/* * HardInfo - Displays System Information * Copyright (C) 2017 L. A. F. Pereira * * 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, version 2 or later. * * 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, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #include "hardinfo.h" #include "util_sysobj.h" /* for SEQ() */ /* Using a slightly modified gg_key_file_parse_string_as_value() * from GLib in flatten(), to escape characters and the separator. * The function is not public in GLib and we don't have a GKeyFile * to pass it anyway. */ /* Now in hardinfo.h -- #include "gg_key_file_parse_string_as_value.c" */ static const gchar *info_column_titles[] = { "TextValue", "Value", "Progress", "Extra1", "Extra2" }; struct Info *info_new(void) { struct Info *info = g_new0(struct Info, 1); info->groups = g_array_new(FALSE, FALSE, sizeof(struct InfoGroup)); info->view_type = SHELL_VIEW_NORMAL; info->column_headers_visible = FALSE; info->zebra_visible = FALSE; info->normalize_percentage = TRUE; return info; } void info_group_add_field(struct InfoGroup *group, struct InfoField field) { if (!group) return; /* info_field_last() */ if (!field.name) return; g_array_append_val(group->fields, field); } void info_group_add_fieldsv(struct InfoGroup *group, va_list ap) { while (1) { struct InfoField field = va_arg(ap, struct InfoField); /* info_field_last() */ if (!field.name) break; g_array_append_val(group->fields, field); } } void info_group_add_fields(struct InfoGroup *group, ...) { va_list ap; va_start(ap, group); info_group_add_fieldsv(group, ap); va_end(ap); } struct InfoGroup *info_add_group(struct Info *info, const gchar *group_name, ...) { struct InfoGroup group = { .name = group_name, .fields = g_array_new(FALSE, FALSE, sizeof(struct InfoField)) }; va_list ap; va_start(ap, group_name); info_group_add_fieldsv(&group, ap); va_end(ap); g_array_append_val(info->groups, group); return &g_array_index(info->groups, struct InfoGroup, info->groups->len - 1); } struct InfoField info_field_printf(const gchar *name, const gchar *format, ...) { gchar *value; va_list ap; va_start(ap, format); value = g_strdup_vprintf(format, ap); va_end(ap); return (struct InfoField) { .name = name, .value = value, .free_value_on_flatten = TRUE, }; } void info_group_strip_extra(struct InfoGroup *group) { guint fi; char *val, *oldval; struct InfoField *field; for (fi = 0; fi < group->fields->len; fi++) { field = &g_array_index(group->fields, struct InfoField, fi); if (field->value){ val = strrchr(field->value, '|'); if (val) { oldval = (gchar*)field->value; field->value = strdup(val + 1); g_free(oldval); } } } } void info_add_computed_group(struct Info *info, const gchar *name, const gchar *value) { /* This is a scaffolding method: HardInfo should move away from pre-computing * the strings in favor of storing InfoGroups instead; while modules are not * fully converted, use this instead. */ struct Info *tmp_info = NULL; struct InfoGroup donor = {}; gchar *tmp_str = NULL; if (name) tmp_str = g_strdup_printf("[%s]\n%s", name, value); else tmp_str = g_strdup(value); tmp_info = info_unflatten(tmp_str); if (tmp_info->groups->len != 1) { fprintf(stderr, "info_add_computed_group(): expected only one group in value! (actual: %d)\n", tmp_info->groups->len); } else { donor = g_array_index(tmp_info->groups, struct InfoGroup, 0); g_array_append_val(info->groups, donor); } g_free(tmp_info); // TODO: doesn't do enough g_free(tmp_str); } void info_add_computed_group_wo_extra(struct Info *info, const gchar *name, const gchar *value) { /* This is a scaffolding method: HardInfo should move away from pre-computing * the strings in favor of storing InfoGroups instead; while modules are not * fully converted, use this instead. */ struct InfoGroup *agroup; info_add_computed_group(info, name, value); if (info->groups->len > 0) { agroup = &g_array_index(info->groups, struct InfoGroup, info->groups->len - 1); info_group_strip_extra(agroup); } } void info_set_column_title(struct Info *info, const gchar *column, const gchar *title) { guint i; for (i = 0; i < G_N_ELEMENTS(info_column_titles); i++) { if (g_str_equal(info_column_titles[i], column)) { info->column_titles[i] = title; return; } } } void info_set_column_headers_visible(struct Info *info, gboolean setting) { info->column_headers_visible = setting; } void info_set_zebra_visible(struct Info *info, gboolean setting) { info->zebra_visible = setting; } void info_set_normalize_percentage(struct Info *info, gboolean setting) { info->normalize_percentage = setting; } void info_set_view_type(struct Info *info, ShellViewType setting) { info->view_type = setting; } void info_set_reload_interval(struct Info *info, int setting) { info->reload_interval = setting; } static int info_field_cmp_name_ascending(const void *a, const void *b) { const struct InfoField *aa = a, *bb = b; return g_strcmp0(aa->name, bb->name); } static int info_field_cmp_name_descending(const void *a, const void *b) { const struct InfoField *aa = a, *bb = b; return g_strcmp0(bb->name, aa->name); } static int info_field_cmp_value_ascending(const void *a, const void *b) { const struct InfoField *aa = a, *bb = b; return g_strcmp0(aa->value, bb->value); } static int info_field_cmp_value_descending(const void *a, const void *b) { const struct InfoField *aa = a, *bb = b; return g_strcmp0(bb->value, aa->value); } static int info_field_cmp_tag_ascending(const void *a, const void *b) { const struct InfoField *aa = a, *bb = b; return g_strcmp0(aa->tag, bb->tag); } static int info_field_cmp_tag_descending(const void *a, const void *b) { const struct InfoField *aa = a, *bb = b; return g_strcmp0(bb->tag, aa->tag); } static const GCompareFunc sort_functions[INFO_GROUP_SORT_MAX] = { [INFO_GROUP_SORT_NONE] = NULL, [INFO_GROUP_SORT_NAME_ASCENDING] = info_field_cmp_name_ascending, [INFO_GROUP_SORT_NAME_DESCENDING] = info_field_cmp_name_descending, [INFO_GROUP_SORT_VALUE_ASCENDING] = info_field_cmp_value_ascending, [INFO_GROUP_SORT_VALUE_DESCENDING] = info_field_cmp_value_descending, [INFO_GROUP_SORT_TAG_ASCENDING] = info_field_cmp_tag_ascending, [INFO_GROUP_SORT_TAG_DESCENDING] = info_field_cmp_tag_descending, }; static void field_free_strings(struct InfoField *field) { if (field->free_value_on_flatten) g_free((gchar *)field->value); if (field->free_name_on_flatten) g_free((gchar *)field->name); g_free(field->tag); } static void free_group_fields(struct InfoGroup *group) { if (group && group->fields) { guint i; for (i = 0; i < group->fields->len; i++) { struct InfoField *field = &g_array_index(group->fields, struct InfoField, i); field_free_strings(field); } g_array_free(group->fields, TRUE); } } static void flatten_group(GString *output, const struct InfoGroup *group, guint group_count) { guint i; if (group->name != NULL) g_string_append_printf(output, "[%s#%d]\n", group->name, group_count); if (group->sort != INFO_GROUP_SORT_NONE) g_array_sort(group->fields, sort_functions[group->sort]); if (group->fields) { for (i = 0; i < group->fields->len; i++) { struct InfoField *field = &g_array_index(group->fields, struct InfoField, i); gchar tmp_tag[256] = ""; /* for generated tag */ gboolean do_escape = TRUE; /* refers to the value side only */ if (field->value && strchr(field->value, '|') ) { /* turning off escaping for values that may have columns */ do_escape = FALSE; /* TODO:/FIXME: struct InfoField should store the column values * in an array instead of packing them into one value with '|'. * Then each value can be escaped and joined together with '|' * for flatten(). unflatten() can then split on non-escaped '|', * and unescape the result values into the