subsurface/core/git-access.c

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// SPDX-License-Identifier: GPL-2.0
#ifdef __clang__
// Clang has a bug on zero-initialization of C structs.
#pragma clang diagnostic ignored "-Wmissing-field-initializers"
#endif
#include "ssrf.h"
#include <stdio.h>
#include <ctype.h>
#include <string.h>
#include <stdlib.h>
#include <errno.h>
#include <time.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
#include <fcntl.h>
#include <stdarg.h>
#include <git2.h>
#include "subsurface-string.h"
#include "membuffer.h"
#include "strndup.h"
#include "qthelper.h"
#include "file.h"
#include "errorhelper.h"
#include "git-access.h"
#include "gettext.h"
#include "sha1.h"
bool is_subsurface_cloud = false;
// the mobile app assumes that it shouldn't talk to the cloud
// the desktop app assumes that it should
#if defined(SUBSURFACE_MOBILE)
bool git_local_only = true;
#else
bool git_local_only = false;
#endif
bool git_remote_sync_successful = false;
int (*update_progress_cb)(const char *) = NULL;
static bool includes_string_caseinsensitive(const char *haystack, const char *needle)
{
if (!needle)
return 1; /* every string includes the NULL string */
if (!haystack)
return 0; /* nothing is included in the NULL string */
int len = strlen(needle);
while (*haystack) {
if (strncasecmp(haystack, needle, len))
return 1;
haystack++;
}
return 0;
}
void set_git_update_cb(int(*cb)(const char *))
{
update_progress_cb = cb;
}
// total overkill, but this allows us to get good timing in various scenarios;
// the various parts of interacting with the local and remote git repositories send
// us updates which indicate progress (and no, this is not smooth and definitely not
// proportional - some parts are based on compute performance, some on network speed)
// they also provide information where in the process we are so we can analyze the log
// to understand which parts of the process take how much time.
int git_storage_update_progress(const char *text)
{
int ret = 0;
if (update_progress_cb)
ret = (*update_progress_cb)(text);
return ret;
}
// the checkout_progress_cb doesn't allow canceling of the operation
// map the git progress to 20% of overall progress
static void progress_cb(const char *path, size_t completed_steps, size_t total_steps, void *payload)
{
UNUSED(path);
UNUSED(payload);
char buf[80];
snprintf(buf, sizeof(buf), translate("gettextFromC", "Checkout from storage (%lu/%lu)"), completed_steps, total_steps);
(void)git_storage_update_progress(buf);
}
// this randomly assumes that 80% of the time is spent on the objects and 20% on the deltas
// map the git progress to 20% of overall progress
// if the user cancels the dialog this is passed back to libgit2
static int transfer_progress_cb(const git_transfer_progress *stats, void *payload)
{
UNUSED(payload);
static int last_done = -1;
char buf[80];
int done = 0;
int total = 0;
if (stats->total_objects) {
total = 60;
done = 60 * stats->received_objects / stats->total_objects;
}
if (stats->total_deltas) {
total += 20;
done += 20 * stats->indexed_deltas / stats->total_deltas;
}
/* for debugging this is useful
char buf[100];
snprintf(buf, 100, "transfer cb rec_obj %d tot_obj %d idx_delta %d total_delta %d local obj %d", stats->received_objects, stats->total_objects, stats->indexed_deltas, stats->total_deltas, stats->local_objects);
return git_storage_update_progress(buf);
*/
if (done > last_done) {
last_done = done;
snprintf(buf, sizeof(buf), translate("gettextFromC", "Transfer from storage (%d/%d)"), done, total);
return git_storage_update_progress(buf);
}
return 0;
}
// the initial push to sync the repos is mapped to 10% of overall progress
static int push_transfer_progress_cb(unsigned int current, unsigned int total, size_t bytes, void *payload)
{
UNUSED(bytes);
UNUSED(payload);
char buf[80];
snprintf(buf, sizeof(buf), translate("gettextFromC", "Transfer to storage (%d/%d)"), current, total);
return git_storage_update_progress(buf);
}
char *get_local_dir(const char *remote_in, const char *branch)
{
SHA_CTX ctx;
unsigned char hash[20];
// this optimization could in theory lead to odd things happening if the
// cloud backend servers ever get out of sync - but when a user switches
// between those servers (either because one is down, or because the algorithm
// which server to pick changed, or because the user is on a different continent),
// then the hash and therefore the local directory would change. To prevent that
// from happening, normalize the cloud string to always use the old default name.
// That's trivial with QString operations and painful to do right in plain C, so
// let's be lazy and call a C++ helper function
// just remember to free the string we get back
const char *remote = normalize_cloud_name(remote_in);
// That zero-byte update is so that we don't get hash
// collisions for "repo1 branch" vs "repo 1branch".
SHA1_Init(&ctx);
SHA1_Update(&ctx, remote, strlen(remote));
SHA1_Update(&ctx, "", 1);
SHA1_Update(&ctx, branch, strlen(branch));
SHA1_Final(hash, &ctx);
free((void *)remote);
return format_string("%s/cloudstorage/%02x%02x%02x%02x%02x%02x%02x%02x",
system_default_directory(),
hash[0], hash[1], hash[2], hash[3],
hash[4], hash[5], hash[6], hash[7]);
}
static char *move_local_cache(const char *remote, const char *branch)
{
char *old_path = get_local_dir(remote, branch);
return move_away(old_path);
}
static int check_clean(const char *path, unsigned int status, void *payload)
{
UNUSED(payload);
status &= ~GIT_STATUS_CURRENT | GIT_STATUS_IGNORED;
if (!status)
return 0;
SSRF_INFO("git storage: local cache dir %s modified, git status 0x%04x", path, status);
if (is_subsurface_cloud)
report_error(translate("gettextFromC", "Local cache directory %s corrupted - can't sync with Subsurface cloud storage"), path);
else
report_error("WARNING: Git cache directory modified (path %s) status 0x%04x", path, status);
return 1;
}
/*
* The remote is strictly newer than the local branch.
