diff --git a/src/libostree/ostree-sysroot-deploy.c b/src/libostree/ostree-sysroot-deploy.c index 5b126d89df..0b83784564 100644 --- a/src/libostree/ostree-sysroot-deploy.c +++ b/src/libostree/ostree-sysroot-deploy.c @@ -1925,8 +1925,8 @@ install_deployment_kernel (OstreeSysroot *sysroot, } else { - if (!copy_dir_recurse(kernel_layout->boot_dfd, bootcsum_dfd, kernel_layout->devicetree_srcpath, - sysroot->debug_flags, cancellable, error)) + if (!copy_dir_recurse (kernel_layout->boot_dfd, bootcsum_dfd, kernel_layout->devicetree_srcpath, + sysroot->debug_flags, cancellable, error)) return FALSE; } } @@ -1959,6 +1959,8 @@ install_deployment_kernel (OstreeSysroot *sysroot, } } + /* NOTE: if adding more things in bootcsum_dfd, also update get_kernel_layout_size() */ + g_autoptr(GPtrArray) overlay_initrds = NULL; for (char **it = _ostree_deployment_get_overlay_initrds (deployment); it && *it; it++) { @@ -2487,6 +2489,232 @@ write_deployments_finish (OstreeSysroot *self, return TRUE; } +static gboolean +add_file_size_if_nonnull (int dfd, + const char *path, + guint64 *inout_size, + GError **error) +{ + if (path == NULL) + return TRUE; + + struct stat stbuf; + if (!glnx_fstatat (dfd, path, &stbuf, 0, error)) + return FALSE; + + *inout_size += stbuf.st_size; + return TRUE; +} + +/* calculates the total size of the bootcsum dir in /boot after we would copy + * it. This reflects the logic in install_deployment_kernel(). */ +static gboolean +get_kernel_layout_size (OstreeSysroot *self, + OstreeDeployment *deployment, + guint64 *out_size, + GCancellable *cancellable, + GError **error) +{ + g_autofree char *deployment_dirpath = ostree_sysroot_get_deployment_dirpath (self, deployment); + glnx_autofd int deployment_dfd = -1; + if (!glnx_opendirat (self->sysroot_fd, deployment_dirpath, FALSE, + &deployment_dfd, error)) + return FALSE; + + g_autoptr(OstreeKernelLayout) kernel_layout = NULL; + if (!get_kernel_from_tree (self, deployment_dfd, &kernel_layout, + cancellable, error)) + return FALSE; + + guint64 bootdir_size = 0; + if (!add_file_size_if_nonnull (kernel_layout->boot_dfd, kernel_layout->kernel_srcpath, &bootdir_size, error)) + return FALSE; + if (!add_file_size_if_nonnull (kernel_layout->boot_dfd, kernel_layout->initramfs_srcpath, &bootdir_size, error)) + return FALSE; + if (kernel_layout->devicetree_srcpath) + { + if (kernel_layout->devicetree_namever) + { + if (!add_file_size_if_nonnull (kernel_layout->boot_dfd, kernel_layout->devicetree_srcpath, &bootdir_size, error)) + return FALSE; + } + else + { + guint64 dirsize = 0; + if (!ot_get_dir_size (kernel_layout->boot_dfd, kernel_layout->devicetree_srcpath, &dirsize, cancellable, error)) + return FALSE; + bootdir_size += dirsize; + } + } + if (!add_file_size_if_nonnull (kernel_layout->boot_dfd, kernel_layout->kernel_hmac_srcpath, &bootdir_size, error)) + return FALSE; + if (!add_file_size_if_nonnull (kernel_layout->boot_dfd, kernel_layout->aboot_srcpath, &bootdir_size, error)) + return FALSE; + + *out_size = bootdir_size; + return TRUE; +} + +/* Analyze /boot and figure out if the new deployments won't fit in the + * remaining space. If they won't, check if deleting the deployments that are + * getting rotated out (e.g. the current rollback) would free up sufficient + * space. If so, call ostree_sysroot_write_deployments() to delete them. */ +static gboolean +auto_early_prune_old_deployments (OstreeSysroot *self, + GPtrArray *new_deployments, + GCancellable *cancellable, + GError **error) +{ + /* If we're not booted into a deployment, then this is some kind of e.g. disk + * creation/provisioning. The situation isn't as dire, so let's not resort to + * auto-pruning and instead let possible ENOSPC errors naturally bubble. */ + if (self->booted_deployment == NULL) + return TRUE; + + /* pre-emptive cleanup of any cruft in /boot to free up any wasted space */ + if (!