/* Output generating routines for GDB. Copyright (C) 1999-2022 Free Software Foundation, Inc. Contributed by Cygnus Solutions. Written by Fernando Nasser for Cygnus. This file is part of GDB. 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, see . */ #include "defs.h" #include "expression.h" /* For language.h */ #include "language.h" #include "ui-out.h" #include "gdbsupport/format.h" #include "cli/cli-style.h" #include "diagnostics.h" #include #include #include namespace { /* A header of a ui_out_table. */ class ui_out_hdr { public: explicit ui_out_hdr (int number, int min_width, ui_align alignment, const std::string &name, const std::string &header) : m_number (number), m_min_width (min_width), m_alignment (alignment), m_name (name), m_header (header) { } int number () const { return m_number; } int min_width () const { return m_min_width; } ui_align alignment () const { return m_alignment; } const std::string &header () const { return m_header; } const std::string &name () const { return m_name; } private: /* The number of the table column this header represents, 1-based. */ int m_number; /* Minimal column width in characters. May or may not be applicable, depending on the actual implementation of ui_out. */ int m_min_width; /* Alignment of the content in the column. May or may not be applicable, depending on the actual implementation of ui_out. */ ui_align m_alignment; /* Internal column name, used to internally refer to the column. */ std::string m_name; /* Printed header text of the column. */ std::string m_header; }; } // namespace /* A level of nesting (either a list or a tuple) in a ui_out output. */ class ui_out_level { public: explicit ui_out_level (ui_out_type type) : m_type (type), m_field_count (0) { } ui_out_type type () const { return m_type; } int field_count () const { return m_field_count; } void inc_field_count () { m_field_count++; } private: /* The type of this level. */ ui_out_type m_type; /* Count each field; the first element is for non-list fields. */ int m_field_count; }; /* Tables are special. Maintain a separate structure that tracks their state. At present an output can only contain a single table but that restriction might eventually be lifted. */ class ui_out_table { public: /* States (steps) of a table generation. */ enum class state { /* We are generating the table headers. */ HEADERS, /* We are generating the table body. */ BODY, }; explicit ui_out_table (int entry_level, int nr_cols, const std::string &id) : m_state (state::HEADERS), m_entry_level (entry_level), m_nr_cols (nr_cols), m_id (id) { } /* Start building the body of the table. */ void start_body (); /* Add a new header to the table. */ void append_header (int width, ui_align alignment, const std::string &col_name, const std::string &col_hdr); void start_row (); /* Extract the format information for the next header and advance the header iterator. Return false if there was no next header. */ bool get_next_header (int *colno, int *width, ui_align *alignment, const char **col_hdr); bool query_field (int colno, int *width, int *alignment, const char **col_name) const; state current_state () const; int entry_level () const; private: state m_state; /* The level at which each entry of the table is to be found. A row (a tuple) is made up of entries. Consequently ENTRY_LEVEL is one above that of the table. */ int m_entry_level; /* Number of table columns (as specified in the table_begin call). */ int m_nr_cols; /* String identifying the table (as specified in the table_begin call). */ std::string m_id; /* Pointers to the column headers. */ std::vector> m_headers; /* Iterator over the headers vector, used when printing successive fields. */ std::vector>::const_iterator m_headers_iterator; }; /* See ui-out.h. */ void ui_out_table::start_body () { if (m_state != state::HEADERS) internal_error (__FILE__, __LINE__, _("extra table_body call not allowed; there must be only " "one table_body after a table_begin and before a " "table_end.")); /* Check if the number of defined headers matches the number of expected columns. */ if (m_headers.size () != m_nr_cols) internal_error (__FILE__, __LINE__, _("number of headers differ from number of table " "columns.")); m_state = state::BODY; m_headers_iterator = m_headers.begin (); } /* See ui-out.h. */ void ui_out_table::append_header (int width, ui_align alignment, const std::string &col_name, const std::string &col_hdr) { if (m_state != state::HEADERS) internal_error (__FILE__, __LINE__, _("table header must be specified after table_begin and " "before table_body.")); std::unique_ptr header (new ui_out_hdr (m_headers.size () + 1, width, alignment, col_name, col_hdr)); m_headers.push_back (std::move (header)); } /* See ui-out.h. */ void ui_out_table::start_row () { m_headers_iterator = m_headers.begin (); } /* See ui-out.h. */ bool ui_out_table::get_next_header (int *colno, int *width, ui_align *alignment, const char **col_hdr) { /* There may be no headers at all or we may have used all columns. */ if (m_headers_iterator == m_headers.end ()) return false; ui_out_hdr *hdr = m_headers_iterator->get (); *colno = hdr->number (); *width = hdr->min_width (); *alignment = hdr->alignment (); *col_hdr = hdr->header ().c_str (); /* Advance the header pointer to the next entry. */ m_headers_iterator++; return true; } /* See ui-out.h. */ bool ui_out_table::query_field (int colno, int *width, int *alignment, const char **col_name) const { /* Column numbers are 1-based, so convert to 0-based index. */ int index = colno - 1; if (index >= 0 && index < m_headers.size ()) { ui_out_hdr *hdr = m_headers[index].get (); gdb_assert (colno == hdr->number ()); *width = hdr->min_width (); *alignment = hdr->alignment (); *col_name = hdr->name ().c_str (); return true; } else return false; } /* See ui-out.h. */ ui_out_table::state ui_out_table::current_state () const { return m_state; } /* See ui-out.h. */ int ui_out_table::entry_level () const { return m_entry_level; } int ui_out::level () const { return m_levels.size (); } /* The current (inner most) level. */ ui_out_level * ui_out::current_level () const { return m_levels.back ().get (); } /* Create a new level, of TYPE. */ void ui_out::push_level (ui_out_type type) { std::unique_ptr level (new ui_out_level (type)); m_levels.push_back (std::move (level)); } /* Discard the current level. TYPE is the type of the level being discarded. */ void ui_out::pop_level (ui_out_type type) { /* We had better not underflow the buffer. */ gdb_assert (m_levels.size () > 0); gdb_assert (current_level ()->type () == type); m_levels.pop_back (); } /* Mark beginning of a table. */ void ui_out::table_begin (int nr_cols, int nr_rows, const std::string &tblid) { if (m_table_up != nullptr) internal_error (__FILE__, __LINE__, _("tables cannot be nested; table_begin found before \ previous table_end.")); m_table_up.reset (new ui_out_table (level () + 1, nr_cols, tblid)); do_table_begin (nr_cols, nr_rows, tblid.c_str ()); } void ui_out::table_header (int width, ui_align alignment, const std::string &col_name, const std::string &col_hdr) { if (m_table_up == nullptr) internal_error (__FILE__, __LINE__, _("table_header outside a table is not valid; it must be \ after a table_begin and before a table_body.")); m_table_up->append_header (width, alignment, col_name, col_hdr); do_table_header (width, alignment, col_name, col_hdr); } void ui_out::table_body () { if (m_table_up == nullptr) internal_error (__FILE__, __LINE__, _("table_body outside a table is not valid; it must be " "after a table_begin and before a table_end.")); m_table_up->start_body (); do_table_body (); } void ui_out::table_end () { if (m_table_up == nullptr) internal_error (__FILE__, __LINE__, _("misplaced table_end or missing table_begin.")); do_table_end (); m_table_up = nullptr; } void ui_out::begin (ui_out_type type, const char *id) { /* Be careful to verify the ``field'' before the new tuple/list is pushed onto the stack. That way the containing list/table/row is verified and not the newly created tuple/list. This verification is needed (at least) for the case where a table row entry contains either a tuple/list. For that case bookkeeping such as updating the column count or advancing to the next heading still needs to be performed. */ { int fldno; int width; ui_align align; verify_field (&fldno, &width, &align); } push_level (type); /* If the push puts us at the same level as a table row entry, we've got a new table row. Put the header pointer back to the start. */ if (m_table_up != nullptr && m_table_up->current_state () == ui_out_table::state::BODY && m_table_up->entry_level () == level ()) m_table_up->start_row (); do_begin (type, id); } void ui_out::end (ui_out_type type) { pop_level (type); do_end (type); } void ui_out::field_signed (const char *fldname, LONGEST value) { int fldno; int width; ui_align align; verify_field (&fldno, &width, &align); do_field_signed (fldno, width, align, fldname, value); } void ui_out::field_fmt_signed (int input_width, ui_align input_align, const char *fldname, LONGEST value) { int fldno; int width; ui_align align; verify_field (&fldno, &width, &align); do_field_signed (fldno, input_width, input_align, fldname, value); } /* See ui-out.h. */ void ui_out::field_unsigned (const char *fldname, ULONGEST value) { int fldno; int width; ui_align align; verify_field (&fldno, &width, &align); do_field_unsigned (fldno, width, align, fldname, value); } /* Documented in ui-out.h. */ void ui_out::field_core_addr (const char *fldname, struct gdbarch *gdbarch, CORE_ADDR address) { field_string (fldname, print_core_address (gdbarch, address), address_style.style ()); } void ui_out::field_stream (const char *fldname, string_file &stream, const ui_file_style &style) { if (!stream.empty ()) field_string (fldname, stream.c_str (), style); else field_skip (fldname); stream.clear (); } /* Used to omit a field. */ void ui_out::field_skip (const char *fldname) { int fldno; int width; ui_align align; verify_field (&fldno, &width, &align); do_field_skip (fldno, width, align, fldname); } void ui_out::field_string (const char *fldname, const char *string, const ui_file_style &style) { int fldno; int width; ui_align align; verify_field (&fldno, &width, &align); do_field_string (fldno, width, align, fldname, string, style); } /* VARARGS */ void ui_out::field_fmt (const char *fldname, const char *format, ...) { va_list args; int fldno; int width; ui_align align; verify_field (&fldno, &width, &align); va_start (args, format); do_field_fmt (fldno, width, align, fldname, ui_file_style (), format, args); va_end (args); } void ui_out::field_fmt (const char *fldname, const ui_file_style &style, const char *format, ...) { va_list args; int fldno; int width; ui_align align; verify_field (&fldno, &width, &align); va_start (args, format); do_field_fmt (fldno, width, align, fldname, style, format, args); va_end (args); } void ui_out::spaces (int numspaces) { do_spaces (numspaces); } void ui_out::text (const char *string) { do_text (string); } void ui_out::call_do_message (const ui_file_style &style, const char *format, ...) { va_list args; va_start (args, format); /* Since call_do_message is only used as a helper of vmessage, silence the warning here once instead of at all call sites in vmessage, if we were to put a "format" attribute on call_do_message. */ DIAGNOSTIC_PUSH DIAGNOSTIC_IGNORE_FORMAT_NONLITERAL do_message (style, format, args); DIAGNOSTIC_POP va_end (args); } void ui_out::vmessage (const ui_file_style &in_style, const char *format, va_list args) { format_pieces fpieces (&format, true); ui_file_style style = in_style; for (auto &&piece : fpieces) { const char *current_substring = piece.string; gdb_assert (piece.n_int_args >= 0 && piece.n_int_args <= 2); int intvals[2] = { 0, 0 }; for (int i = 0; i < piece.n_int_args; ++i) intvals[i] = va_arg (args, int); /* The only ones we support for now. */ gdb_assert (piece.n_int_args == 0 || piece.argclass == string_arg || piece.argclass == int_arg || piece.argclass == long_arg); switch (piece.argclass) { case string_arg: { const char *str = va_arg (args, const char *); switch (piece.n_int_args) { case 0: call_do_message (style, current_substring, str); break; case 1: call_do_message (style, current_substring, intvals[0], str); break; case 2: call_do_message (style, current_substring, intvals[0], intvals[1], str); break; } } break; case wide_string_arg: gdb_assert_not_reached ("wide_string_arg not supported in vmessage"); break; case wide_char_arg: gdb_assert_not_reached ("wide_char_arg not supported in vmessage"); break; case long_long_arg: call_do_message (style, current_substring, va_arg (args, long long)); break; case int_arg: { int val = va_arg (args, int); switch (piece.n_int_args) { case 0: call_do_message (style, current_substring, val); break; case 1: call_do_message (style, current_substring, intvals[0], val); break; case 2: call_do_message (style, current_substring, intvals[0], intvals[1], val); break; } } break; case