*/
static int reset_to_remote(git_repository *repo, git_reference *local, const git_oid *new_id)
{
git_checkout_options opts = GIT_CHECKOUT_OPTIONS_INIT;
opts.progress_cb = &progress_cb;
git_object *target;
if (verbose)
SSRF_INFO("git storage: reset to remote\n");
// If it's not checked out (bare or not HEAD), just update the reference */
if (git_repository_is_bare(repo) || git_branch_is_head(local) != 1) {
git_reference *out;
if (git_reference_set_target(&out, local, new_id, "Update to remote")) {
SSRF_INFO("git storage: could not update local cache to newer remote data");
return report_error(translate("gettextFromC", "Could not update local cache to newer remote data"));
}
git_reference_free(out);
#ifdef DEBUG
// Not really an error, just informational
report_error("Updated local branch from remote");
#endif
return 0;
}
if (git_object_lookup(&target, repo, new_id, GIT_OBJ_COMMIT)) {
SSRF_INFO("git storage: could not look up remote commit");
if (is_subsurface_cloud)
return report_error(translate("gettextFromC", "Subsurface cloud storage corrupted"));
else
return report_error("Could not look up remote commit");
}
opts.checkout_strategy = GIT_CHECKOUT_SAFE;
if (git_reset(repo, target, GIT_RESET_HARD, &opts)) {
SSRF_INFO("git storage: local head checkout failed after update");
if (is_subsurface_cloud)
return report_error(translate("gettextFromC", "Could not update local cache to newer remote data"));
else
return report_error("Local head checkout failed after update");
}
// Not really an error, just informational
#ifdef DEBUG
report_error("Updated local information from remote");
#endif
return 0;
}
static int auth_attempt = 0;
static const int max_auth_attempts = 2;
static bool exceeded_auth_attempts()
{
if (auth_attempt++ > max_auth_attempts) {
SSRF_INFO("git storage: authentication to cloud storage failed");
report_error("Authentication to cloud storage failed.");
return true;
}
return false;
}
int credential_ssh_cb(git_cred **out,
const char *url,
const char *username_from_url,
unsigned int allowed_types,
void *payload)
{
UNUSED(url);
UNUSED(payload);
UNUSED(username_from_url);
const char *username = prefs.cloud_storage_email_encoded;
const char *passphrase = prefs.cloud_storage_password ? prefs.cloud_storage_password : "";
// TODO: We need a way to differentiate between password and private key authentication
if (allowed_types & GIT_CREDTYPE_SSH_KEY) {
char *priv_key = format_string("%s/%s", system_default_directory(), "ssrf_remote.key");
if (!access(priv_key, F_OK)) {
if (exceeded_auth_attempts())
return GIT_EUSER;
int ret = git_cred_ssh_key_new(out, username, NULL, priv_key, passphrase);
free(priv_key);
return ret;
}
free(priv_key);
}
if (allowed_types & GIT_CREDTYPE_USERPASS_PLAINTEXT) {
if (exceeded_auth_attempts())
return GIT_EUSER;
return git_cred_userpass_plaintext_new(out, username, passphrase);
}
if (allowed_types & GIT_CREDTYPE_USERNAME)
return git_cred_username_new(out, username);
report_error("No supported ssh authentication.");
return GIT_EUSER;
}
int credential_https_cb(git_cred **out,
const char *url,
const char *username_from_url,
unsigned int allowed_types,
void *payload)
{
UNUSED(url);
UNUSED(username_from_url);
UNUSED(payload);
UNUSED(allowed_types);
if (exceeded_auth_attempts())
return GIT_EUSER;
const char *username = prefs.cloud_storage_email_encoded;
const char *password = prefs.cloud_storage_password ? prefs.cloud_storage_password : "";
return git_cred_userpass_plaintext_new(out, username, password);
}
int certificate_check_cb(git_cert *cert, int valid, const char *host, void *payload)
{
UNUSED(payload);
if (verbose)
SSRF_INFO("git storage: certificate callback for host %s with validity %d\n", host, valid);
cloudstorage: try to pick between multiple cloud servers The backend infrastructure will soon be able to support more than one cloud server which automagically stay in sync with each other. One critical requirement for that to work is that once a session was started with one of the servers, the complete session happens with that server - we must not switch from server to server while doing a git transaction. To make sure that's the case, we aren't trying to use DNS tricks to make this load balancing scheme work, but instead try to determine at program start which server is the best one to use. Right now this is super simplistic. Two servers, one in the US, one in Europe. By default we use the European server (most of our users appear to be in Europe), but if we can figure out that the client is actually in the Americas, use the US server. We might improve that heuristic over time, but as a first attempt it seems not entirely bogus. The way this is implemented is a simple combination of two free webservices that together appear to give us a very reliable estimate which continent the user is located on. api.ipify.org gives us our external IP address ip-api.com gives us the continent that IP address is on If any of this fails or takes too long to respond, we simply ignore it since either server will work. One oddity is that if we decide to change servers we only change the settings that are stored on disk, not the runtime preferences. This goes back to the comment above that we have to avoid changing servers in mid sync. Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
2021-04-11 01:03:08 +00:00
if ((same_string(host, CLOUD_HOST_GENERIC) || same_string(host, CLOUD_HOST_US) || same_string(host, CLOUD_HOST_EU)) &&
cert->cert_type == GIT_CERT_X509) {
// for some reason the LetsEncrypt certificate makes libgit2 throw up on some
// platforms but not on others
// if we are connecting to the cloud server we alrady called 'canReachCloudServer()'
