kicad/common/git/git_pull_handler.cpp

341 lines
11 KiB
C++

/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2023 KiCad Developers, see AUTHORS.TXT for contributors.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 3
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, you may find one here:
* http://www.gnu.org/licenses/gpl-3.0.html
* or you may search the http://www.gnu.org website for the version 3 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include "git_pull_handler.h"
#include <git/kicad_git_common.h>
#include <wx/log.h>
#include <iostream>
#include <time.h>
GIT_PULL_HANDLER::GIT_PULL_HANDLER( git_repository* aRepo ) : KIGIT_COMMON( aRepo )
{}
GIT_PULL_HANDLER::~GIT_PULL_HANDLER()
{}
bool GIT_PULL_HANDLER::PerformFetch()
{
// Fetch updates from remote repository
git_remote* remote = nullptr;
if( git_remote_lookup( &remote, m_repo, "origin" ) != 0 )
{
AddErrorString( wxString::Format( _( "Could not lookup remote '%s'" ), "origin" ).ToStdString() );
return false;
}
git_remote_callbacks remoteCallbacks = GIT_REMOTE_CALLBACKS_INIT;
remoteCallbacks.sideband_progress = progress_cb;
remoteCallbacks.transfer_progress = transfer_progress_cb;
remoteCallbacks.credentials = credentials_cb;
remoteCallbacks.payload = this;
if( git_remote_connect( remote, GIT_DIRECTION_FETCH, &remoteCallbacks, nullptr, nullptr ) )
{
git_remote_free( remote );
AddErrorString( wxString::Format( _( "Could not connect to remote '%s'" ), "origin" ).ToStdString() );
return false;
}
git_fetch_options fetchOptions = GIT_FETCH_OPTIONS_INIT;
fetchOptions.callbacks = remoteCallbacks;
if( git_remote_fetch( remote, nullptr, &fetchOptions, nullptr ) )
{
git_remote_free( remote );
AddErrorString( wxString::Format( _( "Could not fetch data from remote '%s'" ), "origin" ) );
return false;
}
git_remote_free( remote );
return true;
}
PullResult GIT_PULL_HANDLER::PerformPull()
{
PullResult result = PullResult::Success;
if( !PerformFetch() )
return PullResult::Error;
git_oid pull_merge_oid = {};
if( git_repository_fetchhead_foreach( m_repo, fetchhead_foreach_cb, &pull_merge_oid ) )
{
AddErrorString( _( "Could not read 'FETCH_HEAD'" ) );
return PullResult::Error;
}
git_annotated_commit* fetchhead_commit;
if( git_annotated_commit_lookup( &fetchhead_commit, m_repo, &pull_merge_oid ) )
{
AddErrorString( _( "Could not lookup commit" ) );
return PullResult::Error;
}
const git_annotated_commit* merge_commits[] = { fetchhead_commit };
git_merge_analysis_t merge_analysis;
git_merge_preference_t merge_preference = GIT_MERGE_PREFERENCE_NONE;
if( git_merge_analysis( &merge_analysis, &merge_preference, m_repo, merge_commits, 1 ) )
{
AddErrorString( _( "Could not analyze merge" ) );
git_annotated_commit_free( fetchhead_commit );
return PullResult::Error;
}
if( !( merge_analysis & GIT_MERGE_ANALYSIS_NORMAL ) )
git_annotated_commit_free( fetchhead_commit );
if( merge_analysis & GIT_MERGE_ANALYSIS_UNBORN )
{
AddErrorString( _( "Invalid HEAD. Cannot merge." ) );
return PullResult::MergeFailed;
}
// Nothing to do if the repository is up to date
if( merge_analysis & GIT_MERGE_ANALYSIS_UP_TO_DATE )
{
git_repository_state_cleanup( m_repo );
return PullResult::UpToDate;
}
// Fast-forward is easy, just update the local reference
if( merge_analysis & GIT_MERGE_ANALYSIS_FASTFORWARD )
{
return handleFastForward();
}
if( merge_analysis & GIT_MERGE_ANALYSIS_NORMAL )
{
PullResult ret = handleMerge( merge_commits, 1 );
git_annotated_commit_free( fetchhead_commit );
return ret;
}
//TODO: handle merges when they need to be resolved
return result;
}
const std::vector<std::pair<std::string, std::vector<CommitDetails>>>& GIT_PULL_HANDLER::GetFetchResults() const {
return m_fetchResults;
}
std::string GIT_PULL_HANDLER::getFirstLineFromCommitMessage( const std::string& aMessage )
{
size_t firstLineEnd = aMessage.find_first_of( '\n' );
if( firstLineEnd != std::string::npos )
return aMessage.substr( 0, firstLineEnd );
return aMessage;
}
std::string GIT_PULL_HANDLER::getFormattedCommitDate( const git_time& aTime )
{
char dateBuffer[64];
time_t time = static_cast<time_t>( aTime.time );
strftime( dateBuffer, sizeof( dateBuffer ), "%Y-%b-%d %H:%M:%S", gmtime( &time ) );
return dateBuffer;
}
PullResult GIT_PULL_HANDLER::handleFastForward()
{
// Update local references with fetched data
git_reference* updatedRef = nullptr;
if( git_repository_head( &updatedRef, m_repo ) )
{
AddErrorString( _( "Could not get repository head" ) );
return PullResult::Error;
}
const char* updatedRefName = git_reference_name( updatedRef );
