/* * Copyright (C) the libgit2 contributors. All rights reserved. * * This file is part of libgit2, distributed under the GNU GPL v2 with * a Linking Exception. For full terms see the included COPYING file. */ #ifndef GIT_WINHTTP #include "git2.h" #include "http_parser.h" #include "buffer.h" #include "netops.h" #include "global.h" #include "remote.h" #include "smart.h" #include "auth.h" #include "auth_negotiate.h" #include "tls_stream.h" #include "socket_stream.h" #include "curl_stream.h" git_http_auth_scheme auth_schemes[] = { { GIT_AUTHTYPE_NEGOTIATE, "Negotiate", GIT_CREDTYPE_DEFAULT, git_http_auth_negotiate }, { GIT_AUTHTYPE_BASIC, "Basic", GIT_CREDTYPE_USERPASS_PLAINTEXT, git_http_auth_basic }, }; static const char *upload_pack_service = "upload-pack"; static const char *upload_pack_ls_service_url = "/info/refs?service=git-upload-pack"; static const char *upload_pack_service_url = "/git-upload-pack"; static const char *receive_pack_service = "receive-pack"; static const char *receive_pack_ls_service_url = "/info/refs?service=git-receive-pack"; static const char *receive_pack_service_url = "/git-receive-pack"; static const char *get_verb = "GET"; static const char *post_verb = "POST"; #define OWNING_SUBTRANSPORT(s) ((http_subtransport *)(s)->parent.subtransport) #define PARSE_ERROR_GENERIC -1 #define PARSE_ERROR_REPLAY -2 /** Look at the user field */ #define PARSE_ERROR_EXT -3 #define CHUNK_SIZE 4096 enum last_cb { NONE, FIELD, VALUE }; typedef struct { git_smart_subtransport_stream parent; const char *service; const char *service_url; char *redirect_url; const char *verb; char *chunk_buffer; unsigned chunk_buffer_len; unsigned sent_request : 1, received_response : 1, chunked : 1, redirect_count : 3; } http_stream; typedef struct { git_smart_subtransport parent; transport_smart *owner; git_stream *io; gitno_connection_data connection_data; bool connected; /* Parser structures */ http_parser parser; http_parser_settings settings; gitno_buffer parse_buffer; git_buf parse_header_name; git_buf parse_header_value; char parse_buffer_data[NETIO_BUFSIZE]; char *content_type; char *location; git_vector www_authenticate; enum last_cb last_cb; int parse_error; int error; unsigned parse_finished : 1; /* Authentication */ git_cred *cred; git_cred *url_cred; git_vector auth_contexts; } http_subtransport; typedef struct { http_stream *s; http_subtransport *t; /* Target buffer details from read() */ char *buffer; size_t buf_size; size_t *bytes_read; } parser_context; static bool credtype_match(git_http_auth_scheme *scheme, void *data) { unsigned int credtype = *(unsigned int *)data; return !!(scheme->credtypes & credtype); } static bool challenge_match(git_http_auth_scheme *scheme, void *data) { const char *scheme_name = scheme->name; const char *challenge = (const char *)data; size_t scheme_len; scheme_len = strlen(scheme_name); return (strncasecmp(challenge, scheme_name, scheme_len) == 0 && (challenge[scheme_len] == '\0' || challenge[scheme_len] == ' ')); } static int auth_context_match( git_http_auth_context **out, http_subtransport *t, bool (*scheme_match)(git_http_auth_scheme *scheme, void *data), void *data) { git_http_auth_scheme *scheme = NULL; git_http_auth_context *context = NULL, *c; size_t i; *out = NULL; for (i = 0; i < ARRAY_SIZE(auth_schemes); i++) { if (scheme_match(&auth_schemes[i], data)) { scheme = &auth_schemes[i]; break; } } if (!scheme) return 0; /* See if authentication has already started for this scheme */ git_vector_foreach(&t->auth_contexts, i, c) { if (c->type == scheme->type) { context = c; break; } } if (!context) { if (scheme->init_context(&context, &t->connection_data) < 0) return -1; else if (!context) return 0; else if (git_vector_insert(&t->auth_contexts, context) < 0) return -1; } *out = context; return 0; } static int apply_credentials(git_buf *buf, http_subtransport *t) { git_cred *cred = t->cred; git_http_auth_context *context; /* Apply the credentials given to us in the URL */ if (!cred && t->connection_data.user && t->connection_data.pass) { if (!t->url_cred && git_cred_userpass_plaintext_new(&t->url_cred, t->connection_data.user, t->connection_data.pass) < 0) return -1; cred = t->url_cred; } if (!cred) return 0; /* Get or create a context for the best scheme for this cred type */ if (auth_context_match(&context, t, credtype_match, &cred->credtype) < 0) return -1; return context->next_token(buf, context, cred); } static const char *user_agent(void) { const char *custom = git_libgit2__user_agent(); if (custom) return custom; return "libgit2 " LIBGIT2_VERSION; } static int gen_request( git_buf *buf, http_stream *s, size_t content_length) { http_subtransport *t = OWNING_SUBTRANSPORT(s); const char *path = t->connection_data.path ? t->connection_data.path : "/"; size_t i; git_buf_printf(buf, "%s %s%s HTTP/1.1\r\n", s->verb, path, s->service_url); git_buf_printf(buf, "User-Agent: git/2.0 (%s)\r\n", user_agent()); git_buf_printf(buf, "Host: %s\r\n", t->connection_data.host); if (s->chunked || content_length > 0) { git_buf_printf(buf, "Accept: application/x-git-%s-result\r\n", s->service); git_buf_printf(buf, "Content-Type: application/x-git-%s-request\r\n", s->service); if (s->chunked) git_buf_puts(buf, "Transfer-Encoding: chunked\r\n"); else git_buf_printf(buf, "Content-Length: %"PRIuZ "\r\n", content_length); } else git_buf_puts(buf, "Accept: */*\r\n"); for (i = 0; i < t->owner->custom_headers.count; i++) { if (t->owner->custom_headers.strings[i]) git_buf_printf(buf, "%s\r\n", t->owner->custom_headers.strings[i]); } /* Apply credentials to the request */ if (apply_credentials(buf, t) < 0) return -1; git_buf_puts(buf, "\r\n"); if (git_buf_oom(buf)) return -1; return 0; } static int parse_authenticate_response( git_vector *www_authenticate, http_subtransport *t, int *allowed_types) { git_http_auth_context *context; char *challenge; size_t i; git_vector_foreach(www_authenticate, i, challenge) { if (auth_context_match(&context, t, challenge_match, challenge) < 0) return -1; else if (!context) continue; if (context->set_challenge && context->set_challenge(context, challenge) < 0) return -1; *allowed_types |= context->credtypes; } return 0; } static int on_header_ready(http_subtransport *t) { git_buf *name = &t->parse_header_name; git_buf *value = &t->parse_header_value; if (!strcasecmp("Content-Type", git_buf_cstr(name))) { if (!t->content_type) { t->content_type = git__strdup(git_buf_cstr(value)); GITERR_CHECK_ALLOC(t->content_type); } } else if (!strcasecmp("WWW-Authenticate", git_buf_cstr(name))) { char *dup = git__strdup(git_buf_cstr(value)); GITERR_CHECK_ALLOC(dup); git_vector_insert(&t->www_authenticate, dup); } else if (!strcasecmp("Location", git_buf_cstr(name))) { if (!t->location) { t->location = git__strdup(git_buf_cstr(value)); GITERR_CHECK_ALLOC(t->location); } } return 0; } static int on_header_field(http_parser *parser, const char *str, size_t len) { parser_context *ctx = (parser_context *) parser->data; http_subtransport *t = ctx->t; /* Both parse_header_name and parse_header_value are populated * and ready for consumption */ if (VALUE == t->last_cb) if (on_header_ready(t) < 0) return t->parse_error = PARSE_ERROR_GENERIC; if (NONE == t->last_cb || VALUE == t->last_cb) git_buf_clear(&t->parse_header_name); if (git_buf_put(&t->parse_header_name, str, len) < 0) return t->parse_error = PARSE_ERROR_GENERIC; t->last_cb = FIELD; return 0; } static int on_header_value(http_parser *parser, const char *str, size_t len) { parser_context *ctx = (parser_context *) parser->data; http_subtransport *t = ctx->t; assert(NONE != t->last_cb); if (FIELD == t->last_cb) git_buf_clear(&t->parse_header_value); if (git_buf_put(&t->parse_header_value, str, len) < 0) return t->parse_error = PARSE_ERROR_GENERIC; t->last_cb = VALUE; return 0; } static int on_headers_complete(http_parser *parser) { parser_context *ctx = (parser_context *) parser->data; http_subtransport *t = ctx->t; http_stream *s = ctx->s; git_buf buf = GIT_BUF_INIT; int error = 0, no_callback = 0, allowed_auth_types = 0; /* Both parse_header_name and parse_header_value are populated * and ready for consumption. */ if (VALUE == t->last_cb) if (on_header_ready(t) < 0) return t->parse_error = PARSE_ERROR_GENERIC; /* Capture authentication headers which may be a 401 (authentication * is not complete) or a 200 (simply informing us that auth *is* * complete.) */ if (parse_authenticate_response(&t->www_authenticate, t, &allowed_auth_types) < 0) return t->parse_error = PARSE_ERROR_GENERIC; /* Check for an authentication failure. */ if (parser->status_code == 401 && get_verb == s->verb) { if (!t->owner->cred_acquire_cb) { no_callback = 1; } else { if (allowed_auth_types) { if (t->cred) { t->cred->free(t->cred); t->cred = NULL; } error = t->owner->cred_acquire_cb(&t->cred, t->owner->url, t->connection_data.user, allowed_auth_types, t->owner->cred_acquire_payload); if (error == GIT_PASSTHROUGH) { no_callback = 1; } else if (error < 0) { t->error = error; return t->parse_error = PARSE_ERROR_EXT; } else { assert(t->cred); if (!(t->cred->credtype & allowed_auth_types)) { giterr_set(GITERR_NET, "credentials callback returned an invalid cred type"); return t->parse_error = PARSE_ERROR_GENERIC; } /* Successfully acquired a credential. */ t->parse_error = PARSE_ERROR_REPLAY; return 0; } } } if (no_callback) { giterr_set(GITERR_NET, "authentication required but no callback set"); return t->parse_error = PARSE_ERROR_GENERIC; } } /* Check for a redirect. * Right now we only permit a redirect to the same hostname. */ if ((parser->status_code == 301 || parser->status_code == 302 || (parser->status_code == 303 && get_verb == s->verb) || parser->status_code == 307) && t->location) { if (s->redirect_count >= 7) { giterr_set(GITERR_NET, "Too many redirects"); return t->parse_error = PARSE_ERROR_GENERIC; } if (gitno_connection_data_from_url(&t->connection_data, t->location, s->service_url) < 0) return t->parse_error = PARSE_ERROR_GENERIC; /* Set the redirect URL on the stream. This is a transfer of * ownership of the memory. */ if (s->redirect_url) git__free(s->redirect_url); s->redirect_url = t->location; t->location = NULL; t->connected = 0; s->redirect_count++; t->parse_error = PARSE_ERROR_REPLAY; return 0; } /* Check for a 200 HTTP status code. */ if (parser->status_code != 200) { giterr_set(GITERR_NET, "Unexpected HTTP status code: %d", parser->status_code); return t->parse_error = PARSE_ERROR_GENERIC; } /* The response must contain a Content-Type header. */ if (!t->content_type) { giterr_set(GITERR_NET, "No Content-Type header in response"); return t->parse_error = PARSE_ERROR_GENERIC; } /* The Content-Type header must match our expectation. */ if (get_verb == s->verb) git_buf_printf(&buf, "application/x-git-%s-advertisement", ctx->s->service); else git_buf_printf(&buf, "application/x-git-%s-result", ctx->s->service); if (git_buf_oom(&buf)) return t->parse_error = PARSE_ERROR_GENERIC; if (strcmp(t->content_type, git_buf_cstr(&buf))) { git_buf_free(&buf); giterr_set(GITERR_NET, "Invalid Content-Type: %s", t->content_type); return t->parse_error = PARSE_ERROR_GENERIC; } git_buf_free(&buf); return 0; } static int on_message_complete(http_parser *parser) { parser_context *ctx = (parser_context *) parser->data; http_subtransport *t = ctx->t; t->parse_finished = 1; return 0; } static int on_body_fill_buffer(http_parser *parser, const char *str, size_t len) { parser_context *ctx = (parser_context *) parser->data; http_subtransport *t = ctx->t; /* If our goal is to replay the request (either an auth failure or * a redirect) then don't bother buffering since we're ignoring the * content anyway. */ if (t->parse_error == PARSE_ERROR_REPLAY) return 0; if (ctx->buf_size < len) { giterr_set(GITERR_NET, "Can't fit data in the buffer"); return t->parse_error = PARSE_ERROR_GENERIC; } memcpy(ctx->buffer, str, len); *(ctx->bytes_read) += len; ctx->buffer += len; ctx->buf_size -= len; return 0; } static void clear_parser_state(http_subtransport *t) { http_parser_init(&t->parser, HTTP_RESPONSE); gitno_buffer_setup_fromstream(t->io, &t->parse_buffer, t->parse_buffer_data, sizeof(t->parse_buffer_data)); t->last_cb = NONE; t->parse_error = 0; t->parse_finished = 0; git_buf_free(&t->parse_header_name); git_buf_init(&t->parse_header_name, 0); git_buf_free(&t->parse_header_value); git_buf_init(&t->parse_header_value, 0); git__free(t->content_type); t->content_type = NULL; git__free(t->location); t->location = NULL; git_vector_free_deep(&t->www_authenticate); } static int write_chunk(git_stream *io, const char *buffer, size_t len) { git_buf buf = GIT_BUF_INIT; /* Chunk header */ git_buf_printf(&buf, "%" PRIxZ "\r\n", len); if (git_buf_oom(&buf)) return -1; if (git_stream_write(io, buf.ptr, buf.size, 0) < 0) { git_buf_free(&buf); return -1; } git_buf_free(&buf); /* Chunk body */ if (len > 0 && git_stream_write(io, buffer, len, 0) < 0) return -1; /* Chunk footer */ if (git_stream_write(io, "\r\n", 2, 0) < 0) return -1; return 0; } static int apply_proxy_config(http_subtransport *t) { int error; git_proxy_t proxy_type; if (!git_stream_supports_proxy(t->io)) return 0; proxy_type = t->owner->proxy.type; if (proxy_type == GIT_PROXY_NONE) return 0; if (proxy_type == GIT_PROXY_AUTO) { char *url; git_proxy_options opts = GIT_PROXY_OPTIONS_INIT; if ((error = git_remote__get_http_proxy(t->owner->owner, !!t->connection_data.use_ssl, &url)) < 0) return error; opts.type = GIT_PROXY_SPECIFIED; opts.url = url; error = git_stream_set_proxy(t->io, &opts); git__free(url); return error; } return git_stream_set_proxy(t->io, &t->owner->proxy); } static int http_connect(http_subtransport *t) { int error; if (t->connected && http_should_keep_alive(&t->parser) && t->parse_finished) return 0; if (t->io) { git_stream_close(t->io); git_stream_free(t->io); t->io = NULL; t->connected = 0; } if (t->connection_data.use_ssl) { error = git_tls_stream_new(&t->io, t->connection_data.host, t->connection_data.port); } else { #ifdef GIT_CURL error = git_curl_stream_new(&t->io, t->connection_data.host, t->connection_data.port); #else error = git_socket_stream_new(&t->io, t->connection_data.host, t->connection_data.port); #endif } if (error < 0) return error; GITERR_CHECK_VERSION(t->io, GIT_STREAM_VERSION, "git_stream"); apply_proxy_config(t); error = git_stream_connect(t->io); if ((!error || error == GIT_ECERTIFICATE) && t->owner->certificate_check_cb != NULL && git_stream_is_encrypted(t->io)) { git_cert *cert; int is_valid = (error == GIT_OK); if ((error = git_stream_certificate(&cert, t->io)) < 0) return error; giterr_clear(); error = t->owner->certificate_check_cb(cert, is_valid, t->connection_data.host, t->owner->message_cb_payload); if (error < 0) { if (!giterr_last()) giterr_set(GITERR_NET, "user cancelled certificate check"); return error; } } if (error < 0) return error; t->connected = 1; return 0; } static int http_stream_read( git_smart_subtransport_stream *stream, char *buffer, size_t buf_size, size_t *bytes_read) { http_stream *s = (http_stream *)stream; http_subtransport *t = OWNING_SUBTRANSPORT(s); parser_context ctx; size_t bytes_parsed; replay: *bytes_read = 0; assert(t->connected); if (!s->sent_request) { git_buf request = GIT_BUF_INIT; clear_parser_state(t); if (gen_request(&request, s, 0) < 0) return -1; if (git_stream_write(t->io, request.ptr, request.size, 0) < 0) { git_buf_free(&request); return -1; } git_buf_free(&request); s->sent_request = 1; } if (!s->received_response) { if (s->chunked) { assert(s->verb == post_verb); /* Flush, if necessary */ if (s->chunk_buffer_len > 0 && write_chunk(t->io, s->chunk_buffer, s->chunk_buffer_len) < 0) return -1; s->chunk_buffer_len = 0; /* Write the final chunk. */ if (git_stream_write(t->io, "0\r\n\r\n", 5, 0) < 0) return -1; } s->received_response = 1; } while (!