else + close(t->dest); + transfer_debug("Closed %s.", t->dest_name); + } +} + +/* + * Tries to read read data from source into buffer. If buffer is full, + * no data is read. Returns 0 on success, -1 on error. + */ +static int udt_do_read(struct unidirectional_transfer *t) +{ + ssize_t bytes; + + if (t->bufuse == BUFFERSIZE) + return 0; /* No space for more. */ + + transfer_debug("%s is readable", t->src_name); + bytes = read(t->src, t->buf + t->bufuse, BUFFERSIZE - t->bufuse); + if (bytes < 0 && errno != EWOULDBLOCK && errno != EAGAIN && + errno != EINTR) { + error("read(%s) failed: %s", t->src_name, strerror(errno)); + return -1; + } else if (bytes == 0) { + transfer_debug("%s EOF (with %i bytes in buffer)", + t->src_name, t->bufuse); + t->state = SSTATE_FLUSHING; + } else if (bytes > 0) { + t->bufuse += bytes; + transfer_debug("Read %i bytes from %s (buffer now at %i)", + (int)bytes, t->src_name, (int)t->bufuse); + } + return 0; +} + +/* Tries to write data from buffer into destination. If buffer is empty, + * no data is written. Returns 0 on success, -1 on error. + */ +static int udt_do_write(struct unidirectional_transfer *t) +{ + size_t bytes; + + if (t->bufuse == 0) + return 0; /* Nothing to write. */ + + transfer_debug("%s is writable", t->dest_name); + bytes = write(t->dest, t->buf, t->bufuse); + if (bytes < 0 && errno != EWOULDBLOCK && errno != EAGAIN && + errno != EINTR) { + error("write(%s) failed: %s", t->dest_name, strerror(errno)); + return -1; + } else if (bytes > 0) { + t->bufuse -= bytes; + if (t->bufuse) + memmove(t->buf, t->buf + bytes, t->bufuse); + transfer_debug("Wrote %i bytes to %s (buffer now at %i)", + (int)bytes, t->dest_name, (int)t->bufuse); + } + return 0; +} + + +/* State of bidirectional transfer loop. */ +struct bidirectional_transfer_state { + /* Direction from program to git. */ + struct unidirectional_transfer ptg; + /* Direction from git to program. */ + struct unidirectional_transfer gtp; +}; + +static void *udt_copy_task_routine(void *udt) +{ + struct unidirectional_transfer *t = (struct unidirectional_transfer *)udt; + while (t->state != SSTATE_FINISHED) { + if (STATE_NEEDS_READING(t->state)) + if (udt_do_read(t)) + return NULL; + if (STATE_NEEDS_WRITING(t->state)) + if (udt_do_write(t)) + return NULL; + if (STATE_NEEDS_CLOSING(t->state)) + udt_close_if_finished(t); + } + return udt; /* Just some non-NULL value. */ +} + +#ifndef NO_PTHREADS + +/* + * Join thread, with apporiate errors on failure. Name is name for the + * thread (for error messages). Returns 0 on success, 1 on failure. + */ +static int tloop_join(pthread_t thread, const char *name) +{ + int err; + void *tret; + err = pthread_join(thread, &tret); + if (!tret) { + error("%s thread failed", name); + return 1; + } + if (err) { + error("%s thread failed to join: %s", name, strerror(err)); + return 1; + } + return 0; +} + +/* + * Spawn the transfer tasks and then wait for them. Returns 0 on success, + * -1 on failure. + */ +static int tloop_spawnwait_tasks(struct bidirectional_transfer_state *s) +{ + pthread_t gtp_thread; + pthread_t ptg_thread; + int err; + int ret = 0; + err = pthread_create(>p_thread, NULL, udt_copy_task_routine, + &s->gtp); + if (err) + die("Can't start thread for copying data: %s", strerror(err)); + err = pthread_create(&ptg_thread, NULL, udt_copy_task_routine, + &s->ptg); + if (err) + die("Can't start thread for copying data: %s", strerror(err)); + + ret |= tloop_join(gtp_thread, "Git to program copy"); + ret |= tloop_join(ptg_thread, "Program to git copy"); + return ret; +} +#else + +/* Close the source and target (for writing) for transfer. */ +static void udt_kill_transfer(struct unidirectional_transfer *t) +{ + t->state = SSTATE_FINISHED; + /* + * Socket read end left open isn't a disaster if nobody + * attempts to read from it (mingw compat headers do not + * have SHUT_RD)... + * + * We can't fully close the socket since otherwise gtp + * task would first close the socket it sends data to + * while closing the ptg file descriptors. + */ + if (!t->src_is_sock) + close(t->src); + if (t->dest_is_sock) + shutdown(t->dest, SHUT_WR); + else + close(t->dest); +} + +/* + * Join process, with apporiate errors on failure. Name is name for the + * process (for error messages). Returns 0 on success, 1 on failure. + */ +static int tloop_join(pid_t pid, const char *name) +{ + int tret; + if (waitpid(pid, &tret, 0) < 0) { + error("%s process failed to wait: %s", name, strerror(errno)); + return 1; + } + if (!WIFEXITED(tret) || WEXITSTATUS(tret)) { + error("%s process failed", name); + return 1; + } + return 0; +} + +/* + * Spawn the transfer tasks and then wait for them. Returns 0 on success, + * -1 on failure. + */ +static int tloop_spawnwait_tasks(struct bidirectional_transfer_state *s) +{ + pid_t pid1, pid2; + int ret = 0; + + /* Fork thread #1: git to program. */ + pid1 = fork(); + if (pid1 < 0) + die_errno("Can't start thread for copying data"); + else if (pid1 == 0) { + udt_kill_transfer(&s->ptg); + exit(udt_copy_task_routine(&s->gtp) ? 0 : 1); + } + + /* Fork thread #2: program to git. */ + pid2 = fork(); + if (pid2 < 0) + die_errno("Can't start thread for copying data"); + else if (pid2 == 0) { + udt_kill_transfer(&s->gtp); + exit(udt_copy_task_routine(&s->ptg) ? 0 : 1); + } + + /* + * Close both streams in parent as to not interfere with + * end of file detection and wait for both tasks to finish. + */ + udt_kill_transfer(&s->gtp); + udt_kill_transfer(&s->ptg); + ret |= tloop_join(pid1, "Git to program copy"); + ret |= tloop_join(pid2, "Program to git copy"); + return ret; +} +#endif + +/* + * Copies data from stdin to output and from input to stdout simultaneously. + * Additionally filtering through given filter. If filter is NULL, uses + * identity filter. + */ +int bidirectional_transfer_loop(int input, int output) +{ + struct bidirectional_transfer_state state; + + /* Fill the state fields. */ + state.ptg.src = input; + state.ptg.dest = 1; + state.ptg.src_is_sock = (input == output); + state.ptg.dest_is_sock = 0; + state.ptg.state = SSTATE_TRANSFERING; + state.ptg.bufuse = 0; + state.ptg.src_name = "remote input"; + state.ptg.dest_name = "stdout"; + + state.gtp.src = 0; + state.gtp.dest = output; + state.gtp.src_is_sock = 0; + state.gtp.dest_is_sock = (input == output); + state.gtp.state = SSTATE_TRANSFERING; + state.gtp.bufuse = 0; + state.gtp.src_name = "stdin"; + state.gtp.dest_name = "remote output"; + + return tloop_spawnwait_tasks(&state); +} |