column value array. * Another way to do this might be to check * .column_headers_visible in struct Info, but that is not * available here. */ } const gchar *tp = field->tag; gboolean tagged = !!tp; gboolean flagged = field->highlight || field->report_details || field->value_has_vendor; if (!tp) { snprintf(tmp_tag, 255, "ITEM%d-%d", group_count, i); tp = tmp_tag; } if (!field->label_is_escaped) { if (strchr(field->name, '=') || strchr(field->name, '$')) { // TODO: what about # ? gchar *ofn = (gchar*)field->name; field->name = key_label_escape(ofn); g_free(ofn); field->label_is_escaped = TRUE; } } if (tagged || flagged || field->icon) { g_string_append_printf(output, "$%s%s%s%s%s$", field->label_is_escaped ? "@" : "", field->highlight ? "*" : "", field->report_details ? "!" : "", field->value_has_vendor ? "^" : "", tp); } if (do_escape) { gchar *escaped_value = gg_key_file_parse_string_as_value(field->value, '|'); g_string_append_printf(output, "%s=%s\n", field->name, escaped_value); g_free(escaped_value); } else { g_string_append_printf(output, "%s=%s\n", field->name, field->value); } } } else if (group->computed) { g_string_append_printf(output, "%s\n", group->computed); } } static void flatten_shell_param(GString *output, const struct InfoGroup *group, guint group_count) { guint i; if (!group->fields) return; for (i = 0; i < group->fields->len; i++) { struct InfoField *field = &g_array_index(group->fields, struct InfoField, i); gchar tmp_tag[256] = ""; /* for generated tag */ const gchar *tp = field->tag; gboolean tagged = !!tp; if (!tp) { snprintf(tmp_tag, 255, "ITEM%d-%d", group_count, i); tp = tmp_tag; } if (field->update_interval) { g_string_append_printf(output, "UpdateInterval$%s%s%s=%d\n", tagged ? tp : "", tagged ? "$" : "", /* tag and close or nothing */ field->name, field->update_interval); } if (field->icon) { g_string_append_printf(output, "Icon$%s$=%s\n", tp, field->icon); } } } static void flatten_shell_param_global(GString *output, const struct Info *info) { guint i; g_string_append_printf(output, "ViewType=%d\n", info->view_type); g_string_append_printf(output, "ShowColumnHeaders=%s\n", info->column_headers_visible ? "true" : "false"); if (info->zebra_visible) g_string_append(output, "Zebra=1\n"); if (info->reload_interval) g_string_append_printf(output, "ReloadInterval=%d\n", info->reload_interval); if (!info->normalize_percentage) g_string_append(output, "NormalizePercentage=false\n"); for (i = 0; i < G_N_ELEMENTS(info_column_titles); i++) { if (!info->column_titles[i]) continue; g_string_append_printf(output, "ColumnTitle$%s=%s\n", info_column_titles[i], info->column_titles[i]); } } gchar *info_flatten(struct Info *info) { /* This is a scaffolding method: eventually the HardInfo shell should * understand a struct Info instead of parsing these strings, which are * brittle and unnecessarily complicates things. Being a temporary * method, no attention is paid to improve the memory allocation * strategy. */ GString *values; GString *shell_param; guint i; values = g_string_new(NULL); shell_param = g_string_new(NULL); if (info->groups) { for (i = 0; i < info->groups->len; i++) { struct InfoGroup *group = &g_array_index(info->groups, struct InfoGroup, i); flatten_group(values, group, i); flatten_shell_param(shell_param, group, i); free_group_fields(group); } g_array_free(info->groups, TRUE); } flatten_shell_param_global(shell_param, info); g_string_append_printf(values, "[$ShellParam$]\n%s", shell_param->str); g_string_free(shell_param, TRUE); g_free(info); return g_string_free(values, FALSE); } void info_remove_group(struct Info *info, guint index) { struct InfoGroup *grp; if (index >= info->groups->len) return; grp = &g_array_index(info->groups, struct InfoGroup, index); free_group_fields(grp); g_array_remove_index(info->groups, index); } struct