/* * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public * License v2 as published by the Free Software Foundation. * * 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., 59 Temple Place - Suite 330, * Boston, MA 021110-1307, USA. */ #include "kerncompat.h" #include #include #include "common-defs.h" #include "common/format-output.h" #include "common/utils.h" #include "cmds/commands.h" static void print_uuid(const u8 *uuid) { char uuidparse[BTRFS_UUID_UNPARSED_SIZE]; if (uuid_is_null(uuid)) { putchar('-'); } else { uuid_unparse(uuid, uuidparse); printf("%s", uuidparse); } } static void fmt_indent1(int indent) { while (indent--) putchar(' '); } static void fmt_indent2(int indent) { while (indent--) { putchar(' '); putchar(' '); } } static void fmt_error(struct format_ctx *fctx) { printf("INTERNAL ERROR: formatting json: depth=%d\n", fctx->depth); exit(1); } static void fmt_inc_depth(struct format_ctx *fctx) { if (fctx->depth >= JSON_NESTING_LIMIT - 1) { printf("INTERNAL ERROR: nesting too deep, limit %d\n", JSON_NESTING_LIMIT); exit(1); } fctx->depth++; } static void fmt_dec_depth(struct format_ctx *fctx) { if (fctx->depth < 1) { printf("INTERNAL ERROR: nesting below first level\n"); exit(1); } fctx->depth--; } static void fmt_separator(struct format_ctx *fctx) { if (bconf.output_format == CMD_FORMAT_JSON) { /* Check current depth */ if (fctx->memb[fctx->depth] == 0) { /* First member, only indent */ putchar('\n'); fmt_indent2(fctx->depth); fctx->memb[fctx->depth] = 1; } else if (fctx->memb[fctx->depth] == 1) { /* Something has been printed already */ printf(",\n"); fmt_indent2(fctx->depth); fctx->memb[fctx->depth] = 2; } else { /* N-th member */ printf(",\n"); fmt_indent2(fctx->depth); } } } void fmt_start(struct format_ctx *fctx, const struct rowspec *spec, int width, int indent) { fctx->width = width; fctx->indent = indent; fctx->rowspec = spec; fctx->depth = 1; if (bconf.output_format & CMD_FORMAT_JSON) { putchar('{'); /* The top level is a map and is the first one */ fctx->jtype[fctx->depth] = JSON_TYPE_MAP; fctx->memb[fctx->depth] = 0; fmt_print_start_group(fctx, "__header", JSON_TYPE_MAP); fmt_separator(fctx); printf("\"version\": \"1\""); fctx->memb[fctx->depth] = 1; fmt_print_end_group(fctx, "__header"); } } void fmt_end(struct format_ctx *fctx) { if (fctx->depth != 1) fprintf(stderr, "WARNING: wrong nesting\n"); /* Close, no continuation to print */ if (bconf.output_format & CMD_FORMAT_TEXT) putchar('\n'); else if (bconf.output_format & CMD_FORMAT_JSON) { fmt_dec_depth(fctx); fmt_separator(fctx); printf("}\n"); } } void fmt_start_list_value(struct format_ctx *fctx) { if (bconf.output_format == CMD_FORMAT_TEXT) { fmt_indent1(fctx->indent); } else if (bconf.output_format == CMD_FORMAT_JSON) { fmt_separator(fctx); fmt_indent2(fctx->depth); putchar('"'); } } void fmt_end_list_value(struct format_ctx *fctx) { if (bconf.output_format == CMD_FORMAT_TEXT) putchar('\n'); else if (bconf.output_format == CMD_FORMAT_JSON) putchar('"'); } void fmt_start_value(struct format_ctx *fctx, const struct rowspec *row) { if (bconf.output_format == CMD_FORMAT_TEXT) { if (strcmp(row->fmt, "list") == 0) putchar('\n'); else if (strcmp(row->fmt, "map") == 0) putchar('\n'); } else if (bconf.output_format == CMD_FORMAT_JSON) { if (strcmp(row->fmt, "list") == 0) { } else if (strcmp(row->fmt, "map") == 