// which will fail if the SSL certificate isn't valid, so let's simply always
// tell the caller that this certificate is valid
return 1;
}
return valid;
}
static int update_remote(git_repository *repo, git_remote *origin, git_reference *local, git_reference *remote, enum remote_transport rt)
{
UNUSED(repo);
UNUSED(remote);
git_push_options opts = GIT_PUSH_OPTIONS_INIT;
git_strarray refspec;
const char *name = git_reference_name(local);
if (verbose)
SSRF_INFO("git storage: update remote\n");
refspec.count = 1;
refspec.strings = (char **)&name;
auth_attempt = 0;
opts.callbacks.push_transfer_progress = &push_transfer_progress_cb;
if (rt == RT_SSH)
opts.callbacks.credentials = credential_ssh_cb;
else if (rt == RT_HTTPS)
opts.callbacks.credentials = credential_https_cb;
opts.callbacks.certificate_check = certificate_check_cb;
if (git_remote_push(origin, &refspec, &opts)) {
const char *msg = giterr_last()->message;
SSRF_INFO("git storage: unable to update remote with current local cache state, error: %s", msg);
if (is_subsurface_cloud)
return report_error(translate("gettextFromC", "Could not update Subsurface cloud storage, try again later"));
else
return report_error("Unable to update remote with current local cache state (%s)", msg);
}
return 0;
}
extern int update_git_checkout(git_repository *repo, git_object *parent, git_tree *tree);
static int try_to_git_merge(git_repository *repo, git_reference **local_p, git_reference *remote, git_oid *base, const git_oid *local_id, const git_oid *remote_id)
{
UNUSED(remote);
git_tree *local_tree, *remote_tree, *base_tree;
git_commit *local_commit, *remote_commit, *base_commit;
git_index *merged_index;
git_merge_options merge_options;
struct membuffer msg = { 0, 0, NULL};
if (verbose) {
char outlocal[41], outremote[41];
outlocal[40] = outremote[40] = 0;
git_oid_fmt(outlocal, local_id);
git_oid_fmt(outremote, remote_id);
SSRF_INFO("git storage: trying to merge local SHA %s remote SHA %s\n", outlocal, outremote);
}
git_merge_init_options(&merge_options, GIT_MERGE_OPTIONS_VERSION);
merge_options.flags = GIT_MERGE_FIND_RENAMES;
merge_options.file_favor = GIT_MERGE_FILE_FAVOR_UNION;
merge_options.rename_threshold = 100;
if (git_commit_lookup(&local_commit, repo, local_id)) {
SSRF_INFO("git storage: remote storage and local data diverged. Error: can't get commit (%s)", giterr_last()->message);
goto diverged_error;
}
if (git_commit_tree(&local_tree, local_commit)) {
SSRF_INFO("git storage: remote storage and local data diverged. Error: failed local tree lookup (%s)", giterr_last()->message);
goto diverged_error;
}
if (git_commit_lookup(&remote_commit, repo, remote_id)) {
SSRF_INFO("git storage: remote storage and local data diverged. Error: can't get commit (%s)", giterr_last()->message);
goto diverged_error;
}
if (git_commit_tree(&remote_tree, remote_commit)) {
SSRF_INFO("git storage: remote storage and local data diverged. Error: failed local tree lookup (%s)", giterr_last()->message);
goto diverged_error;
}
if (git_commit_lookup(&base_commit, repo, base)) {
SSRF_INFO("git storage: remote storage and local data diverged. Error: can't get commit (%s)", giterr_last()->message);
goto diverged_error;
}
if (git_commit_tree(&base_tree, base_commit)) {
SSRF_INFO("git storage: remote storage and local data diverged. Error: failed base tree lookup (%s)", giterr_last()->message);
goto diverged_error;
}
if (git_merge_trees(&merged_index, repo, base_tree, local_tree, remote_tree, &merge_options)) {
SSRF_INFO("git storage: remote storage and local data diverged. Error: merge failed (%s)", giterr_last()->message);
// this is the one where I want to report more detail to the user - can't quite explain why
return report_error(translate("gettextFromC", "Remote storage and local data diverged. Error: merge failed (%s)"), giterr_last()->message);
}
if (git_index_has_conflicts(merged_index)) {
int error;
const git_index_entry *ancestor = NULL,
*ours = NULL,
*theirs = NULL;
git_index_conflict_iterator *iter = NULL;
error = git_index_conflict_iterator_new(&iter, merged_index);
while (git_index_conflict_next(&ancestor, &ours, &theirs, iter)
!= GIT_ITEROVER) {
/* Mark this conflict as resolved */
SSRF_INFO("git storage: conflict in %s / %s / %s -- ",
ours ? ours->path : "-",
theirs ? theirs->path : "-",
ancestor ? ancestor->path : "-");
if ((!ours && theirs && ancestor) ||
(ours && !theirs && ancestor)) {
// the file was removed on one side or the other - just remove it
SSRF_INFO("git storage: looks like a delete on one side; removing the file from the index\n");
error = git_index_remove(merged_index, ours ? ours->path : theirs->path, GIT_INDEX_STAGE_ANY);
} else if (ancestor) {
error = git_index_conflict_remove(merged_index, ours ? ours->path : theirs ? theirs->path : ancestor->path);
}
if (error) {
SSRF_INFO("git storage: error at conflict resolution (%s)", giterr_last()->message);
}
}
git_index_conflict_cleanup(merged_index);
git_index_conflict_iterator_free(iter);
report_error(translate("gettextFromC", "Remote storage and local data diverged. Cannot combine local and remote changes"));
}
git_oid merge_oid, commit_oid;
git_tree *merged_tree;
git_signature *author;
git_commit *commit;
if (git_index_write_tree_to(&merge_oid, merged_index, repo))
goto write_error;
if (git_tree_lookup(&merged_tree, repo, &merge_oid))
goto write_error;
if (get_authorship(repo, &author) < 0)
goto write_error;
const char *user_agent = subsurface_user_agent();
put_format(&msg, "Automatic merge\n\nCreated by %s\n", user_agent);
free((void *)user_agent);
if (git_commit_create_v(&commit_oid, repo, NULL, author, author, NULL, mb_cstring(&msg), merged_tree, 2, local_commit, remote_commit))
