/* * sftp.c: SFTP generic client code. */ #include #include #include #include #include #include "misc.h" #include "tree234.h" #include "sftp.h" static const char *fxp_error_message; static int fxp_errtype; static void fxp_internal_error(const char *msg); /* ---------------------------------------------------------------------- * Client-specific parts of the send- and receive-packet system. */ bool sftp_send(struct sftp_packet *pkt) { bool ret; sftp_send_prepare(pkt); ret = sftp_senddata(pkt->data, pkt->length); sftp_pkt_free(pkt); return ret; } struct sftp_packet *sftp_recv(void) { struct sftp_packet *pkt; char x[4]; if (!sftp_recvdata(x, 4)) return NULL; pkt = sftp_recv_prepare(GET_32BIT_MSB_FIRST(x)); if (!sftp_recvdata(pkt->data, pkt->length)) { sftp_pkt_free(pkt); return NULL; } if (!sftp_recv_finish(pkt)) { sftp_pkt_free(pkt); return NULL; } return pkt; } /* ---------------------------------------------------------------------- * Request ID allocation and temporary dispatch routines. */ #define REQUEST_ID_OFFSET 256 struct sftp_request { unsigned id; bool registered; void *userdata; }; static int sftp_reqcmp(void *av, void *bv) { struct sftp_request *a = (struct sftp_request *)av; struct sftp_request *b = (struct sftp_request *)bv; if (a->id < b->id) return -1; if (a->id > b->id) return +1; return 0; } static int sftp_reqfind(void *av, void *bv) { unsigned *a = (unsigned *) av; struct sftp_request *b = (struct sftp_request *)bv; if (*a < b->id) return -1; if (*a > b->id) return +1; return 0; } static tree234 *sftp_requests; static struct sftp_request *sftp_alloc_request(void) { unsigned low, high, mid; int tsize; struct sftp_request *r; if (sftp_requests == NULL) sftp_requests = newtree234(sftp_reqcmp); /* * First-fit allocation of request IDs: always pick the lowest * unused one. To do this, binary-search using the counted * B-tree to find the largest ID which is in a contiguous * sequence from the beginning. (Precisely everything in that * sequence must have ID equal to its tree index plus * REQUEST_ID_OFFSET.) */ tsize = count234(sftp_requests); low = -1; high = tsize; while (high - low > 1) { mid = (high + low) / 2; r = index234(sftp_requests, mid); if (r->id == mid + REQUEST_ID_OFFSET) low = mid; /* this one is fine */ else high = mid; /* this one is past it */ } /* * Now low points to either -1, or the tree index of the * largest ID in the initial sequence. */ { unsigned i = low + 1 + REQUEST_ID_OFFSET; assert(NULL == find234(sftp_requests, &i, sftp_reqfind)); } /* * So the request ID we need to create is * low + 1 + REQUEST_ID_OFFSET. */ r = snew(struct sftp_request); r->id = low + 1 + REQUEST_ID_OFFSET; r->registered = false; r->userdata = NULL; add234(sftp_requests, r); return r; } void sftp_cleanup_request(void) { if (sftp_requests != NULL) { freetree234(sftp_requests); sftp_requests = NULL; } } void sftp_register(struct sftp_request *req) { req->registered = true; } struct sftp_request *sftp_find_request(struct sftp_packet *pktin) { unsigned id; struct sftp_request *req; if (!pktin) { fxp_internal_error("did not receive a valid SFTP packet\n"); return NULL; } id = get_uint32(pktin); if (get_err(pktin)) { fxp_internal_error("did not receive a valid SFTP packet\n"); return NULL; } req = find234(sftp_requests, &id, sftp_reqfind); if (!req || !req->registered) { fxp_internal_error("request ID mismatch\n"); return NULL; } del234(sftp_requests, req); return req; } /* ---------------------------------------------------------------------- * SFTP primitives. */ /* * Deal with (and free) an FXP_STATUS