long_arg: { long val = va_arg (args, long); switch (piece.n_int_args) { case 0: call_do_message (style, current_substring, val); break; case 1: call_do_message (style, current_substring, intvals[0], val); break; case 2: call_do_message (style, current_substring, intvals[0], intvals[1], val); break; } } break; case size_t_arg: { size_t val = va_arg (args, size_t); switch (piece.n_int_args) { case 0: call_do_message (style, current_substring, val); break; case 1: call_do_message (style, current_substring, intvals[0], val); break; case 2: call_do_message (style, current_substring, intvals[0], intvals[1], val); break; } } break; case double_arg: call_do_message (style, current_substring, va_arg (args, double)); break; case long_double_arg: gdb_assert_not_reached ("long_double_arg not supported in vmessage"); break; case dec32float_arg: gdb_assert_not_reached ("dec32float_arg not supported in vmessage"); break; case dec64float_arg: gdb_assert_not_reached ("dec64float_arg not supported in vmessage"); break; case dec128float_arg: gdb_assert_not_reached ("dec128float_arg not supported in vmessage"); break; case ptr_arg: switch (current_substring[2]) { case 'F': { gdb_assert (!test_flags (disallow_ui_out_field)); base_field_s *bf = va_arg (args, base_field_s *); switch (bf->kind) { case field_kind::FIELD_SIGNED: { auto *f = (signed_field_s *) bf; field_signed (f->name, f->val); } break; case field_kind::FIELD_STRING: { auto *f = (string_field_s *) bf; field_string (f->name, f->str); } break; } } break; case 's': { styled_string_s *ss = va_arg (args, styled_string_s *); call_do_message (ss->style, "%s", ss->str); } break; case '[': style = *va_arg (args, const ui_file_style *); break; case ']': { void *arg = va_arg (args, void *); gdb_assert (arg == nullptr); style = {}; } break; default: call_do_message (style, current_substring, va_arg (args, void *)); break; } break; case literal_piece: /* Print a portion of the format string that has no directives. Note that this will not include any ordinary %-specs, but it might include "%%". That is why we use call_do_message here. Also, we pass a dummy argument because some platforms have modified GCC to include -Wformat-security by default, which will warn here if there is no argument. */ call_do_message (style, current_substring, 0); break; default: internal_error (__FILE__, __LINE__, _("failed internal consistency check")); } } } void ui_out::message (const char *format, ...) { va_list args; va_start (args, format); vmessage (ui_file_style (), format, args); va_end (args); } void ui_out::wrap_hint (const char *identstring) { do_wrap_hint (identstring); } void ui_out::flush () { do_flush (); } void ui_out::redirect (ui_file *outstream) { do_redirect (outstream); } /* Test the flags against the mask given. */ ui_out_flags ui_out::test_flags (ui_out_flags mask) { return m_flags & mask; } bool ui_out::is_mi_like_p () const { return do_is_mi_like_p (); } /* Verify that the field/tuple/list is correctly positioned. Return the field number and corresponding alignment (if available/applicable). */ void ui_out::verify_field (int *fldno, int *width, ui_align *align) { ui_out_level *current = current_level (); const char *text; if (m_table_up != nullptr && m_table_up->current_state () != ui_out_table::state::BODY) { internal_error (__FILE__, __LINE__, _("table_body missing; table fields must be \ specified after table_body and inside a list.")); } current->inc_field_count (); if (m_table_up != nullptr && m_table_up->current_state () == ui_out_table::state::BODY && m_table_up->entry_level () == level () && m_table_up->get_next_header (fldno, width, align, &text)) { if (*fldno != current->field_count ()) internal_error (__FILE__, __LINE__, _("ui-out internal error in handling headers.")); } else { *width = 0; *align = ui_noalign; *fldno = current->field_count (); } } /* Access table field parameters. */ bool ui_out::query_table_field (int colno, int *width, int *alignment, const char **col_name) { if (m_table_up == nullptr) return false; return m_table_up->query_field (colno, width, alignment, col_name); } /* The constructor. */ ui_out::ui_out (ui_out_flags flags) : m_flags (flags) { /* Create the ui-out level #1, the default level. */ push_level (ui_out_type_tuple); } ui_out::~ui_out () { }