goto write_error;
if (git_commit_lookup(&commit, repo, &commit_oid))
goto write_error;
if (git_branch_is_head(*local_p) && !git_repository_is_bare(repo)) {
git_object *parent;
git_reference_peel(&parent, *local_p, GIT_OBJ_COMMIT);
if (update_git_checkout(repo, parent, merged_tree)) {
goto write_error;
}
}
if (git_reference_set_target(local_p, *local_p, &commit_oid, "Subsurface merge event"))
goto write_error;
set_git_id(&commit_oid);
git_signature_free(author);
if (verbose)
SSRF_INFO("git storage: successfully merged repositories");
free_buffer(&msg);
return 0;
diverged_error:
return report_error(translate("gettextFromC", "Remote storage and local data diverged"));
write_error:
free_buffer(&msg);
return report_error(translate("gettextFromC", "Remote storage and local data diverged. Error: writing the data failed (%s)"), giterr_last()->message);
}
// if accessing the local cache of Subsurface cloud storage fails, we simplify things
// for the user and simply move the cache away (in case they want to try and extract data)
// and ask them to retry the operation (which will then refresh the data from the cloud server)
static int cleanup_local_cache(const char *remote_url, const char *branch)
{
char *backup_path = move_local_cache(remote_url, branch);
SSRF_INFO("git storage: problems with local cache, moved to %s", backup_path);
report_error(translate("gettextFromC", "Problems with local cache of Subsurface cloud data"));
report_error(translate("gettextFromC", "Moved cache data to %s. Please try the operation again."), backup_path);
free(backup_path);
return -1;
}
static int try_to_update(git_repository *repo, git_remote *origin, git_reference *local, git_reference *remote,
const char *remote_url, const char *branch, enum remote_transport rt)
{
git_oid base;
const git_oid *local_id, *remote_id;
int ret = 0;
if (verbose)
SSRF_INFO("git storage: try to update\n");
if (!git_reference_cmp(local, remote))
return 0;
// Dirty modified state in the working tree? We're not going
// to update either way
if (git_status_foreach(repo, check_clean, NULL)) {
SSRF_INFO("git storage: local cache is dirty, skipping update");
if (is_subsurface_cloud)
goto cloud_data_error;
else
return report_error("local cached copy is dirty, skipping update");
}
local_id = git_reference_target(local);
remote_id = git_reference_target(remote);
if (!local_id || !remote_id) {
if (!local_id)
SSRF_INFO("git storage: unable to get local SHA");
if (!remote_id)
SSRF_INFO("git storage: unable to get remote SHA");
if (is_subsurface_cloud)
goto cloud_data_error;
else
return report_error("Unable to get local or remote SHA1");
}
if (git_merge_base(&base, repo, local_id, remote_id)) {
// TODO:
// if they have no merge base, they actually are different repos
// so instead merge this as merging a commit into a repo - git_merge() appears to do that
// but needs testing and cleanup afterwards
//
SSRF_INFO("git storage: no common commit between local and remote branches");
if (is_subsurface_cloud)
goto cloud_data_error;
else
return report_error("Unable to find common commit of local and remote branches");
}
/* Is the remote strictly newer? Use it */
if (git_oid_equal(&base, local_id)) {
if (verbose)
SSRF_INFO("git storage: remote is newer than local, update local");
git_storage_update_progress(translate("gettextFromC", "Update local storage to match cloud storage"));
return reset_to_remote(repo, local, remote_id);
}
/* Is the local repo the more recent one? See if we can update upstream */
if (git_oid_equal(&base, remote_id)) {
if (verbose)
SSRF_INFO("git storage: local is newer than remote, update remote");
git_storage_update_progress(translate("gettextFromC", "Push local changes to cloud storage"));
return update_remote(repo, origin, local, remote, rt);
}
/* Merging a bare repository always needs user action */
if (git_repository_is_bare(repo)) {
SSRF_INFO("git storage: local is bare and has diverged from remote; user action needed");
if (is_subsurface_cloud)
goto cloud_data_error;
else
return report_error("Local and remote have diverged, merge of bare branch needed");
}
/* Merging will definitely need the head branch too */
if (git_branch_is_head(local) != 1) {
SSRF_INFO("git storage: local branch is not HEAD, cannot merge");
if (is_subsurface_cloud)
goto cloud_data_error;
else
return report_error("Local and remote do not match, local branch not HEAD - cannot update");
}
/* Ok, let's try to merge these */
git_storage_update_progress(translate("gettextFromC", "Try to merge local changes into cloud storage"));
ret = try_to_git_merge(repo, &local, remote, &base, local_id, remote_id);
if (ret == 0)
return update_remote(repo, origin, local, remote, rt);
else
return ret;
cloud_data_error:
// since we are working with Subsurface cloud storage we want to make the user interaction
// as painless as possible. So if something went wrong with the local cache, tell the user
// about it an move it away
return cleanup_local_cache(remote_url, branch);
}
static int check_remote_status(git_repository *repo, git_remote *origin, const char *remote, const char *branch, enum remote_transport rt)
{
int error = 0;
git_reference *local_ref, *remote_ref;
if (verbose)
SSRF_INFO("git storage: check remote status\n");
if (git_branch_lookup(&local_ref, repo, branch, GIT_BRANCH_LOCAL)) {
SSRF_INFO("git storage: branch %s is missing in local repo", branch);
if (is_subsurface_cloud)
return cleanup_local_cache(remote, branch);
else
return report_error("Git cache branch %s no longer exists", branch);
}
if (git_branch_upstream(&remote_ref, local_ref)) {
/* so there is no upstream branch for our branch; that's a problem.
