#include #include #include #include "fs.h" #include "toast.h" #include "pool.h" #include "updater.h" #include struct thread_object_info { char* of_dir; char* remote; struct revision_t* rev; size_t index; }; static void* thread_download(void* pinfo) { struct thread_object_info* info = pinfo; if (info) { char* of_dir = info->of_dir; char* remote = info->remote; struct revision_t* rev = info->rev; size_t i = info->index; struct file_info* file = &rev->files[i]; if (file->type == TYPE_WRITE) { fprintf(stderr, "\rChecking %zu/%zu (%s)", i+1, rev->file_count, file->object); if (verifyFileHash(of_dir, file)) { fprintf(stderr, "\rDownloading %zu/%zu (%s)", i+1, rev->file_count, file->object); downloadObject(of_dir, remote, file); } } } return NULL; } void update_setup(char* of_dir, char* remote, int local_rev, int remote_rev) { struct revision_t* rev = fastFowardRevisions(remote, local_rev, remote_rev); if (rev) { fprintf(stderr, "Validating revisions"); for (size_t i = 0; i < rev->file_count; ++i) { struct file_info* file = &rev->files[i]; if (leavesRelativePath(file->path)) { fprintf(stderr, "Revision contains invalid path '%s'\n", file->path); freeRevision(rev); return; } } struct thread_object_info* thread_info = malloc(sizeof(struct thread_object_info) * rev->file_count); struct pool_t* pool = pool_init(); for (size_t i = 0; i < rev->file_count; ++i) { struct thread_object_info* info = &thread_info[i]; info->of_dir = of_dir; info->remote = remote; info->rev = rev; info->index = i; pool_submit(pool, thread_download, info); } pool_complete(pool); pool_free(pool); free(thread_info); puts(""); for (size_t i = 0; i < rev->file_count; ++i) { struct file_info* file = &rev->files[i]; if (file->type != TYPE_DELETE) continue; fprintf(stderr, "\rDeleting %zu/%zu", i+1, rev->file_count); size_t len = strlen(of_dir) + strlen(OS_PATH_SEP) + strlen(file->path) + 1; char* buf = malloc(len); snprintf(buf, len, "%s%s%s", of_dir, OS_PATH_SEP, file->path); if (isFile(buf) && remove(buf)) { fprintf(stderr, "\rFailed to delete %s\n", file->path); } free(buf); } for (size_t i = 0; i < rev->file_count; ++i) { struct file_info* file = &rev->files[i]; if (file->type != TYPE_MKDIR) continue; size_t len = strlen(of_dir) + strlen(OS_PATH_SEP) + strlen(file->path) + 1; char* buf = malloc(len); fprintf(stderr, "\rCreating %zu/%zu", i+1, rev->file_count); snprintf(buf, len, "%s%s%s", of_dir, OS_PATH_SEP, file->path); if (!isDir(buf) && makeDir(buf)) { fprintf(stderr, "\nFailed to create %s\n", file->path); } free(buf); } for (size_t i = 0; i < rev->file_count; ++i) { struct file_info* file = &rev->files[i]; if (file->type != TYPE_WRITE) continue; fprintf(stderr, "\rInstalling %zu/%zu (%s)", i+1, rev->file_count, file->object); if (applyObject(of_dir, file)) { fprintf(stderr, "\nFailed to write %s\n", file->path); } } removeObjects(of_dir); setLocalRemote(of_dir, remote); setLocalRevision(of_dir, remote_rev); fprintf(stderr, "\nUpdated OpenFortress\n"); freeRevision(rev); } }