packet. Return 1 if * SSH_FX_OK, 0 if SSH_FX_EOF, and -1 for anything else (error). * Also place the status into fxp_errtype. */ static int fxp_got_status(struct sftp_packet *pktin) { static const char *const messages[] = { /* SSH_FX_OK. The only time we will display a _message_ for this * is if we were expecting something other than FXP_STATUS on * success, so this is actually an error message! */ "unexpected OK response", "end of file", "no such file or directory", "permission denied", "failure", "bad message", "no connection", "connection lost", "operation unsupported", }; if (pktin->type != SSH_FXP_STATUS) { fxp_error_message = "expected FXP_STATUS packet"; fxp_errtype = -1; } else { fxp_errtype = get_uint32(pktin); if (get_err(pktin)) { fxp_error_message = "malformed FXP_STATUS packet"; fxp_errtype = -1; } else { if (fxp_errtype < 0 || fxp_errtype >= lenof(messages)) fxp_error_message = "unknown error code"; else fxp_error_message = messages[fxp_errtype]; } } if (fxp_errtype == SSH_FX_OK) return 1; else if (fxp_errtype == SSH_FX_EOF) return 0; else return -1; } static void fxp_internal_error(const char *msg) { fxp_error_message = msg; fxp_errtype = -1; } const char *fxp_error(void) { return fxp_error_message; } int fxp_error_type(void) { return fxp_errtype; } /* * Perform exchange of init/version packets. Return 0 on failure. */ bool fxp_init(void) { struct sftp_packet *pktout, *pktin; unsigned long remotever; pktout = sftp_pkt_init(SSH_FXP_INIT); put_uint32(pktout, SFTP_PROTO_VERSION); sftp_send(pktout); pktin = sftp_recv(); if (!pktin) { fxp_internal_error("could not connect"); return false; } if (pktin->type != SSH_FXP_VERSION) { fxp_internal_error("did not receive FXP_VERSION"); sftp_pkt_free(pktin); return false; } remotever = get_uint32(pktin); if (get_err(pktin)) { fxp_internal_error("malformed FXP_VERSION packet"); sftp_pkt_free(pktin); return false; } if (remotever > SFTP_PROTO_VERSION) { fxp_internal_error ("remote protocol is more advanced than we support"); sftp_pkt_free(pktin); return false; } /* * In principle, this packet might also contain extension- * string pairs. We should work through them and look for any * we recognise. In practice we don't currently do so because * we know we don't recognise _any_. */ sftp_pkt_free(pktin); return true; } /* * Canonify a pathname. */ struct sftp_request *fxp_realpath_send(const char *path) { struct sftp_request *req = sftp_alloc_request(); struct sftp_packet *pktout; pktout = sftp_pkt_init(SSH_FXP_REALPATH); put_uint32(pktout, req->id); put_stringz(pktout, path); sftp_send(pktout); return req; } char *fxp_realpath_recv(struct sftp_packet *pktin, struct sftp_request *req) { sfree(req); if (pktin->type == SSH_FXP_NAME) { unsigned long count; char *path; ptrlen name; count = get_uint32(pktin); if (get_err(pktin) || count != 1) { fxp_internal_error("REALPATH did not return name count of 1\n"); sftp_pkt_free(pktin); return NULL; } name = get_string(pktin); if (get_err(pktin)) { fxp_internal_error("REALPATH returned malformed FXP_NAME\n"); sftp_pkt_free(pktin); return NULL; } path = mkstr(name); sftp_pkt_free(pktin); return path; } else { fxp_got_status(pktin); sftp_pkt_free(pktin); return NULL; } } /* * Open a file. */ struct sftp_request *fxp_open_send(const char *path, int type, const struct fxp_attrs *attrs) { struct sftp_request *req = sftp_alloc_request(); struct sftp_packet *pktout; pktout = sftp_pkt_init(SSH_FXP_OPEN); put_uint32(pktout, req->id); put_stringz(pktout, path); put_uint32(pktout, type); put_fxp_attrs(pktout, attrs ? *attrs : no_attrs); sftp_send(pktout); return req; } static struct fxp_handle *fxp_got_handle(struct sftp_packet *pktin) { ptrlen id; struct fxp_handle *handle; id = get_string(pktin); if (get_err(pktin)) { fxp_internal_error("received malformed FXP_HANDLE"); sftp_pkt_free(pktin); return NULL; } handle = snew(struct fxp_handle); handle->hstring = mkstr(id); handle->hlen = id.len; sftp_pkt_free(pktin); return handle; } struct fxp_handle *fxp_open_recv(struct sftp_packet *pktin, struct sftp_request *req) { sfree(req); if (pktin->type == SSH_FXP_HANDLE) { return fxp_got_handle(pktin); } else { fxp_got_status(pktin); sftp_pkt_free(pktin); return NULL; } } /* * Open a directory. */ struct sftp_request *fxp_opendir_send(const char *path) { struct sftp_request *req = sftp_alloc_request(); struct sftp_packet *pktout; pktout = sftp_pkt_init(SSH_FXP_OPENDIR); put_uint32(pktout, req->id); put_stringz(pktout, path); sftp_send(pktout); return req; } struct fxp_handle *fxp_opendir_recv(struct sftp_packet *pktin, struct sftp_request *req) { sfree(req); if (pktin->type == SSH_FXP_HANDLE) { return fxp_got_handle(pktin); } else { fxp_got_status(pktin); sftp_pkt_free(pktin); return NULL; } } /* * Close a file/dir. */ struct sftp_request *fxp_close_send(struct fxp_handle *handle) { struct sftp_request *req = sftp_alloc_request(); struct sftp_packet *pktout; pktout = sftp_pkt_init(SSH_FXP_CLOSE); put_uint32(pktout, req->id); put_string(pktout, handle->hstring, handle->hlen); sftp_send(pktout); sfree(handle->hstring); sfree(handle); return req; } bool fxp_close_recv(struct sftp_packet *pktin, struct sftp_request *req) { sfree(req); fxp_got_status(pktin); sftp_pkt_free(pktin); return fxp_errtype == SSH_FX_OK; } struct sftp_request *fxp_mkdir_send(const char *path, const struct fxp_attrs *attrs) { struct sftp_request *req = sftp_alloc_request(); struct sftp_packet *pktout; pktout = sftp_pkt_init(SSH_FXP_MKDIR); put_uint32(pktout, req->id); put_stringz(pktout, path); put_fxp_attrs(pktout, attrs ? *attrs : no_attrs); sftp_send(pktout); return req; } bool fxp_mkdir_recv(struct sftp_packet *pktin, struct sftp_request *req) { int id; sfree(req); id = fxp_got_status(pktin); sftp_pkt_free(pktin); return id == 1; } struct sftp_request *fxp_rmdir_send(const char *path) { struct sftp_request *req = sftp_alloc_request(); struct sftp_packet *pktout; pktout = sftp_pkt_init(SSH_FXP_RMDIR); put_uint32(pktout, req->id); put_stringz(pktout, path); sftp_send(pktout); return req; } bool fxp_rmdir_recv(struct sftp_packet *pktin, struct sftp_request *req) { int id; sfree(req); id = fxp_got_status(pktin); sftp_pkt_free(pktin); return id == 1; } struct sftp_request *fxp_remove_send(const char *fname) { struct sftp_request *req = sftp_alloc_request(); struct sftp_packet *pktout; pktout = sftp_pkt_init(SSH_FXP_REMOVE); put_uint32(pktout, req->id); put_stringz(pktout, fname); sftp_send(pktout); return req; } bool fxp_remove_recv(struct sftp_packet *pktin, struct sftp_request *req) { int id; sfree(req); id = fxp_got_status(pktin); sftp_pkt_free(pktin); return id == 1; } struct sftp_request *fxp_rename_send(const char *srcfname, const char *dstfname) { struct sftp_request *req = sftp_alloc_request(); struct sftp_packet *pktout; pktout = sftp_pkt_init(SSH_FXP_RENAME); put_uint32(pktout, req->id); put_stringz(pktout, srcfname); put_stringz(pktout, dstfname); sftp_send(pktout); return req; } bool fxp_rename_recv(struct sftp_packet *pktin, struct sftp_request *req) { int id; sfree(req); id = fxp_got_status(pktin); sftp_pkt_free(pktin); return id == 1; } /* * Retrieve the attributes