* let's push our branch */
SSRF_INFO("git storage: branch %s is missing in remote, pushing branch", branch);
git_strarray refspec;
git_reference_list(&refspec, repo);
git_push_options opts = GIT_PUSH_OPTIONS_INIT;
opts.callbacks.transfer_progress = &transfer_progress_cb;
auth_attempt = 0;
if (rt == RT_SSH)
opts.callbacks.credentials = credential_ssh_cb;
else if (rt == RT_HTTPS)
opts.callbacks.credentials = credential_https_cb;
opts.callbacks.certificate_check = certificate_check_cb;
git_storage_update_progress(translate("gettextFromC", "Store data into cloud storage"));
error = git_remote_push(origin, &refspec, &opts);
} else {
error = try_to_update(repo, origin, local_ref, remote_ref, remote, branch, rt);
git_reference_free(remote_ref);
}
git_reference_free(local_ref);
git_remote_sync_successful = (error == 0);
return error;
}
/* this is (so far) only used by the git storage tests to remove a remote branch
* it will print out errors, but not return an error (as this isn't a function that
* we test as part of the tests, it's a helper to not leave loads of dead branches on
* the server)
*/
void delete_remote_branch(git_repository *repo, const char *remote, const char *branch)
{
int error;
char *proxy_string;
git_remote *origin;
git_config *conf;
/* set up the config and proxy information in order to connect to the server */
git_repository_config(&conf, repo);
if (getProxyString(&proxy_string)) {
git_config_set_string(conf, "http.proxy", proxy_string);
free(proxy_string);
} else {
git_config_delete_entry(conf, "http.proxy");
}
if (git_remote_lookup(&origin, repo, "origin")) {
SSRF_INFO("git storage: repository '%s' origin lookup failed (%s)", remote, giterr_last() ? giterr_last()->message : "(unspecified)");
return;
}
/* fetch the remote state */
git_fetch_options f_opts = GIT_FETCH_OPTIONS_INIT;
auth_attempt = 0;
f_opts.callbacks.credentials = credential_https_cb;
error = git_remote_fetch(origin, NULL, &f_opts, NULL);
if (error) {
SSRF_INFO("git storage: remote fetch failed (%s)\n", giterr_last() ? giterr_last()->message : "authentication failed");
return;
}
/* delete the remote branch by pushing to ":refs/heads/<branch>" */
git_strarray refspec;
char *branch_ref = format_string(":refs/heads/%s", branch);
refspec.count = 1;
refspec.strings = &branch_ref;
git_push_options p_opts = GIT_PUSH_OPTIONS_INIT;
auth_attempt = 0;
p_opts.callbacks.credentials = credential_https_cb;
error = git_remote_push(origin, &refspec, &p_opts);
free(branch_ref);
if (error) {
SSRF_INFO("git storage: unable to delete branch '%s'", branch);
SSRF_INFO("git storage: error was (%s)\n", giterr_last() ? giterr_last()->message : "(unspecified)");
}
git_remote_free(origin);
return;
}
int sync_with_remote(git_repository *repo, const char *remote, const char *branch, enum remote_transport rt)
{
int error;
git_remote *origin;
char *proxy_string;
git_config *conf;
if (git_local_only) {
if (verbose)
SSRF_INFO("git storage: don't sync with remote - read from cache only\n");
return 0;
}
if (verbose)
SSRF_INFO("git storage: sync with remote %s[%s]\n", remote, branch);
git_storage_update_progress(translate("gettextFromC", "Sync with cloud storage"));
git_repository_config(&conf, repo);
if (rt == RT_HTTPS && getProxyString(&proxy_string)) {
if (verbose)
SSRF_INFO("git storage: set proxy to \"%s\"\n", proxy_string);
git_config_set_string(conf, "http.proxy", proxy_string);
free(proxy_string);
} else {
if (verbose)
SSRF_INFO("git storage: delete proxy setting\n");
git_config_delete_entry(conf, "http.proxy");
}
/*
* NOTE! Remote errors are reported, but are nonfatal:
* we still successfully return the local repository.
