This is cvsclient.info, produced by Makeinfo version 3.12f from ./cvsclient.texi.  File: cvsclient.info, Node: Requests, Next: Response intro, Prev: Request intro, Up: Protocol Requests ======== Here are the requests: `Root PATHNAME \n' Response expected: no. Tell the server which `CVSROOT' to use. Note that PATHNAME is a local directory and _not_ a fully qualified `CVSROOT' variable. PATHNAME must already exist; if creating a new root, use the `init' request, not `Root'. PATHNAME does not include the hostname of the server, how to access the server, etc.; by the time the CVS protocol is in use, connection, authentication, etc., are already taken care of. The `Root' request must be sent only once, and it must be sent before any requests other than `Valid-responses', `valid-requests', `UseUnchanged', `Set' or `init'. `Valid-responses REQUEST-LIST \n' Response expected: no. Tell the server what responses the client will accept. request-list is a space separated list of tokens. `valid-requests \n' Response expected: yes. Ask the server to send back a `Valid-requests' response. `Directory LOCAL-DIRECTORY \n' Additional data: REPOSITORY \n. Response expected: no. Tell the server what directory to use. The REPOSITORY should be a directory name from a previous server response. Note that this both gives a default for `Entry' and `Modified' and also for `ci' and the other commands; normal usage is to send `Directory' for each directory in which there will be an `Entry' or `Modified', and then a final `Directory' for the original directory, then the command. The LOCAL-DIRECTORY is relative to the top level at which the command is occurring (i.e. the last `Directory' which is sent before the command); to indicate that top level, `.' should be sent for LOCAL-DIRECTORY. Here is an example of where a client gets REPOSITORY and LOCAL-DIRECTORY. Suppose that there is a module defined by moddir 1dir That is, one can check out `moddir' and it will take `1dir' in the repository and check it out to `moddir' in the working directory. Then an initial check out could proceed like this: C: Root /home/kingdon/zwork/cvsroot . . . C: Argument moddir C: Directory . C: /home/kingdon/zwork/cvsroot C: co S: Clear-sticky moddir/ S: /home/kingdon/zwork/cvsroot/1dir/ . . . S: ok In this example the response shown is `Clear-sticky', but it could be another response instead. Note that it returns two pathnames. The first one, `moddir/', indicates the working directory to check out into. The second one, ending in `1dir/', indicates the directory to pass back to the server in a subsequent `Directory' request. For example, a subsequent `update' request might look like: C: Directory moddir C: /home/kingdon/zwork/cvsroot/1dir . . . C: update For a given LOCAL-DIRECTORY, the repository will be the same for each of the responses, so one can use the repository from whichever response is most convenient. Typically a client will store the repository along with the sources for each LOCAL-DIRECTORY, use that same setting whenever operating on that LOCAL-DIRECTORY, and not update the setting as long as the LOCAL-DIRECTORY exists. A client is free to rename a LOCAL-DIRECTORY at any time (for example, in response to an explicit user request). While it is true that the server supplies a LOCAL-DIRECTORY to the client, as noted above, this is only the default place to put the directory. Of course, the various `Directory' requests for a single command (for example, `update' or `ci' request) should name a particular directory with the same LOCAL-DIRECTORY. Each `Directory' request specifies a brand-new LOCAL-DIRECTORY and REPOSITORY; that is, LOCAL-DIRECTORY and REPOSITORY are never relative to paths specified in any previous `Directory' request. Here's a more complex example, in which we request an update of a working directory which has been checked out from multiple places in the repository. C: Argument dir1 C: Directory dir1 C: /home/foo/repos/mod1 . . . C: Argument dir2 C: Directory dir2 C: /home/foo/repos/mod2 . . . C: Argument dir3 C: Directory dir3/subdir3 C: /home/foo/repos/mod3 . . . C: update While directories `dir1' and `dir2' will be handled in similar fashion to the other examples given above, `dir3' is slightly different from the server's standpoint. Notice that module `mod3' is actually checked out into `dir3/subdir3', meaning that directory `dir3' is either empty or does not contain data checked out from this repository. The above example will work correctly in CVS 1.10.1 and later. The server will descend the tree starting from all directories mentioned in `Argument' requests and update those directories specifically mentioned in `Directory' requests. Previous versions of CVS (1.10 and