of a file. We have fxp_stat which works * on filenames, and fxp_fstat which works on open file handles. */ struct sftp_request *fxp_stat_send(const char *fname) { struct sftp_request *req = sftp_alloc_request(); struct sftp_packet *pktout; pktout = sftp_pkt_init(SSH_FXP_STAT); put_uint32(pktout, req->id); put_stringz(pktout, fname); sftp_send(pktout); return req; } static bool fxp_got_attrs(struct sftp_packet *pktin, struct fxp_attrs *attrs) { get_fxp_attrs(pktin, attrs); if (get_err(pktin)) { fxp_internal_error("malformed SSH_FXP_ATTRS packet"); sftp_pkt_free(pktin); return false; } sftp_pkt_free(pktin); return true; } bool fxp_stat_recv(struct sftp_packet *pktin, struct sftp_request *req, struct fxp_attrs *attrs) { sfree(req); if (pktin->type == SSH_FXP_ATTRS) { return fxp_got_attrs(pktin, attrs); } else { fxp_got_status(pktin); sftp_pkt_free(pktin); return false; } } struct sftp_request *fxp_fstat_send(struct fxp_handle *handle) { struct sftp_request *req = sftp_alloc_request(); struct sftp_packet *pktout; pktout = sftp_pkt_init(SSH_FXP_FSTAT); put_uint32(pktout, req->id); put_string(pktout, handle->hstring, handle->hlen); sftp_send(pktout); return req; } bool fxp_fstat_recv(struct sftp_packet *pktin, struct sftp_request *req, struct fxp_attrs *attrs) { sfree(req); if (pktin->type == SSH_FXP_ATTRS) { return fxp_got_attrs(pktin, attrs); sftp_pkt_free(pktin); return true; } else { fxp_got_status(pktin); sftp_pkt_free(pktin); return false; } } /* * Set the attributes of a file. */ struct sftp_request *fxp_setstat_send(const char *fname, struct fxp_attrs attrs) { struct sftp_request *req = sftp_alloc_request(); struct sftp_packet *pktout; pktout = sftp_pkt_init(SSH_FXP_SETSTAT); put_uint32(pktout, req->id); put_stringz(pktout, fname); put_fxp_attrs(pktout, attrs); sftp_send(pktout); return req; } bool fxp_setstat_recv(struct sftp_packet *pktin, struct sftp_request *req) { int id; sfree(req); id = fxp_got_status(pktin); sftp_pkt_free(pktin); return id == 1; } struct sftp_request *fxp_fsetstat_send(struct fxp_handle *handle, struct fxp_attrs attrs) { struct sftp_request *req = sftp_alloc_request(); struct sftp_packet *pktout; pktout = sftp_pkt_init(SSH_FXP_FSETSTAT); put_uint32(pktout, req->id); put_string(pktout, handle->hstring, handle->hlen); put_fxp_attrs(pktout, attrs); sftp_send(pktout); return req; } bool fxp_fsetstat_recv(struct sftp_packet *pktin, struct sftp_request *req) { int id; sfree(req); id = fxp_got_status(pktin); sftp_pkt_free(pktin); return id == 1; } /* * Read from a file. Returns the number of bytes read, or -1 on an * error, or possibly 0 if EOF. (I'm not entirely sure whether it * will return 0 on EOF, or return -1 and store SSH_FX_EOF in the * error indicator. It might even depend on the SFTP server.) */ struct sftp_request *fxp_read_send(struct fxp_handle *handle, uint64_t offset, int len) { struct sftp_request *req = sftp_alloc_request(); struct sftp_packet *pktout; pktout = sftp_pkt_init(SSH_FXP_READ); put_uint32(pktout, req->id); put_string(pktout, handle->hstring, handle->hlen); put_uint64(pktout, offset); put_uint32(pktout, len); sftp_send(pktout); return req; } int fxp_read_recv(struct sftp_packet *pktin, struct sftp_request *req, char *buffer, int len) { sfree(req); if (pktin->type == SSH_FXP_DATA) { ptrlen data; data = get_string(pktin); if (get_err(pktin)) { fxp_internal_error("READ returned malformed SSH_FXP_DATA packet"); sftp_pkt_free(pktin); return -1; } if (data.len > len) { fxp_internal_error("READ returned more bytes than requested"); sftp_pkt_free(pktin); return -1; } memcpy(buffer, data.ptr, data.len); sftp_pkt_free(pktin); return data.len; } else { fxp_got_status(pktin); sftp_pkt_free(pktin); return -1; } } /* * Read from a directory. */ struct sftp_request *fxp_readdir_send(struct fxp_handle *handle) { struct sftp_request *req = sftp_alloc_request(); struct sftp_packet *pktout; pktout = sftp_pkt_init(SSH_FXP_READDIR); put_uint32(pktout, req->id); put_string(pktout, handle->hstring, handle->hlen); sftp_send(pktout); return req; } struct fxp_names *fxp_readdir_recv(struct sftp_packet *pktin, struct sftp_request *req) { sfree(req); if (pktin->type == SSH_FXP_NAME) { struct fxp_names *ret; unsigned long i; i = get_uint32(pktin); /* * Sanity-check the number of names. Minimum is obviously * zero. Maximum is the remaining space in the packet * divided by the very minimum length of a name, which is * 12 bytes (4 for an empty filename, 4 for an empty * longname, 4 for a set of attribute flags indicating that * no other attributes are supplied). */ if (get_err(pktin) || i > get_avail(pktin) / 12) { fxp_internal_error("malformed FXP_NAME packet"); sftp_pkt_free(pktin); return NULL; } /* * Ensure the implicit multiplication in the snewn() call * doesn't suffer integer overflow and cause us to malloc * too little space. */ if (i > INT_MAX / sizeof(struct fxp_name)) { fxp_internal_error("unreasonably large FXP_NAME packet"); sftp_pkt_free(pktin); return NULL; } ret = snew(struct fxp_names); ret->nnames = i; ret->names = snewn(ret->nnames, struct fxp_name); for (i = 0; i < (unsigned long)ret->nnames; i++) { ret->names[i].filename = mkstr(get_string(pktin)); ret->names[i].longname = mkstr(get_string(pktin)); get_fxp_attrs(pktin, &ret->names[i].attrs); } if (get_err(pktin)) { fxp_internal_error("malformed FXP_NAME packet"); for (i = 0; i < (unsigned long)ret->nnames; i++) { sfree(ret->names[i].filename); sfree(ret->names[i].longname); } sfree(ret->names); sfree(ret); sfree(pktin); return NULL; } sftp_pkt_free(pktin); return ret; } else { fxp_got_status(pktin); sftp_pkt_free(pktin); return NULL; } } /* * Write to a file. Returns 0 on error, 1 on OK. */ struct sftp_request *fxp_write_send(struct fxp_handle *handle, void *buffer, uint64_t offset, int len) { struct sftp_request *req = sftp_alloc_request(); struct sftp_packet *pktout; pktout = sftp_pkt_init(SSH_FXP_WRITE); put_uint32(pktout, req->id); put_string(pktout, handle->hstring, handle->hlen); put_uint64(pktout, offset); put_string(pktout, buffer, len); sftp_send(pktout); return req; } bool fxp_write_recv(struct sftp_packet *pktin, struct sftp_request *req) { sfree(req); fxp_got_status(pktin); sftp_pkt_free(pktin); return fxp_errtype == SSH_FX_OK; } /* * Free up an fxp_names structure. */ void fxp_free_names(struct fxp_names *names) { int i; for (i = 0; i < names->nnames; i++) { sfree(names->names[i].filename); sfree(names->names[i].longname); } sfree(names->names); sfree(names); } /* * Duplicate an fxp_name structure. */ struct fxp_name *fxp_dup_name(struct fxp_name *name) { struct fxp_name *ret; ret = snew(struct fxp_name); ret->filename = dupstr(name->filename); ret->longname = dupstr(name->longname); ret->attrs = name->attrs; /* structure copy */ return ret; } /* * Free up an fxp_name structure. */ void fxp_free_name(struct fxp_name *name) { sfree(name->filename); sfree(name->longname); sfree(name); } /* * Store user data in an sftp_request structure. */ void *fxp_get_userdata(struct sftp_request *req) { return req->userdata; } void fxp_set_userdata(struct sftp_request *req, void *data) { req->userdata = data; } /* * A wrapper to