*/
error = git_remote_lookup(&origin, repo, "origin");
if (error) {
const char *msg = giterr_last()->message;
SSRF_INFO("git storage: repo %s origin lookup failed with: %s", remote, msg);
if (!is_subsurface_cloud)
report_error("Repository '%s' origin lookup failed (%s)", remote, msg);
return 0;
}
// we know that we already checked for the cloud server, but to give a decent warning message
// here in case none of them are reachable, let's check one more time
if (is_subsurface_cloud && !canReachCloudServer(&remote)) {
// this is not an error, just a warning message, so return 0
SSRF_INFO("git storage: cannot connect to remote server");
report_error("Cannot connect to cloud server, working with local copy");
git_storage_update_progress(translate("gettextFromC", "Can't reach cloud server, working with local data"));
return 0;
}
if (verbose)
cloudstorage: try to pick between multiple cloud servers The backend infrastructure will soon be able to support more than one cloud server which automagically stay in sync with each other. One critical requirement for that to work is that once a session was started with one of the servers, the complete session happens with that server - we must not switch from server to server while doing a git transaction. To make sure that's the case, we aren't trying to use DNS tricks to make this load balancing scheme work, but instead try to determine at program start which server is the best one to use. Right now this is super simplistic. Two servers, one in the US, one in Europe. By default we use the European server (most of our users appear to be in Europe), but if we can figure out that the client is actually in the Americas, use the US server. We might improve that heuristic over time, but as a first attempt it seems not entirely bogus. The way this is implemented is a simple combination of two free webservices that together appear to give us a very reliable estimate which continent the user is located on. api.ipify.org gives us our external IP address ip-api.com gives us the continent that IP address is on If any of this fails or takes too long to respond, we simply ignore it since either server will work. One oddity is that if we decide to change servers we only change the settings that are stored on disk, not the runtime preferences. This goes back to the comment above that we have to avoid changing servers in mid sync. Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
2021-04-11 01:03:08 +00:00
SSRF_INFO("git storage: fetch remote %s\n", git_remote_url(origin));
git_fetch_options opts = GIT_FETCH_OPTIONS_INIT;
opts.callbacks.transfer_progress = &transfer_progress_cb;
auth_attempt = 0;
if (rt == RT_SSH)
opts.callbacks.credentials = credential_ssh_cb;
else if (rt == RT_HTTPS)
opts.callbacks.credentials = credential_https_cb;
opts.callbacks.certificate_check = certificate_check_cb;
git_storage_update_progress(translate("gettextFromC", "Successful cloud connection, fetch remote"));
error = git_remote_fetch(origin, NULL, &opts, NULL);
// NOTE! A fetch error is not fatal, we just report it
if (error) {
if (is_subsurface_cloud)
report_error("Cannot sync with cloud server, working with offline copy");
else
report_error("Unable to fetch remote '%s'", remote);
// If we returned GIT_EUSER during authentication, giterr_last() returns NULL
SSRF_INFO("git storage: remote fetch failed (%s)\n", giterr_last() ? giterr_last()->message : "authentication failed");
// Since we failed to sync with online repository, enter offline mode
git_local_only = true;
error = 0;
} else {
error = check_remote_status(repo, origin, remote, branch, rt);
}
git_remote_free(origin);
git_storage_update_progress(translate("gettextFromC", "Done syncing with cloud storage"));
return error;
}
static git_repository *update_local_repo(const char *localdir, const char *remote, const char *branch, enum remote_transport rt)
{
int error;
git_repository *repo = NULL;
git_reference *head;
if (verbose)
SSRF_INFO("git storage: update local repo\n");
error = git_repository_open(&repo, localdir);
if (error) {
const char *msg = giterr_last()->message;
SSRF_INFO("git storage: unable to open local cache at %s: %s", localdir, msg);
if (is_subsurface_cloud)
(void)cleanup_local_cache(remote, branch);
else
report_error("Unable to open git cache repository at %s: %s", localdir, msg);
return NULL;
}
/* Check the HEAD being the right branch */
if (!git_repository_head(&head, repo)) {
const char *name;
if (!git_branch_name(&name, head)) {
if (strcmp(name, branch)) {
char *branchref = format_string("refs/heads/%s", branch);
SSRF_INFO("git storage: setting cache branch from '%s' to '%s'", name, branch);
git_repository_set_head(repo, branchref);
free(branchref);
}
}
git_reference_free(head);
}
cloudstorage: try to pick between multiple cloud servers The backend infrastructure will soon be able to support more than one cloud server which automagically stay in sync with each other. One critical requirement for that to work is that once a session was started with one of the servers, the complete session happens with that server - we must not switch from server to server while doing a git transaction. To make sure that's the case, we aren't trying to use DNS tricks to make this load balancing scheme work, but instead try to determine at program start which server is the best one to use. Right now this is super simplistic. Two servers, one in the US, one in Europe. By default we use the European server (most of our users appear to be in Europe), but if we can figure out that the client is actually in the Americas, use the US server. We might improve that heuristic over time, but as a first attempt it seems not entirely bogus. The way this is implemented is a simple combination of two free webservices that together appear to give us a very reliable estimate which continent the user is located on. api.ipify.org gives us our external IP address ip-api.com gives us the continent that IP address is on If any of this fails or takes too long to respond, we simply ignore it since either server will work. One oddity is that if we decide to change servers we only change the settings that are stored on disk, not the runtime preferences. This goes back to the comment above that we have to avoid changing servers in mid sync. Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