earlier) do not behave the same way. While the descent of the tree begins at all directories mentioned in `Argument' requests, descent into subdirectories only occurs if a directory has been mentioned in a `Directory' request. Therefore, the above example would succeed in updating `dir1' and `dir2', but would skip `dir3' because that directory was not specifically mentioned in a `Directory' request. A functional version of the above that would run on a 1.10 or earlier server is as follows: C: Argument dir1 C: Directory dir1 C: /home/foo/repos/mod1 . . . C: Argument dir2 C: Directory dir2 C: /home/foo/repos/mod2 . . . C: Argument dir3 C: Directory dir3 C: /home/foo/repos/. . . . C: Directory dir3/subdir3 C: /home/foo/repos/mod3 . . . C: update Note the extra `Directory dir3' request. It might be better to use `Emptydir' as the repository for the `dir3' directory, but the above will certainly work. One more peculiarity of the 1.10 and earlier protocol is the ordering of `Directory' arguments. In order for a subdirectory to be registered correctly for descent by the recursion processor, its parent must be sent first. For example, the following would not work to update `dir3/subdir3': . . . C: Argument dir3 C: Directory dir3/subdir3 C: /home/foo/repos/mod3 . . . C: Directory dir3 C: /home/foo/repos/. . . . C: update The implementation of the server in 1.10 and earlier writes the administration files for a given directory at the time of the `Directory' request. It also tries to register the directory with its parent to mark it for recursion. In the above example, at the time `dir3/subdir3' is created, the physical directory for `dir3' will be created on disk, but the administration files will not have been created. Therefore, when the server tries to register `dir3/subdir3' for recursion, the operation will silently fail because the administration files do not yet exist for `dir3'. `Max-dotdot LEVEL \n' Response expected: no. Tell the server that LEVEL levels of directories above the directory which `Directory' requests are relative to will be needed. For example, if the client is planning to use a `Directory' request for `../../foo', it must send a `Max-dotdot' request with a LEVEL of at least 2. `Max-dotdot' must be sent before the first `Directory' request. `Static-directory \n' Response expected: no. Tell the server that the directory most recently specified with `Directory' should not have additional files checked out unless explicitly requested. The client sends this if the `Entries.Static' flag is set, which is controlled by the `Set-static-directory' and `Clear-static-directory' responses. `Sticky TAGSPEC \n' Response expected: no. Tell the server that the directory most recently specified with `Directory' has a sticky tag or date TAGSPEC. The first character of TAGSPEC is `T' for a tag, `D' for a date, or some other character supplied by a Set-sticky response from a previous request to the server. The remainder of TAGSPEC contains the actual tag or date, again as supplied by Set-sticky. The server should remember `Static-directory' and `Sticky' requests for a particular directory; the client need not resend them each time it sends a `Directory' request for a given directory. However, the server is not obliged to remember them beyond the context of a single command. `Checkin-prog PROGRAM \n' Response expected: no. Tell the server that the directory most recently specified with `Directory' has a checkin program PROGRAM. Such a program would have been previously set with the `Set-checkin-prog' response. `Update-prog PROGRAM \n' Response expected: no. Tell the server that the directory most recently specified with `Directory' has an update program PROGRAM. Such a program would have been previously set with the `Set-update-prog' response. `Entry ENTRY-LINE \n' Response expected: no. Tell the server what version of a file is on the local machine. The name in ENTRY-LINE is a name relative to the directory most recently specified with `Directory'. If the user is operating on only some files in a directory, `Entry' requests for only those files need be included. If an `Entry' request is sent without `Modified', `Is-modified', or `Unchanged', it means the file is lost (does not exist in the working directory). If both `Entry' and one of `Modified', `Is-modified', or `Unchanged' are sent for the same file, `Entry' must be sent first. For a given file, one can send `Modified', `Is-modified', or `Unchanged', but not more than one of these three. `Kopt OPTION \n' This indicates to the server which keyword expansion options to use for the file specified by the next `Modified' or `Is-modified' request (for example `-kb' for a binary file). This is similar to `Entry', but is used for a file for which there is no entries line. Typically this will be a file being added via an `add' or `import' request. The client may not send both `Kopt' and `Entry' for the same file. `Checkin-time TIME \n' For the file specified by the next `Modified' request, use TIME as the time of the checkin. The TIME is in the format specified by RFC822 as modified by RFC1123. The client may specify any timezone it chooses; servers will want to convert that to their own timezone as appropriate. An example of this format is: 26 May 1997 13:01:40 -0400 There is no requirement that the client and server clocks be synchronized. The client just sends its recommendation for a timestamp (based on file timestamps or whatever), and the server should just believe it (this means that the time might be in the future, for example). Note that this is not a general-purpose way to tell the server about the timestamp of a file; that would be a separate request (if there are servers which can maintain timestamp and time of checkin separately). This request should affect the `import' request, and may optionally affect the `ci' request or other relevant requests if any. `Modified FILENAME \n' Response expected: no. Additional data: mode, \n, file transmission. Send the server a copy of one locally modified file. FILENAME is a file within the most recent directory sent with `Directory'; it must not contain `/'. If the user is operating on only some files in a directory, only those files need to be included. This can also be sent without `Entry', if there is no entry for the file. `Is-modified FILENAME \n' Response expected: no. Additional data: none. Like `Modified', but used if the server only needs to know whether the file is modified, not the contents. The commands which can take `Is-modified' instead of `Modified' with no known change in behavior are: `admin', `diff' (if and only if two `-r' or `-D' options are specified), `watch-on', `watch-off', `watch-add', `watch-remove', `watchers', `editors', `log', and `annotate'. For the `status' command, one can send `Is-modified' but if the client is using imperfect mechanisms such as timestamps to determine whether to consider a file modified, then the behavior will be different. That is, if one sends `Modified', then the server will actually compare the contents of the file sent and the one it derives from to determine whether the file is genuinely modified. But if one sends `Is-modified', then the server takes the client's word for it. A similar situation exists for `tag', if the `-c' option is specified. Commands for which `Modified' is necessary are `co', `ci', `update', and `import'. Commands which do not need to inform the server about a working directory, and thus should not be sending either `Modified' or `Is-modified': `rdiff', `rtag', `history', `init', and `release'. Commands for which further investigation is warranted are: `remove', `add', and `export'. Pending such investigation, the more conservative course of action is to stick to `Modified'. `Unchanged FILENAME \n' Response expected: no. Tell the server that FILENAME has not been modified in the checked out directory. The FILENAME is a file within the most recent directory sent with `Directory'; it must not contain `/'. `UseUnchanged \n' Response expected: no. To specify the version of the protocol described in this document, servers must support this request (although it need not do anything) and clients must issue it. `Notify FILENAME \n' Response expected: no. Tell the server that an `edit' or `unedit' command has taken place. The server needs to send a `Notified' response, but such response is deferred until the next time that the server is sending responses. The FILENAME is a file within the most recent directory sent with `Directory'; it must not contain `/'. Additional data: NOTIFICATION-TYPE \t TIME \t CLIENTHOST \t WORKING-DIR \t WATCHES \n where NOTIFICATION-TYPE is `E' for edit, `U' for unedit, undefined behavior if `C', and all other letters should be silently ignored for future expansion. TIME is the time at which the edit or unedit took place, in a user-readable format of the client's choice (the server should treat the time as an opaque string rather than interpreting it). CLIENTHOST is the name of the host on which the edit or unedit took place, and WORKING-DIR is the pathname of the working directory where the edit or unedit took place. WATCHES are the temporary watches, zero or more of the following characters in the following order: `E' for edit, `U' for unedit, `C' for commit, and all other letters should be silently ignored for future expansion. If NOTIFICATION-TYPE is `E' the temporary watches are set; if it is `U' they are