Josh Steadmon <steadmon@xxxxxxxxxx> writes: > +static int do_v2_command_and_cap(int out) > +{ > + packet_write_fmt(out, "command=archive\n"); > + /* Capability list would go here, if we had any. */ > + packet_delim(out); > +} > + > static int run_remote_archiver(int argc, const char **argv, > const char *remote, const char *exec, > const char *name_hint) > @@ -32,6 +41,7 @@ static int run_remote_archiver(int argc, const char **argv, > struct remote *_remote; > struct packet_reader reader; > enum packet_read_status status; > + enum protocol_version version; > > _remote = remote_get(remote); > if (!_remote->url[0]) > @@ -41,6 +51,11 @@ static int run_remote_archiver(int argc, const char **argv, > > packet_reader_init(&reader, fd[0], NULL, 0, PACKET_READ_CHOMP_NEWLINE); > > + version = discover_version(&reader); The original version of upload-archive that is correctly running on the other end sends either NACK (unable to spawn) or ACK (ready to serve) to us without waiting for us to speak first, so peeking that with this discover_version() is a safe thing to do. > + if (version == protocol_v2) > + do_v2_command_and_cap(fd[1]); > + With proto v2, "server capabilities" have already been collected in server_capabilities_v2 array in discover_version(). We are to pick and ask the capabilities in that function and respond. Right now we do not need to do much, as we saw that very thin implementation of that function above. > /* > * Inject a fake --format field at the beginning of the > * arguments, with the format inferred from our output And then after that, both the original and updated protocol lets us send the archive format and arguments (like revs and pathspecs), followed by a flush packet... > @@ -56,22 +71,24 @@ static int run_remote_archiver(int argc, const char **argv, > packet_write_fmt(fd[1], "argument %s\n", argv[i]); > packet_flush(fd[1]); ... which is a piece of code shared between the protocol versions that ends here. > - status = packet_reader_read(&reader); > - > - if (status == PACKET_READ_FLUSH) > - die(_("git archive: expected ACK/NAK, got a flush packet")); > - if (strcmp(reader.buffer, "ACK")) { > - if (starts_with(reader.buffer, "NACK ")) > - die(_("git archive: NACK %s"), reader.buffer + 5); > - if (starts_with(reader.buffer, "ERR ")) > - die(_("remote error: %s"), reader.buffer + 4); > - die(_("git archive: protocol error")); > + if (version == protocol_v0) { > + status = packet_reader_read(&reader); > + > + if (status == PACKET_READ_FLUSH) > + die(_("git archive: expected ACK/NAK, got a flush packet")); > + if (strcmp(reader.buffer, "ACK")) { > + if (starts_with(reader.buffer, "NACK ")) > + die(_("git archive: NACK %s"), reader.buffer + 5); > + if (starts_with(reader.buffer, "ERR ")) > + die(_("remote error: %s"), reader.buffer + 4); > + die(_("git archive: protocol error")); > + } > + > + status = packet_reader_read(&reader); > + if (status != PACKET_READ_FLUSH) > + die(_("git archive: expected a flush")); > } The original protocol lets upload-archive to report failure to spawn the writer backend process and lets us act on it. We do not need a similar support in the updated protocol and instead can jump right into receiving the archive stream because...? > - status = packet_reader_read(&reader); > - if (status != PACKET_READ_FLUSH) > - die(_("git archive: expected a flush")); > - > /* Now, start reading from fd[0] and spit it out to stdout */ > rv = recv_sideband("archive", fd[0], 1); > rv |= transport_disconnect(transport); > diff --git a/builtin/upload-archive.c b/builtin/upload-archive.c > index 25d911635..534e8fd56 100644 > --- a/builtin/upload-archive.c > +++ b/builtin/upload-archive.c > @@ -5,6 +5,7 @@ > #include "builtin.h" > #include "archive.h" > #include "pkt-line.h" > +#include "protocol.h" > #include "sideband.h" > #include "run-command.h" > #include "argv-array.h" > @@ -73,13 +74,53 @@ static ssize_t process_input(int child_fd, int band) > return sz; > } > > +static int handle_v2_command_and_cap(void) > +{ > + struct packet_reader reader; > + enum packet_read_status status; > + > + packet_reader_init(&reader, 0, NULL, 0, PACKET_READ_CHOMP_NEWLINE); > + > + packet_write_fmt(1, "version 2\n"); This lets the discover_version() on the other side notice that we are speaking version 2. > + /* > + * We don't currently send any capabilities, but maybe we could list > + * supported archival formats? > + */ > + packet_flush(1); process_capabilities_v2() expects the list of caps ends with a flush, which is given here. > + status = packet_reader_read(&reader); > + if (status != PACKET_READ_NORMAL || > + strcmp(reader.buffer, "command=archive")) > + die(_("upload-archive: expected command=archive")); The other side in do_v2_command_and_cap() would ask command=archive and that is verified. _() is unwanted, I suppose, by the way, as you do not know what language the other side wants anyway. > + while (status == PACKET_READ_NORMAL) { > + /* We don't currently expect any client capabilities, but we > + * should still read (and ignore) any that happen to get sent. > + */ > + status = packet_reader_read(&reader); It is wrong to say we should "ignore". If you are asked to behave in a certain way by a capability that is not understood, the other side expects you to honor that request and you have no idea how to comply. At least you should make sure that what is asked is among the capabilities you offered (or you understand), and you should error out when you see an unknown one, no? > + } > + if (status != PACKET_READ_DELIM) > + die(_("upload-archive: expected delim packet")); > + > + /* Let git-upload-archive--writer handle the arguments. */ The choice of DELIM here over FLUSH is a bit curious, but it is consistent between upload-archive and run-remote-archiver. > + return 0; > +} > + > int cmd_upload_archive(int argc, const char **argv, const char *prefix) > { > struct child_process writer = { argv }; > + enum protocol_version version = determine_protocol_version_server(); > > if (argc == 2 && !strcmp(argv[1], "-h")) > usage(upload_archive_usage); > > + if (version == protocol_v2) > + handle_v2_command_and_cap(); > + else { > + packet_write_fmt(1, "ACK\n"); > + packet_flush(1); > + } > + This breaks the original protocol, no? At this point we haven't even tried to start the writer process, and letting the other side go by giving ACK + flush prematurely. After start_command() fails, we may say NACK, but the other side is no longer listening to it. > /* > * Set up sideband subprocess. > * > @@ -96,9 +137,6 @@ int cmd_upload_archive(int argc, const char **argv, const char *prefix) > die("upload-archive: %s", strerror(err)); > } > > - packet_write_fmt(1, "ACK\n"); > - packet_flush(1); > - > while (1) { > struct pollfd pfd[2]; > > diff --git a/t/t5000-tar-tree.sh b/t/t5000-tar-tree.sh > index 2a97b27b0..4be74d6e9 100755 > --- a/t/t5000-tar-tree.sh > +++ b/t/t5000-tar-tree.sh > @@ -145,6 +145,11 @@ test_expect_success \ > > check_tar b > > +test_expect_success 'protocol v2 for remote' ' > + GIT_PROTOCOL="version=2" git archive --remote=. HEAD >v2_remote.tar > +' > +check_tar v2_remote > + > test_expect_success 'git archive --prefix=prefix/' ' > git archive --prefix=prefix/ HEAD >with_prefix.tar > '