_ostree_sysroot_cleanup_bootfs (self, cancellable, error)) + return FALSE; + + /* tracks all the bootcsums currently in /boot */ + g_autoptr(GHashTable) current_bootcsums = g_hash_table_new_full (g_str_hash, g_str_equal, g_free, NULL); + + /* tracks all the bootcsums of new_deployments */ + g_autoptr(GHashTable) new_bootcsums = g_hash_table_new_full (g_str_hash, g_str_equal, g_free, NULL); + + g_auto(GStrv) bootdirs = NULL; + if (!_ostree_sysroot_list_all_boot_directories (self, &bootdirs, cancellable, error)) + return glnx_prefix_error (error, "listing bootcsum directories in bootfs"); + + for (char **it = bootdirs; it && *it; it++) + { + const char *bootdir = *it; + + g_autofree char *bootcsum = NULL; + if (!_ostree_sysroot_parse_bootdir_name (bootdir, NULL, &bootcsum)) + g_assert_not_reached (); /* checked in _ostree_sysroot_list_all_boot_directories() */ + + guint64 bootdir_size; + g_autofree char *ostree_bootdir = g_build_filename ("ostree", bootdir, NULL); + if (!ot_get_dir_size (self->boot_fd, ostree_bootdir, &bootdir_size, cancellable, error)) + return FALSE; + + /* for our purposes of sizing bootcsums, it's highly unlikely we need a + * guint64; cast it down to guint so we can more easily store it */ + if (bootdir_size > G_MAXUINT) + { + /* If it somehow happens, don't make it fatal. this is all an + * optimization anyway, so let the deployment continue. But log it so + * that users report it and we tweak this code to handle this. + * + * An alternative is working with the block size instead, which would + * be easier to handle. But ideally, `ot_get_dir_size` would be block + * size aware too for better accuracy, which is awkward since the + * function itself is generic over directories and doesn't consider + * e.g. mount points from different filesystems. */ + g_printerr ("bootcsum %s size exceeds %u; disabling auto-prune optimization", bootdir, G_MAXUINT); + return TRUE; + } + + g_assert_cmpuint (bootdir_size, >, 0); + g_hash_table_insert (current_bootcsums, g_steal_pointer (&bootcsum), GUINT_TO_POINTER (bootdir_size)); + } + + /* total size of all bootcsums dirs that aren't already in /boot */ + guint64 net_new_bootcsum_dirs_total_size = 0; + + /* now gather all the bootcsums of the new deployments */ + for (guint i = 0; i < new_deployments->len; i++) + { + OstreeDeployment *deployment = new_deployments->pdata[i]; + + const char *bootcsum = ostree_deployment_get_bootcsum (deployment); + gpointer bootdir_sizep = g_hash_table_lookup (current_bootcsums, bootcsum); + if (bootdir_sizep != 0) + { + g_hash_table_insert (new_bootcsums, g_strdup (bootcsum), bootdir_sizep); + continue; + } + + guint64 bootdir_size; + if (!get_kernel_layout_size (self, deployment, &bootdir_size, cancellable, error)) + return FALSE; + + /* see similar logic in previous loop */ + if (bootdir_size > G_MAXUINT) + { + g_printerr ("deployment %s kernel layout size exceeds %u; disabling auto-prune optimization", + ostree_deployment_get_csum (deployment), G_MAXUINT); + return TRUE; + } + + g_hash_table_insert (new_bootcsums, g_strdup (bootcsum), GUINT_TO_POINTER (bootdir_size)); + + /* it wasn't in current_bootcsums; add */ + net_new_bootcsum_dirs_total_size += bootdir_size; + } + + /* get bootfs free space */ + struct statvfs stvfsbuf; + if (TEMP_FAILURE_RETRY (fstatvfs (self->boot_fd, &stvfsbuf)) < 0) + return glnx_throw_errno_prefix (error, "fstatvfs(boot)"); + + guint64 available_size = stvfsbuf.f_bsize * stvfsbuf.f_bfree; + + /* does the bootfs have enough free space for net-new bootdirs? */ + if (net_new_bootcsum_dirs_total_size <= available_size) + return TRUE; /* nothing to do! */ + + /* OK, we would fail if we tried to write the new bootdirs. Is it salvageable? + * First, calculate how much space we could save with the bootcsums scheduled + * for removal. */ + guint64 size_to_remove = 0; + GLNX_HASH_TABLE_FOREACH_KV (current_bootcsums, const char *, bootcsum, gpointer, sizep) + { + if (!g_hash_table_contains (new_bootcsums, bootcsum)) + size_to_remove += GPOINTER_TO_UINT (sizep); + } + + if (net_new_bootcsum_dirs_total_size > (available_size + size_to_remove)) + { + /* Even if we auto-pruned, the new bootdirs wouldn't fit. Just let the + * code continue and let it hit ENOSPC. */ + return TRUE; + } + + ot_journal_print (LOG_INFO, "Insufficient space left in bootfs; updating bootloader in two steps"); + + /* Auto-pruning can salvage the situation. Calculate the set of deployments in common. */ + g_autoptr(GPtrArray) common_deployments = g_ptr_array_new (); + for (guint i = 0; i < self->deployments->len; i++) + { + OstreeDeployment *deployment = self->deployments->pdata[i]; + const char *bootcsum = ostree_deployment_get_bootcsum (deployment); + if (g_hash_table_contains (new_bootcsums, bootcsum)) + { + g_ptr_array_add (common_deployments, deployment); + } + else if (deployment == self->booted_deployment) + g_assert_not_reached (); /* we always keep the booted deployment */ + } + + /* if we're here, it means that removing some deployments is possible to gain space */ + g_assert_cmpuint (common_deployments->len, <, self->deployments->len); + + /* Do an initial write out where we do a pure deployment pruning, keeping + * common deployments. To be safe, disable auto-pruning to make recursion + * impossible (though the logic in this function shouldn't kick in anyway in + * that recursive call). Disable cleaning since it's an intermediate stage. */ + OstreeSysrootWriteDeploymentsOpts opts = { .do_postclean = FALSE, .disable_auto_early_prune = TRUE }; + if (!ostree_sysroot_write_deployments_with_options (self, common_deployments, &opts, cancellable, error)) + return FALSE; + + /* clean up /boot */ + if (!_ostree_sysroot_cleanup_bootfs (self, cancellable, error)) + return FALSE; + + return TRUE; +} + /** * ostree_sysroot_write_deployments_with_options: * @self: Sysroot @@ -2516,6 +2744,12 @@ ostree_sysroot_write_deployments_with_options (OstreeSysroot *self, if (!_ostree_sysroot_ensure_writable (self, error)) return FALSE; + /* for now, this is gated on an environment variable */ + const char *opted_in = getenv ("OSTREE_EXP_AUTO_EARLY_PRUNE"); + if (opted_in && *opted_in != '\0' && !opts->disable_auto_early_prune && + !auto_early_prune_old_deployments (self, new_deployments, cancellable, error)) + return FALSE; + /* Dealing with the staged deployment is quite tricky here. This function is * primarily concerned with writing out "finalized" deployments which have * bootloader entries. Originally, we simply dropped the staged deployment @@ -2630,7 +2864,7 @@ ostree_sysroot_write_deployments_with_options (OstreeSysroot *self, OstreeDeployment *deployment = new_deployments->pdata[i]; g_assert (!ostree_deployment_is_staged (deployment)); - if (deployment == self->booted_deployment) + if (ostree_deployment_equal (deployment, self->booted_deployment)) found_booted_deployment = TRUE; g_autoptr(GFile) deployment_root = ostree_sysroot_get_deployment_directory (self, deployment); diff --git a/src/libostree/ostree-sysroot.h b/src/libostree/ostree-sysroot.h index 23c7139aaa..b159020d1e 100644 --- a/src/libostree/ostree-sysroot.h +++ b/src/libostree/ostree-sysroot.h @@ -193,6 +193,7 @@ gboolean ostree_sysroot_write_deployments (OstreeSysroot *self, typedef struct { gboolean do_postclean; + gboolean disable_auto_early_prune; gboolean unused_bools[7]; int unused_ints[7]; gpointer unused_ptrs[7];