0) { } else { putchar('"'); } } } void fmt_end_value(struct format_ctx *fctx, const struct rowspec *row) { if (bconf.output_format == CMD_FORMAT_JSON) { if (strcmp(row->fmt, "list") == 0) { } else if (strcmp(row->fmt, "map") == 0) { } else { putchar('"'); } } } void fmt_print_start_group(struct format_ctx *fctx, const char *name, enum json_type jtype) { if (bconf.output_format == CMD_FORMAT_JSON) { fmt_separator(fctx); fmt_inc_depth(fctx); fctx->jtype[fctx->depth] = jtype; fctx->memb[fctx->depth] = 0; if (jtype == JSON_TYPE_MAP) printf("\"%s\": {", name); else if (jtype == JSON_TYPE_ARRAY) printf("\"%s\": [", name); else fmt_error(fctx); } } void fmt_print_end_group(struct format_ctx *fctx, const char *name) { if (bconf.output_format == CMD_FORMAT_JSON) { /* Whatever was on previous line won't continue with "," */ const enum json_type jtype = fctx->jtype[fctx->depth]; fmt_dec_depth(fctx); putchar('\n'); fmt_indent2(fctx->depth); if (jtype == JSON_TYPE_MAP) putchar('}'); else if (jtype == JSON_TYPE_ARRAY) putchar(']'); else fmt_error(fctx); } } /* Use rowspec to print according to currently set output format */ void fmt_print(struct format_ctx *fctx, const char* key, ...) { va_list args; const struct rowspec *row; bool found = false; va_start(args, key); row = &fctx->rowspec[0]; while (row->key) { if (strcmp(key, row->key) == 0) { found = true; break; } row++; } if (!found) { printf("INTERNAL ERROR: unknown key: %s\n", key); exit(1); } if (bconf.output_format == CMD_FORMAT_TEXT) { const bool print_colon = row->out_text[0]; int len; putchar('\n'); fmt_indent1(fctx->indent); len = strlen(row->out_text); printf("%s", row->out_text); if (print_colon) { putchar(':'); len++; } fmt_indent1(fctx->width - len); } else if (bconf.output_format == CMD_FORMAT_JSON) { if (strcmp(row->fmt, "list") == 0) { fmt_print_start_group(fctx, row->out_json, JSON_TYPE_ARRAY); } else if (strcmp(row->fmt, "map") == 0) { fmt_print_start_group(fctx, row->out_json, JSON_TYPE_MAP); } else { /* Simple key/values */ fmt_separator(fctx); printf("\"%s\": ", row->out_json); } } fmt_start_value(fctx, row); if (row->fmt[0] == '%') { vprintf(row->fmt, args); } else if (strcmp(row->fmt, "uuid") == 0) { const u8 *uuid = va_arg(args, const u8*); print_uuid(uuid); } else if (strcmp(row->fmt, "time-long") == 0) { const time_t ts = va_arg(args, time_t); if (ts) { char tstr[256]; struct tm tm; localtime_r(&ts, &tm); strftime(tstr, 256, "%Y-%m-%d %X %z", &tm); printf("%s", tstr); } else { putchar('-'); } } else if (strcmp(row->fmt, "list") == 0) { } else if (strcmp(row->fmt, "map") == 0) { } else if (strcmp(row->fmt, "qgroupid") == 0) { const u64 level = va_arg(args, u64); const u64 id = va_arg(args, u64); printf("%llu/%llu", level, id); } else if (strcmp(row->fmt, "size-or-none") == 0) { const u64 size = va_arg(args, u64); const unsigned int unit_mode = va_arg(args, unsigned int); if (size) printf("%s", pretty_size_mode(size, unit_mode)); else putchar('-'); } else if (strcmp(row->fmt, "size") == 0) { const u64 size = va_arg(args, u64); const unsigned int unit_mode = va_arg(args, unsigned int); printf("%s", pretty_size_mode(size, unit_mode)); } else { printf("INTERNAL ERROR: unknown format %s\n", row->fmt); } fmt_end_value(fctx, row); /* No newline here, the line is closed by next value or group end */ va_end(args); }