go round fxp_read_* and fxp_write_*, which manages * the queueing of multiple read/write requests. */ struct req { char *buffer; int len, retlen, complete; uint64_t offset; struct req *next, *prev; }; struct fxp_xfer { uint64_t offset, furthestdata, filesize; int req_totalsize, req_maxsize; bool eof, err; struct fxp_handle *fh; struct req *head, *tail; }; static struct fxp_xfer *xfer_init(struct fxp_handle *fh, uint64_t offset) { struct fxp_xfer *xfer = snew(struct fxp_xfer); xfer->fh = fh; xfer->offset = offset; xfer->head = xfer->tail = NULL; xfer->req_totalsize = 0; xfer->req_maxsize = 1048576; xfer->err = false; xfer->filesize = UINT64_MAX; xfer->furthestdata = 0; return xfer; } bool xfer_done(struct fxp_xfer *xfer) { /* * We're finished if we've seen EOF _and_ there are no * outstanding requests. */ return (xfer->eof || xfer->err) && !xfer->head; } void xfer_download_queue(struct fxp_xfer *xfer) { while (xfer->req_totalsize < xfer->req_maxsize && !xfer->eof && !xfer->err) { /* * Queue a new read request. */ struct req *rr; struct sftp_request *req; rr = snew(struct req); rr->offset = xfer->offset; rr->complete = 0; if (xfer->tail) { xfer->tail->next = rr; rr->prev = xfer->tail; } else { xfer->head = rr; rr->prev = NULL; } xfer->tail = rr; rr->next = NULL; rr->len = 32768; rr->buffer = snewn(rr->len, char); sftp_register(req = fxp_read_send(xfer->fh, rr->offset, rr->len)); fxp_set_userdata(req, rr); xfer->offset += rr->len; xfer->req_totalsize += rr->len; #ifdef DEBUG_DOWNLOAD printf("queueing read request %p at %"PRIu64"\n", rr, rr->offset); #endif } } struct fxp_xfer *xfer_download_init(struct fxp_handle *fh, uint64_t offset) { struct fxp_xfer *xfer = xfer_init(fh, offset); xfer->eof = false; xfer_download_queue(xfer); return xfer; } /* * Returns INT_MIN to indicate that it didn't even get as far as * fxp_read_recv and hence has not freed pktin. */ int xfer_download_gotpkt(struct fxp_xfer *xfer, struct sftp_packet *pktin) { struct sftp_request *rreq; struct req *rr; rreq = sftp_find_request(pktin); if (!rreq) return INT_MIN; /* this packet doesn't even make sense */ rr = (struct req *)fxp_get_userdata(rreq); if (!rr) { fxp_internal_error("request ID is not part of the current download"); return INT_MIN; /* this packet isn't ours */ } rr->retlen = fxp_read_recv(pktin, rreq, rr->buffer, rr->len); #ifdef DEBUG_DOWNLOAD printf("read request %p has returned [%d]\n", rr, rr->retlen); #endif if ((rr->retlen < 0 && fxp_error_type()==SSH_FX_EOF) || rr->retlen == 0) { xfer->eof = true; rr->retlen = 0; rr->complete = -1; #ifdef DEBUG_DOWNLOAD printf("setting eof\n"); #endif } else if (rr->retlen < 0) { /* some error other than EOF; signal it back to caller */ xfer_set_error(xfer); rr->complete = -1; return -1; } rr->complete = 1; /* * Special case: if we have received fewer bytes than we * actually read, we should do something. For the moment I'll * just throw an ersatz FXP error to signal this; the SFTP * draft I've got says that it can't happen except on special * files, in which case seeking probably has very little * meaning and so queueing an additional read request to fill * up the gap sounds like the wrong answer. I'm not sure what I * should be doing here - if it _was_ a special file, I suspect * I simply shouldn't have been queueing multiple requests in * the first place... */ if (rr->retlen > 0 && xfer->furthestdata < rr->offset) { xfer->furthestdata = rr->offset; #ifdef DEBUG_DOWNLOAD printf("setting furthestdata = %"PRIu64"\n", xfer->furthestdata); #endif } if (rr->retlen < rr->len) { uint64_t filesize = rr->offset + (rr->retlen < 0 ? 