*bytes_read && !t->parse_finished) { size_t data_offset; int error; /* * Make the parse_buffer think it's as full of data as * the buffer, so it won't try to recv more data than * we can put into it. * * data_offset is the actual data offset from which we * should tell the parser to start reading. */ if (buf_size >= t->parse_buffer.len) { t->parse_buffer.offset = 0; } else { t->parse_buffer.offset = t->parse_buffer.len - buf_size; } data_offset = t->parse_buffer.offset; if (gitno_recv(&t->parse_buffer) < 0) return -1; /* This call to http_parser_execute will result in invocations of the * on_* family of callbacks. The most interesting of these is * on_body_fill_buffer, which is called when data is ready to be copied * into the target buffer. We need to marshal the buffer, buf_size, and * bytes_read parameters to this callback. */ ctx.t = t; ctx.s = s; ctx.buffer = buffer; ctx.buf_size = buf_size; ctx.bytes_read = bytes_read; /* Set the context, call the parser, then unset the context. */ t->parser.data = &ctx; bytes_parsed = http_parser_execute(&t->parser, &t->settings, t->parse_buffer.data + data_offset, t->parse_buffer.offset - data_offset); t->parser.data = NULL; /* If there was a handled authentication failure, then parse_error * will have signaled us that we should replay the request. */ if (PARSE_ERROR_REPLAY == t->parse_error) { s->sent_request = 0; if ((error = http_connect(t)) < 0) return error; goto replay; } if (t->parse_error == PARSE_ERROR_EXT) { return t->error; } if (t->parse_error < 0) return -1; if (bytes_parsed != t->parse_buffer.offset - data_offset) { giterr_set(GITERR_NET, "HTTP parser error: %s", http_errno_description((enum http_errno)t->parser.http_errno)); return -1; } } return 0; } static int http_stream_write_chunked( git_smart_subtransport_stream *stream, const char *buffer, size_t len) { http_stream *s = (http_stream *)stream; http_subtransport *t = OWNING_SUBTRANSPORT(s); assert(t->connected); /* Send the request, if necessary */ if (!s->sent_request) { git_buf request = GIT_BUF_INIT; clear_parser_state(t); if (gen_request(&request, s, 0) < 0) return -1; if (git_stream_write(t->io, request.ptr, request.size, 0) < 0) { git_buf_free(&request); return -1; } git_buf_free(&request); s->sent_request = 1; } if (len > CHUNK_SIZE) { /* Flush, if necessary */ if (s->chunk_buffer_len > 0) { if (write_chunk(t->io, s->chunk_buffer, s->chunk_buffer_len) < 0) return -1; s->chunk_buffer_len = 0; } /* Write chunk directly */ if (write_chunk(t->io, buffer, len) < 0) return -1; } else { /* Append as much to the buffer as we can */ int count = min(CHUNK_SIZE - s->chunk_buffer_len, len); if (!s->chunk_buffer) s->chunk_buffer = git__malloc(CHUNK_SIZE); memcpy(s->chunk_buffer + s->chunk_buffer_len, buffer, count); s->chunk_buffer_len += count; buffer += count; len -= count; /* Is the buffer full? If so, then flush */ if (CHUNK_SIZE == s->chunk_buffer_len) { if (write_chunk(t->io, s->chunk_buffer, s->chunk_buffer_len) < 0) return -1; s->chunk_buffer_len = 0; if (len > 0) { memcpy(s->chunk_buffer, buffer, len); s->chunk_buffer_len = len; } } } return 0; } static int http_stream_write_single( git_smart_subtransport_stream *stream, const char *buffer, size_t len) { http_stream *s = (http_stream *)stream; http_subtransport *t = OWNING_SUBTRANSPORT(s); git_buf request = GIT_BUF_INIT; assert(t->connected); if (s->sent_request) { giterr_set(GITERR_NET, "Subtransport configured for only one write"); return -1; } clear_parser_state(t); if (gen_request(&request, s, len) < 0) return -1; if (git_stream_write(t->io, request.ptr, request.size, 0) < 0) goto on_error; if (len && git_stream_write(t->io, buffer, len, 0) < 0) goto on_error; git_buf_free(&request); s->sent_request = 1; return 0; on_error: git_buf_free(&request); return -1; } static void http_stream_free(git_smart_subtransport_stream *stream) { http_stream *s = (http_stream *)stream; if (s->chunk_buffer) git__free(s->chunk_buffer); if (s->redirect_url) git__free(s->redirect_url); git__free(s); } static int http_stream_alloc(http_subtransport *t, git_smart_subtransport_stream **stream) { http_stream *s; if (!stream) return -1; s = git__calloc(sizeof(http_stream), 1); GITERR_CHECK_ALLOC(s); s->parent.subtransport = &t->parent; s->parent.read = http_stream_read; s->parent.write = http_stream_write_single; s->parent.free = http_stream_free; *stream = (git_smart_subtransport_stream *)s; return 0; } static int http_uploadpack_ls( http_subtransport *t, git_smart_subtransport_stream **stream) { http_stream *s; if (http_stream_alloc(t, stream) < 0) return -1; s = (http_stream *)*stream; s->service = upload_pack_service; s->service_url = upload_pack_ls_service_url; s->verb = get_verb; return 0; } static int http_uploadpack( http_subtransport *t, git_smart_subtransport_stream **stream) { http_stream *s; if (http_stream_alloc(t, stream) < 0) return -1; s = (http_stream *)*stream; s->service = upload_pack_service; s->service_url = upload_pack_service_url; s->verb = post_verb; return 0; } static int http_receivepack_ls( http_subtransport *t, git_smart_subtransport_stream **stream) { http_stream *s; if (http_stream_alloc(t, stream) < 0) return -1; s = (http_stream *)*stream; s->service = receive_pack_service; s->service_url = receive_pack_ls_service_url; s->verb = get_verb; return 0; } static int http_receivepack( http_subtransport *t, git_smart_subtransport_stream **stream) { http_stream *s; if (http_stream_alloc(t, stream) < 0) return -1; s = (http_stream *)*stream; /* Use Transfer-Encoding: chunked for this request */ s->chunked = 1; s->parent.write = http_stream_write_chunked; s->service = receive_pack_service; s->service_url = receive_pack_service_url; s->verb = post_verb; return 0; } static int http_action( git_smart_subtransport_stream **stream, git_smart_subtransport *subtransport, const char *url, git_smart_service_t action) { http_subtransport *t = (http_subtransport *)subtransport; int ret; if (!stream) return -1; if ((!t->connection_data.host || !t->connection_data.port || !t->connection_data.path) && (ret = gitno_connection_data_from_url(&t->connection_data, url, NULL)) < 0) return ret; if ((ret = http_connect(t)) < 0) return ret; switch (action) { case GIT_SERVICE_UPLOADPACK_LS: return http_uploadpack_ls(t, stream); case GIT_SERVICE_UPLOADPACK: return http_uploadpack(t, stream); case GIT_SERVICE_RECEIVEPACK_LS: return http_receivepack_ls(t, stream); case GIT_SERVICE_RECEIVEPACK: return http_receivepack(t, stream); } *stream = NULL; return -1; } static int http_close(git_smart_subtransport *subtransport) { http_subtransport *t = (http_subtransport *) subtransport; git_http_auth_context *context; size_t i; clear_parser_state(t); t->connected = 0; if (t->io) { git_stream_close(t->io); git_stream_free(t->io); t->io = NULL; } if (t->cred) { t->cred->free(t->cred); t->cred = NULL; } if (t->url_cred) { t->url_cred->free(t->url_cred); t->url_cred = NULL; } git_vector_foreach(&t->auth_contexts, i, context) { if (context->free) context->free(context); } git_vector_clear(&t->auth_contexts); gitno_connection_data_free_ptrs(&t->connection_data); memset(&t->connection_data, 0x0, sizeof(gitno_connection_data)); return 0; } static void http_free(git_smart_subtransport *subtransport) { http_subtransport *t = (http_subtransport *) subtransport; http_close(subtransport); git_vector_free(&t->auth_contexts); git__free(t); } int git_smart_subtransport_http(git_smart_subtransport **out, git_transport *owner, void *param) { http_subtransport *t; GIT_UNUSED(param); if (!out) return -1; t = git__calloc(sizeof(http_subtransport), 1); GITERR_CHECK_ALLOC(t); t->owner = (transport_smart *)owner; t->parent.action = http_action; t->parent.close = http_close; t->parent.free = http_free; t->settings.on_header_field = on_header_field; t->settings.on_header_value = on_header_value; t->settings.on_headers_complete = on_headers_complete; t->settings.on_body = on_body_fill_buffer; t->settings.on_message_complete = on_message_complete; *out = (git_smart_subtransport *) t; return 0; } #endif /* !GIT_WINHTTP */