InfoField *info_find_field(struct Info *info, const gchar *tag, const gchar *name) { struct InfoGroup *group; struct InfoField *field; guint gi,fi; for (gi = 0; gi < info->groups->len; gi++) { struct InfoGroup *group = &g_array_index(info->groups, struct InfoGroup, gi); for (fi = 0; fi < group->fields->len; fi++) { struct InfoField *field = &g_array_index(group->fields, struct InfoField, fi); if (tag && SEQ(tag, field->tag) ) return field; else if (name && SEQ(name, field->name) ) return field; } } return NULL; } #define VAL_FALSE_OR_TRUE ((!g_strcmp0(value, "true") || !g_strcmp0(value, "1")) ? TRUE : FALSE) struct Info *info_unflatten(const gchar *str) { struct Info *info = info_new(); GKeyFile *key_file = g_key_file_new(); gchar **groups; gsize ngroups; int g, k, spg = -1; g_key_file_load_from_data(key_file, str, strlen(str), 0, NULL); groups = g_key_file_get_groups(key_file, &ngroups); for (g = 0; groups[g]; g++) { gchar *group_name = groups[g]; gchar **keys = g_key_file_get_keys(key_file, group_name, NULL, NULL); if (*group_name == '$') { /* special group */ if (SEQ(group_name, "$ShellParam$") ) spg = g; /* handle after all groups are added */ else { /* This special group is unknown and won't be handled, so * the name will not be linked anywhere. */ g_free(group_name); continue; } } else { /* normal group */ struct InfoGroup group = {}; group.name = group_name; group.fields = g_array_new(FALSE, FALSE, sizeof(struct InfoField)); group.sort = INFO_GROUP_SORT_NONE; for (k = 0; keys[k]; k++) { struct InfoField field = {}; gchar *flags, *tag, *name, *label, *dis; key_get_components(keys[k], &flags, &tag, &name, &label, &dis, TRUE); gchar *value = g_key_file_get_value(key_file, group_name, keys[k], NULL); field.tag = tag; field.name = name; field.value = value; if (key_label_is_escaped(flags)) field.label_is_escaped = TRUE; if (key_wants_details(flags)) field.report_details = TRUE; if (key_is_highlighted(flags)) field.highlight = TRUE; if (key_value_has_vendor_string(flags)) field.value_has_vendor = TRUE; field.free_value_on_flatten = TRUE; field.free_name_on_flatten = TRUE; g_free(flags); g_free(label); g_free(dis); g_array_append_val(group.fields, field); } g_array_append_val(info->groups, group); } } if (spg >= 0) { gchar *group_name = groups[spg]; gchar **keys = g_key_file_get_keys(key_file, group_name, NULL, NULL); for (k = 0; keys[k]; k++) { gchar *value = g_key_file_get_value(key_file, group_name, keys[k], NULL); gchar *parm = NULL; if (SEQ(keys[k], "ViewType")) { info_set_view_type(info, atoi(value)); } else if (SEQ(keys[k], "ShowColumnHeaders")) { info_set_column_headers_visible(info, VAL_FALSE_OR_TRUE); } else if (SEQ(keys[k], "Zebra")) { info_set_zebra_visible(info, VAL_FALSE_OR_TRUE); } else if (SEQ(keys[k], "ReloadInterval")) { info_set_reload_interval(info, atoi(value)); } else if (SEQ(keys[k], "NormalizePercentage")) { info_set_normalize_percentage(info, VAL_FALSE_OR_TRUE); } else if (g_str_has_prefix(keys[k], "ColumnTitle$")) { info_set_column_title(info, strchr(keys[k], '$') + 1, value); } else if (g_str_has_prefix(keys[k], "Icon$")) { const gchar *chk_name = NULL; gchar *chk_tag = NULL; parm = strchr(keys[k], '$'); if (key_is_flagged(parm)) chk_tag = key_mi_tag(parm); struct InfoField *field = info_find_field(info, chk_tag, NULL); if (field) field->icon = value; g_free(chk_tag); } else if (g_str_has_prefix(keys[k], "UpdateInterval$")) { const gchar *chk_name = NULL; gchar *chk_tag = NULL; parm = strchr(keys[k], '$'); if (key_is_flagged(parm)) { chk_tag = key_mi_tag(parm); chk_name = key_get_name(parm); } else chk_name = key_get_name(parm+1); struct InfoField *field = info_find_field(info, chk_tag, chk_name); if (field) field->update_interval = atoi(value); g_free(chk_tag); } } g_free(group_name); g_strfreev(keys); } return info; }