2021-04-11 01:03:08 +00:00
/* make sure we have the correct origin - the cloud server URL could have changed */
if (git_remote_set_url(repo, "origin", remote)) {
SSRF_INFO("git storage: failed to update origin to '%s'", remote);
return NULL;
}
if (!git_local_only)
sync_with_remote(repo, remote, branch, rt);
return repo;
}
static int repository_create_cb(git_repository **out, const char *path, int bare, void *payload)
{
UNUSED(payload);
char *proxy_string;
git_config *conf;
int ret = git_repository_init(out, path, bare);
if (ret != 0) {
if (verbose)
SSRF_INFO("git storage: initializing git repository failed\n");
return ret;
}
git_repository_config(&conf, *out);
if (getProxyString(&proxy_string)) {
if (verbose)
SSRF_INFO("git storage: set proxy to \"%s\"\n", proxy_string);
git_config_set_string(conf, "http.proxy", proxy_string);
free(proxy_string);
} else {
if (verbose)
SSRF_INFO("git storage: delete proxy setting\n");
git_config_delete_entry(conf, "http.proxy");
}
return ret;
}
/* this should correctly initialize both the local and remote
* repository for the Subsurface cloud storage */
static git_repository *create_and_push_remote(const char *localdir, const char *remote, const char *branch)
{
git_repository *repo;
git_config *conf;
char *variable_name, *head;
if (verbose)
SSRF_INFO("git storage: create and push remote\n");
/* first make sure the directory for the local cache exists */
subsurface_mkdir(localdir);
head = format_string("refs/heads/%s", branch);
/* set up the origin to point to our remote */
git_repository_init_options init_opts = GIT_REPOSITORY_INIT_OPTIONS_INIT;
init_opts.origin_url = remote;
init_opts.initial_head = head;
/* now initialize the repository with */
git_repository_init_ext(&repo, localdir, &init_opts);
/* create a config so we can set the remote tracking branch */
git_repository_config(&conf, repo);
variable_name = format_string("branch.%s.remote", branch);
git_config_set_string(conf, variable_name, "origin");
free(variable_name);
variable_name = format_string("branch.%s.merge", branch);
git_config_set_string(conf, variable_name, head);
free(head);
free(variable_name);
/* finally create an empty commit and push it to the remote */
if (do_git_save(repo, branch, remote, false, true))
return NULL;
return repo;
}
static git_repository *create_local_repo(const char *localdir, const char *remote, const char *branch, enum remote_transport rt)
{
int error;
git_repository *cloned_repo = NULL;
git_clone_options opts = GIT_CLONE_OPTIONS_INIT;
if (verbose)
SSRF_INFO("git storage: create_local_repo\n");
auth_attempt = 0;
opts.fetch_opts.callbacks.transfer_progress = &transfer_progress_cb;
if (rt == RT_SSH)
opts.fetch_opts.callbacks.credentials = credential_ssh_cb;
else if (rt == RT_HTTPS)
opts.fetch_opts.callbacks.credentials = credential_https_cb;
opts.repository_cb = repository_create_cb;
opts.fetch_opts.callbacks.certificate_check = certificate_check_cb;
opts.checkout_branch = branch;
if (is_subsurface_cloud && !canReachCloudServer(&remote)) {
SSRF_INFO("git storage: cannot reach remote server");
return 0;
}
if (verbose > 1)
SSRF_INFO("git storage: calling git_clone()\n");
error = git_clone(&cloned_repo, remote, localdir, &opts);
if (verbose > 1)
SSRF_INFO("git storage: returned from git_clone() with return value %d\n", error);
if (error) {
SSRF_INFO("git storage: clone of %s failed", remote);
char *msg = "";
if (giterr_last()) {
msg = giterr_last()->message;
SSRF_INFO("git storage: error message was %s\n", msg);
}
char *pattern = format_string("reference 'refs/remotes/origin/%s' not found", branch);
// it seems that we sometimes get 'Reference' and sometimes 'reference'
if (includes_string_caseinsensitive(msg, pattern)) {
/* we're trying to open the remote branch that corresponds
* to our cloud storage and the branch doesn't exist.
* So we need to create the branch and push it to the remote */
if (verbose)
SSRF_INFO("git storage: remote repo didn't include our branch\n");
cloned_repo = create_and_push_remote(localdir, remote, branch);
#if !defined(DEBUG) && !defined(SUBSURFACE_MOBILE)
} else if (is_subsurface_cloud) {
report_error(translate("gettextFromC", "Error connecting to Subsurface cloud storage"));
#endif
} else {
report_error(translate("gettextFromC", "git clone of %s failed (%s)"), remote, msg);
}
free(pattern);
}
return cloned_repo;
}
enum remote_transport url_to_remote_transport(const char *remote)
{
/* figure out the remote transport */
if (strncmp(remote, "ssh://", 6) == 0)
return RT_SSH;
else if (strncmp(remote, "https://", 8) == 0)
return RT_HTTPS;
else
return RT_OTHER;
}
static struct git_repository *get_remote_repo(const char *localdir, const char *remote, const char *branch)
{
struct stat st;
enum remote_transport rt = url_to_remote_transport(remote);
if (verbose > 1) {
SSRF_INFO("git storage: accessing %s\n", remote);
}
git_storage_update_progress(translate("gettextFromC", "Synchronising data file"));
/* Do we already have a local cache? */
if (!subsurface_stat(localdir, &st)) {
if (!S_ISDIR(st.st_mode)) {
if (is_subsurface_cloud)
(void)cleanup_local_cache(remote, branch);
else
report_error("local git cache at '%s' is corrupt", localdir);
return NULL;
}
return update_local_repo(localdir, remote, branch, rt);
} else {
/* We have no local cache yet.