0 : rr->retlen); #ifdef DEBUG_DOWNLOAD printf("short block! trying filesize = %"PRIu64"\n", filesize); #endif if (xfer->filesize > filesize) { xfer->filesize = filesize; #ifdef DEBUG_DOWNLOAD printf("actually changing filesize\n"); #endif } } if (xfer->furthestdata > xfer->filesize) { fxp_error_message = "received a short buffer from FXP_READ, but not" " at EOF"; fxp_errtype = -1; xfer_set_error(xfer); return -1; } return 1; } void xfer_set_error(struct fxp_xfer *xfer) { xfer->err = true; } bool xfer_download_data(struct fxp_xfer *xfer, void **buf, int *len) { void *retbuf = NULL; int retlen = 0; /* * Discard anything at the head of the rr queue with complete < * 0; return the first thing with complete > 0. */ while (xfer->head && xfer->head->complete && !retbuf) { struct req *rr = xfer->head; if (rr->complete > 0) { retbuf = rr->buffer; retlen = rr->retlen; #ifdef DEBUG_DOWNLOAD printf("handing back data from read request %p\n", rr); #endif } #ifdef DEBUG_DOWNLOAD else printf("skipping failed read request %p\n", rr); #endif xfer->head = xfer->head->next; if (xfer->head) xfer->head->prev = NULL; else xfer->tail = NULL; xfer->req_totalsize -= rr->len; sfree(rr); } if (retbuf) { *buf = retbuf; *len = retlen; return true; } else return false; } struct fxp_xfer *xfer_upload_init(struct fxp_handle *fh, uint64_t offset) { struct fxp_xfer *xfer = xfer_init(fh, offset); /* * We set `eof' to 1 because this will cause xfer_done() to * return true iff there are no outstanding requests. During an * upload, our caller will be responsible for working out * whether all the data has been sent, so all it needs to know * from us is whether the outstanding requests have been * handled once that's done. */ xfer->eof = true; return xfer; } bool xfer_upload_ready(struct fxp_xfer *xfer) { return sftp_sendbuffer() == 0; } void xfer_upload_data(struct fxp_xfer *xfer, char *buffer, int len) { struct req *rr; struct sftp_request *req; rr = snew(struct req); rr->offset = xfer->offset; rr->complete = 0; if (xfer->tail) { xfer->tail->next = rr; rr->prev = xfer->tail; } else { xfer->head = rr; rr->prev = NULL; } xfer->tail = rr; rr->next = NULL; rr->len = len; rr->buffer = NULL; sftp_register(req = fxp_write_send(xfer->fh, buffer, rr->offset, len)); fxp_set_userdata(req, rr); xfer->offset += rr->len; xfer->req_totalsize += rr->len; #ifdef DEBUG_UPLOAD printf("queueing write request %p at %"PRIu64" [len %d]\n", rr, rr->offset, len); #endif } /* * Returns INT_MIN to indicate that it didn't even get as far as * fxp_write_recv and hence has not freed pktin. */ int xfer_upload_gotpkt(struct fxp_xfer *xfer, struct sftp_packet *pktin) { struct sftp_request *rreq; struct req *rr, *prev, *next; bool ret; rreq = sftp_find_request(pktin); if (!rreq) return INT_MIN; /* this packet doesn't even make sense */ rr = (struct req *)fxp_get_userdata(rreq); if (!rr) { fxp_internal_error("request ID is not part of the current upload"); return INT_MIN; /* this packet isn't ours */ } ret = fxp_write_recv(pktin, rreq); #ifdef DEBUG_UPLOAD printf("write request %p has returned [%d]\n", rr, ret ? 1 : 0); #endif /* * Remove this one from the queue. */ prev = rr->prev; next = rr->next; if (prev) prev->next = next; else xfer->head = next; if (next) next->prev = prev; else xfer->tail = prev; xfer->req_totalsize -= rr->len; sfree(rr); if (!ret) return -1; return 1; } void xfer_cleanup(struct fxp_xfer *xfer) { struct req *rr; while (xfer->head) { rr = xfer->head; xfer->head = xfer->head->next; sfree(rr->buffer); sfree(rr); } sfree(xfer); }