git_reference_free( updatedRef );
git_oid updatedRefOid;
if( git_reference_name_to_id( &updatedRefOid, m_repo, updatedRefName ) )
{
AddErrorString( wxString::Format( _( "Could not get reference OID for reference '%s'" ), updatedRefName ) );
return PullResult::Error;
}
git_checkout_options checkoutOptions = GIT_CHECKOUT_OPTIONS_INIT;
checkoutOptions.checkout_strategy = GIT_CHECKOUT_SAFE;
if( git_checkout_head( m_repo, &checkoutOptions ) )
{
AddErrorString( _( "Failed to perform checkout operation." ) );
return PullResult::Error;
}
// Collect commit details for updated references
git_revwalk* revWalker = nullptr;
git_revwalk_new( &revWalker, m_repo );
git_revwalk_sorting( revWalker, GIT_SORT_TIME );
git_revwalk_push_glob( revWalker, updatedRefName );
git_oid commitOid;
while( git_revwalk_next( &commitOid, revWalker ) == 0 )
{
git_commit* commit = nullptr;
if( git_commit_lookup( &commit, m_repo, &commitOid ) )
{
AddErrorString( wxString::Format( _( "Could not lookup commit '{}'" ), git_oid_tostr_s( &commitOid ) ) );
git_revwalk_free( revWalker );
return PullResult::Error;
}
CommitDetails details;
details.m_sha = git_oid_tostr_s( &commitOid );
details.m_firstLine = getFirstLineFromCommitMessage( git_commit_message( commit ) );
details.m_author = git_commit_author( commit )->name;
details.m_date = getFormattedCommitDate( git_commit_author( commit )->when );
std::pair<std::string, std::vector<CommitDetails>>& branchCommits =
m_fetchResults.emplace_back();
branchCommits.first = updatedRefName;
branchCommits.second.push_back( details );
//TODO: log these to the parent
git_commit_free( commit );
}
git_revwalk_free( revWalker );
git_repository_state_cleanup( m_repo );
return PullResult::FastForward;
}
PullResult GIT_PULL_HANDLER::handleMerge( const git_annotated_commit** aMergeHeads,
size_t aMergeHeadsCount )
{
git_merge_options merge_opts = GIT_MERGE_OPTIONS_INIT;
git_checkout_options checkout_opts = GIT_CHECKOUT_OPTIONS_INIT;
checkout_opts.checkout_strategy = GIT_CHECKOUT_SAFE;
if( git_merge( m_repo, aMergeHeads, aMergeHeadsCount, &merge_opts, &checkout_opts ) )
{
AddErrorString( _( "Could not merge commits" ) );
return PullResult::Error;
}
// Get the repository index
git_index* index = nullptr;
if( git_repository_index( &index, m_repo ) )
{
AddErrorString( _( "Could not get repository index" ) );
return PullResult::Error;
}
// Check for conflicts
git_index_conflict_iterator* conflicts = nullptr;
if( git_index_conflict_iterator_new( &conflicts, index ) )
{
AddErrorString( _( "Could not get conflict iterator" ) );
return PullResult::Error;
}
const git_index_entry* ancestor = nullptr;
const git_index_entry* our = nullptr;
const git_index_entry* their = nullptr;
std::vector<ConflictData> conflict_data;
while( git_index_conflict_next( &ancestor, &our, &their, conflicts ) == 0 )
{
// Case 3: Both files have changed
if( ancestor && our && their )
{
ConflictData conflict_datum;
conflict_datum.filename = our->path;
conflict_datum.our_oid = our->id;
conflict_datum.their_oid = their->id;
conflict_datum.our_commit_time = our->mtime.seconds;
conflict_datum.their_commit_time = their->mtime.seconds;
conflict_datum.our_status = _( "Changed" );
conflict_datum.their_status = _( "Changed" );
conflict_datum.use_ours = true;
conflict_data.push_back( conflict_datum );
}
// Case 4: File added in both ours and theirs
else if( !ancestor && our && their )
{
ConflictData conflict_datum;
conflict_datum.filename = our->path;
conflict_datum.our_oid = our->id;
conflict_datum.their_oid = their->id;
conflict_datum.our_commit_time = our->mtime.seconds;
conflict_datum.their_commit_time = their->mtime.seconds;
conflict_datum.our_status = _( "Added" );
conflict_datum.their_status = _( "Added" );
conflict_datum.use_ours = true;
conflict_data.push_back( conflict_datum );
}
// Case 1: Remote file has changed or been added, local file has not
else if( their && !our )
{
// Accept their changes
git_index_add( index, their );
}
// Case 2: Local file has changed or been added, remote file has not
else if( our && !their )
{
// Accept our changes
git_index_add( index, our );
}
else
{
wxLogError( wxS( "Unexpected conflict state" ) );
}
}
if( conflict_data.empty() )
{
git_index_conflict_cleanup( index );
git_index_write( index );
}
git_index_conflict_iterator_free( conflicts );
git_index_free( index );
return conflict_data.empty() ? PullResult::Success : PullResult::MergeFailed;
}
void GIT_PULL_HANDLER::UpdateProgress( int aCurrent, int aTotal, const wxString& aMessage )
{
ReportProgress( aCurrent, aTotal, aMessage );
}