* Take us temporarly online to create a local and
* remote cloud repo.
*/
git_repository *ret;
bool glo = git_local_only;
git_local_only = false;
ret = create_local_repo(localdir, remote, branch, rt);
git_local_only = glo;
if (ret)
git_remote_sync_successful = true;
return ret;
}
/* all normal cases are handled above */
return 0;
}
/*
* This turns a remote repository into a local one if possible.
*
* The recognized formats are
* git://host/repo[branch]
* ssh://host/repo[branch]
* http://host/repo[branch]
* https://host/repo[branch]
* file://repo[branch]
*/
static struct git_repository *is_remote_git_repository(char **remote, const char *branch)
{
char c, *localdir;
char *p = *remote;
while ((c = *p++) >= 'a' && c <= 'z')
/* nothing */;
if (c != ':')
return NULL;
if (*p++ != '/' || *p++ != '/')
return NULL;
/*
* Ok, we found "[a-z]*://" and we think we have a real
* "remote git" format. The "file://" case was handled
* in the calling function.
*
* We now create the SHA1 hash of the whole thing,
* including the branch name. That will be our unique
* unique local repository name.
*
* NOTE! We will create a local repository per branch,
* because
*
* (a) libgit2 remote tracking branch support seems to
* be a bit lacking
* (b) we'll actually check the branch out so that we
* can do merges etc too.
*
* so even if you have a single remote git repo with
* multiple branches for different people, the local
* caches will sadly force that to split into multiple
* individual repositories.
*/
/*
* next we need to make sure that any encoded username
* has been extracted from the URL
*/
char *at = strchr(*remote, '@');
if (at) {
/* was this the @ that denotes an account? that means it was before the
* first '/' after the protocol:// - so let's find a '/' after that and compare */
char *slash = strchr(p, '/');
if (slash && slash > at) {
/* grab the part between "protocol://" and "@" as encoded email address
* (that's our username) and move the rest of the URL forward, remembering
* to copy the closing NUL as well */
prefs.cloud_storage_email_encoded = strndup(p, at - p);
memmove(p, at + 1, strlen(at + 1) + 1);
}
}
localdir = get_local_dir(*remote, branch);
if (!localdir)
return NULL;
/* remember if the current git storage we are working on is our cloud storage
* this is used to create more user friendly error message and warnings */
is_subsurface_cloud = strstr(*remote, prefs.cloud_base_url) != NULL;
/* if we are planning to access the server, make sure it's available and try to
* pick one of the alternative servers if necessary */
if (is_subsurface_cloud && !git_local_only) {
// since we know that this is Subsurface cloud storage, we don't have to
// worry about the local directory name changing if we end up with a different
// cloud_base_url... the algorithm normalizes those URLs
(void)canReachCloudServer((const char **)remote);
}
return get_remote_repo(localdir, *remote, branch);
}
/*
* If it's not a git repo, return NULL. Be very conservative.
*/
struct git_repository *is_git_repository(const char *filename, const char **branchp, const char **remote, bool dry_run)
{
int flen, blen, ret;
int offset = 1;
struct stat st;
git_repository *repo;
char *loc, *branch;
/* we are looking at a new potential remote, but we haven't synced with it */
git_remote_sync_successful = false;
flen = strlen(filename);
if (!flen || filename[--flen] != ']')
return NULL;
/*
* Special-case "file://", and treat it as a local
* repository since libgit2 is insanely slow for that.
*/
if (!strncmp(filename, "file://", 7)) {
filename += 7;
flen -= 7;
}
/* Find the matching '[' */
blen = 0;
while (flen && filename[--flen] != '[')
blen++;
/* Ignore slashes at the end of the repo name */
while (flen && filename[flen-1] == '/') {
flen--;
offset++;
}
if (!flen)
return NULL;
/*
* This is the "point of no return": the name matches
* the git repository name rules, and we will no longer
* return NULL.
*
* We will either return "dummy_git_repository" and the
* branch pointer will have the _whole_ filename in it,
* or we will return a real git repository with the
* branch pointer being filled in with just the branch
* name.
*
* The actual git reading/writing routines can use this
* to generate proper error messages.
*/
*branchp = filename;
loc = format_string("%.*s", flen, filename);
if (!loc)
return dummy_git_repository;
branch = format_string("%.*s", blen, filename + flen + offset);
if (!branch) {
free(loc);
return dummy_git_repository;
}
if (dry_run) {
*branchp = branch;
*remote = loc;
return dummy_git_repository;
}
repo = is_remote_git_repository(&loc, branch);
if (repo) {
if (remote)
*remote = loc;
else
free(loc);
*branchp = branch;
return repo;
}
if (subsurface_stat(loc, &st) < 0 || !S_ISDIR(st.st_mode)) {
if (verbose)
SSRF_INFO("git storage: loc %s wasn't found or is not a directory\n", loc);
free(loc);
free(branch);
return dummy_git_repository;
}
ret = git_repository_open(&repo, loc);
free(loc);
if (ret < 0) {
free(branch);
return dummy_git_repository;
}
if (remote)
*remote = NULL;
*branchp = branch;
return repo;
}
int git_create_local_repo(const char *filename)
{
git_repository *repo;
char *path = strdup(filename);
char *branch = strchr(path, '[');
if (branch)
*branch = '\0';
int ret = git_repository_init(&repo, path, false);
free(path);
if (ret != 0)
(void)report_error("Create local repo failed with error code %d", ret);
git_repository_free(repo);
return ret;
}