cleared. If WATCHES is followed by \t then the \t and the rest of the line should be ignored, for future expansion. The TIME, CLIENTHOST, and WORKING-DIR fields may not contain the characters `+', `,', `>', `;', or `='. Note that a client may be capable of performing an `edit' or `unedit' operation without connecting to the server at that time, and instead connecting to the server when it is convenient (for example, when a laptop is on the net again) to send the `Notify' requests. Even if a client is capable of deferring notifications, it should attempt to send them immediately (one can send `Notify' requests together with a `noop' request, for example), unless perhaps if it can know that a connection would be impossible. `Questionable FILENAME \n' Response expected: no. Additional data: no. Tell the server to check whether FILENAME should be ignored, and if not, next time the server sends responses, send (in a `M' response) `?' followed by the directory and filename. FILENAME must not contain `/'; it needs to be a file in the directory named by the most recent `Directory' request. `Case \n' Response expected: no. Tell the server that filenames should be matched in a case-insensitive fashion. Note that this is not the primary mechanism for achieving case-insensitivity; for the most part the client keeps track of the case which the server wants to use and takes care to always use that case regardless of what the user specifies. For example the filenames given in `Entry' and `Modified' requests for the same file must match in case regardless of whether the `Case' request is sent. The latter mechanism is more general (it could also be used for 8.3 filenames, VMS filenames with more than one `.', and any other situation in which there is a predictable mapping between filenames in the working directory and filenames in the protocol), but there are some situations it cannot handle (ignore patterns, or situations where the user specifies a filename and the client does not know about that file). `Argument TEXT \n' Response expected: no. Save argument for use in a subsequent command. Arguments accumulate until an argument-using command is given, at which point they are forgotten. `Argumentx TEXT \n' Response expected: no. Append \n followed by text to the current argument being saved. `Global_option OPTION \n' Response expected: no. Transmit one of the global options `-q', `-Q', `-l', `-t', `-r', or `-n'. OPTION must be one of those strings, no variations (such as combining of options) are allowed. For graceful handling of `valid-requests', it is probably better to make new global options separate requests, rather than trying to add them to this request. `Gzip-stream LEVEL \n' Response expected: no. Use zlib (RFC 1950/1951) compression to compress all further communication between the client and the server. After this request is sent, all further communication must be compressed. All further data received from the server will also be compressed. The LEVEL argument suggests to the server the level of compression that it should apply; it should be an integer between 1 and 9, inclusive, where a higher number indicates more compression. `Kerberos-encrypt \n' Response expected: no. Use Kerberos encryption to encrypt all further communication between the client and the server. This will only work if the connection was made over Kerberos in the first place. If both the `Gzip-stream' and the `Kerberos-encrypt' requests are used, the `Kerberos-encrypt' request should be used first. This will make the client and server encrypt the compressed data, as opposed to compressing the encrypted data. Encrypted data is generally incompressible. Note that this request does not fully prevent an attacker from hijacking the connection, in the sense that it does not prevent hijacking the connection between the initial authentication and the `Kerberos-encrypt' request. `Gssapi-encrypt \n' Response expected: no. Use GSSAPI encryption to encrypt all further communication between the client and the server. This will only work if the connection was made over GSSAPI in the first place. See `Kerberos-encrypt', above, for the relation between `Gssapi-encrypt' and `Gzip-stream'. Note that this request does not fully prevent an attacker from hijacking the connection, in the sense that it does not prevent hijacking the connection between the initial authentication and the `Gssapi-encrypt' request. `Gssapi-authenticate \n' Response expected: no. Use GSSAPI authentication to authenticate all further communication between the client and the server. This will only work if the connection was made over GSSAPI in the first place. Encrypted data is automatically authenticated, so using both `Gssapi-authenticate' and `Gssapi-encrypt' has no effect beyond that of `Gssapi-encrypt'. Unlike encrypted data, it is reasonable to compress authenticated data. Note that this request does not fully prevent an attacker from hijacking the connection, in the sense that it does not prevent hijacking the connection between the initial authentication and the `Gssapi-authenticate' request. `Set VARIABLE=VALUE \n' Response expected: no. Set a user variable VARIABLE to VALUE. `expand-modules \n' Response expected: yes. Expand the modules which are specified in the arguments. Returns the data in `Module-expansion' responses. Note that the server can assume that this is checkout or export, not rtag or rdiff; the latter do not access the working directory and thus have no need to expand modules on the client side. Expand may not be the best word for what this request does. It does not necessarily tell you all the files contained in a module, for example. Basically it is a way of telling you which working directories the server needs to know about in order to handle a checkout of the specified modules. For example, suppose that the server has a module defined by aliasmodule -a 1dir That is, one can check out `aliasmodule' and it will take `1dir' in the repository and check it out to `1dir' in the working directory. Now suppose the client already has this module checked out and is planning on using the `co' request to update it. Without using `expand-modules', the client would have two bad choices: it could either send information about _all_ working directories under the current directory, which could be unnecessarily slow, or it could be ignorant of the fact that `aliasmodule' stands for `1dir', and neglect to send information for `1dir', which would lead to incorrect operation. With `expand-modules', the client would first ask for the module to be expanded: C: Root /home/kingdon/zwork/cvsroot . . . C: Argument aliasmodule C: Directory . C: /home/kingdon/zwork/cvsroot C: expand-modules S: Module-expansion 1dir S: ok and then it knows to check the `1dir' directory and send requests such as `Entry' and `Modified' for the files in that directory. `ci \n' `diff \n' `tag \n' `status \n' `log \n' `admin \n' `history \n' `watchers \n' `editors \n' `annotate \n' Response expected: yes. Actually do a cvs command. This uses any previous `Argument', `Directory', `Entry', or `Modified' requests, if they have been sent. The last `Directory' sent specifies the working directory at the time of the operation. No provision is made for any input from the user. This means that `ci' must use a `-m' argument if it wants to specify a log message. `co \n' Response expected: yes. Get files from the repository. This uses any previous `Argument', `Directory', `Entry', or `Modified' requests, if they have been sent. Arguments to this command are module names; the client cannot know what directories they correspond to except by (1) just sending the `co' request, and then seeing what directory names the server sends back in its responses, and (2) the `expand-modules' request. `export \n' Response expected: yes. Get files from the repository. This uses any previous `Argument', `Directory', `Entry', or `Modified' requests, if they have been sent. Arguments to this command are module names, as described for the `co' request. The intention behind this command is that a client can get sources from a server without storing CVS information about those sources. That is, a client probably should not count on being able to take the entries line returned in the `Created' response from an `export' request and send it in a future `Entry' request. Note that the entries line in the `Created' response must indicate whether the file is binary or text, so the client can create it correctly. `rdiff \n' `rtag \n' Response expected: yes. Actually do a cvs command. This uses any previous `Argument' requests, if they have been sent. The client should not send `Directory', `Entry', or `Modified' requests for this command; they are not used. Arguments to these commands are module names, as described for `co'. `init ROOT-NAME \n' Response expected: yes. If it doesn't already exist, create a CVS repository ROOT-NAME. Note that ROOT-NAME is a local directory and _not_ a fully qualified `CVSROOT' variable. The `Root' request need not have been previously sent. `update \n' Response expected: yes. Actually do a `cvs update' command. This uses any previous `Argument', `Directory', `Entry', or `Modified' requests, if they have been sent. The last `Directory' sent specifies the working directory at the time of the operation. The `-I' option is not used-files which the client can decide whether to ignore are not mentioned and the client sends the `Questionable' request for others. `import \n' Response expected: yes. Actually do a `cvs import' command. This uses any previous `Argument', `Directory', `Entry', or `Modified' requests, if they have been sent. The last `Directory' sent specifies the working directory at the time of the operation - unlike most commands, the repository field of each `Directory' request is ignored (it merely must point somewhere within the root). The files to be imported are sent in `Modified' requests (files which the client knows should be ignored are not sent; the server must still process the CVSROOT/cvsignore file unless -I ! is sent). A log message must have been specified with a `-m' argument. `add \n' Response expected: yes. Add a file or directory. This uses any previous `Argument', `Directory', `Entry', or `Modified' requests, if they have been sent. The last `Directory' sent specifies the working directory at the time of the operation. To add a directory, send the directory to be added using `Directory' and `Argument' requests. For example: C: Root /u/cvsroot . . . C: Argument nsdir C: Directory nsdir C: /u/cvsroot/1dir/nsdir C: Directory . C: /u/cvsroot/1dir C: add S: M Directory /u/cvsroot/1dir/nsdir added to the repository S: ok You will notice that the server does not signal to the client in any particular way that the directory has been successfully added. The client is supposed to just assume that the directory has been added and update its records accordingly. Note also that adding a directory is immediate; it does not wait until a `ci' request as files do. To add a file, send the file to be added using a `Modified' request. For example: C: Argument nfile C: Directory . C: /u/cvsroot/1dir C: Modified nfile C: u=rw,g=r,o=r C: 6 C: hello C: add S: E cvs server: scheduling file `nfile' for addition S: Mode u=rw,g=r,o=r S: Checked-in ./ S: /u/cvsroot/1dir/nfile S: /nfile/0/// S: E cvs server: use 'cvs commit' to add this file permanently S: ok Note that the file has not been added to the repository; the only effect of a successful `add' request, for a file, is to supply the client with a new entries line containing `0' to indicate an added file. In fact, the client probably could perform this operation without contacting the server, although using `add' does cause the server to perform a few more checks. The client sends a subsequent `ci' to actually add the file to the repository. Another quirk of the `add' request is that with CVS 1.9 and older, a pathname specified in an `Argument' request cannot contain `/'. There is no good reason for this restriction, and in fact more recent CVS servers don't have it. But the way to interoperate with the older servers is to ensure that all `Directory' requests for `add' (except those used to add directories, as described above), use `.' for LOCAL-DIRECTORY. Specifying another string for LOCAL-DIRECTORY may not get an error, but it will get you strange `Checked-in' responses from the buggy servers. `remove \n' Response expected: yes. Remove a file. This uses any previous `Argument', `Directory', `Entry', or `Modified' requests, if they have been sent. The last `Directory' sent specifies the working directory at the time of the operation. Note that this request does not actually do anything to the repository; the only effect of a successful `remove' request is to supply the client with a new entries line containing `-' to indicate a removed file. In fact, the client probably could perform this operation without contacting the server, although using `remove' may cause the server to perform a few more checks. The client sends a subsequent `ci' request to actually record the removal in the repository. `watch-on \n' `watch-off \n' `watch-add \n' `watch-remove \n' Response expected: yes. Actually do the `cvs watch on', `cvs watch off', `cvs watch add', and `cvs watch remove' commands, respectively. This uses any previous `Argument', `Directory', `Entry', or `Modified' requests, if they have been sent. The last `Directory' sent specifies the working directory at the time of the operation. `release \n' Response expected: yes. Note that a `cvs release' command has taken place and update the history file accordingly. `noop \n' Response expected: yes. This request is a null command in the sense that it doesn't do anything, but merely (as with any other requests expecting a response) sends back any responses pertaining to pending errors, pending `Notified' responses, etc. `update-patches \n' Response expected: yes. This request does not actually do anything. It is used as a signal that the server is able to generate patches when given an `update' request. The client must issue the `-u' argument to `update' in order to receive patches. `gzip-file-contents LEVEL \n' Response expected: no. Note that this request does not follow the response convention stated above. `Gzip-stream' is suggested instead of `gzip-file-contents' as it gives better compression; the only reason to implement the latter is to provide compression with CVS 1.8 and earlier. The `gzip-file-contents' request asks the server to compress files it sends to the client using `gzip' (RFC1952/1951) compression, using the specified level of compression. If this request is not made, the server must not compress files. This is only a hint to the server. It may still decide (for example, in the case of very small files, or files that already appear to be compressed) not to do the compression. Compression is indicated by a `z' preceding the file length. Availability of this request in the server indicates to the client that it may compress files sent to the server, regardless of whether the client actually uses this request. `wrapper-sendme-rcsOptions \n' Response expected: yes. Request that the server transmit mappings from filenames to keyword expansion modes in `Wrapper-rcsOption' responses. `OTHER-REQUEST TEXT \n' Response expected: yes. Any unrecognized request expects a response, and does not contain any additional data. The response will normally be something like `error unrecognized request', but it could be a different error if a previous request which doesn't expect a response produced an error. When the client is done, it drops the connection.  File: cvsclient.info, Node: Response intro, Next: Response pathnames, Prev: Requests, Up: Protocol Introduction to Responses ========================= After a command which expects a response, the server sends however many of the following responses are appropriate. The server should not send data at other times (the current implementation may violate this principle in a few minor places, where the server is printing an error message and exiting--this should be investigated further). Any set of responses always ends with `error' or `ok'. This indicates that the response is over. The responses `Checked-in', `New-entry', `Updated', `Created', `Update-existing', `Merged', and `Patched' are refered to as "file updating" responses, because they change the status of a file in the working directory in some way. The responses `Mode', `Mod-time', and `Checksum' are referred to as "file update modifying" responses because they modify the next file updating response. In no case shall a file update modifying response apply to a file updating response other than the next one. Nor can the same file update modifying response occur twice for a given file updating response (if servers diagnose this problem, it may aid in detecting the case where clients send an update modifying response without following it by a file updating response).  File: cvsclient.info, Node: Response pathnames, Next: Responses, Prev: Response intro, Up: Protocol The "pathname" in responses =========================== Many of the responses contain something called PATHNAME. The name is somewhat misleading; it actually indicates a pair of pathnames. First, a local directory name relative to the directory in which the command was given (i.e. the last `Directory' before the command). Then a linefeed and a repository name. Then a slash and the filename (without a `,v' ending). For example, for a file `i386.mh' which is in the local directory `gas.clean/config' and for which the repository is `/rel/cvsfiles/devo/gas/config': gas.clean/config/ /rel/cvsfiles/devo/gas/config/i386.mh If the server wants to tell the client to create a directory, then it merely uses the directory in any response, as described above, and the client should create the directory if it does not exist. Note that this should only be done one directory at a time, in order to permit the client to correctly store the repository for each directory. Servers can use requests such as `Clear-sticky', `Clear-static-directory', or any other requests, to create directories. Some server implementations may poorly distinguish between a directory which should not exist and a directory which contains no files; in order to refrain from creating empty directories a client should both send the `-P' option to `update' or `co', and should also detect the case in which the server asks to create a directory but not any files within it (in that case the client should remove the directory or refrain from creating it in the first place). Note that servers could clean this up greatly by only telling the client to create directories if the directory in question should exist, but until servers do this, clients will need to offer the `-P' behavior described above.