///////////////////////////////////////////////////////////////////////// // $Id$ ///////////////////////////////////////////////////////////////////////// // // Copyright (C) 2001-2009 The Bochs Project // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2 of the License, or (at your option) any later version. // // This library 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 // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA ///////////////////////////////////////////////////////////////////////// #include "bochs.h" #include "cpu/cpu.h" #if BX_DEBUGGER #if !((BX_HAVE_MAP || BX_HAVE_MAP_H) && (BX_HAVE_SET || BX_HAVE_SET_H)) static const char BX_HAVE_MAP_ERR[] = "context not implemented because BX_HAVE_MAP=0\n"; const char* bx_dbg_symbolic_address(Bit32u context, Bit32u eip, Bit32u base) { static bx_bool first = true; if (first) { dbg_printf(BX_HAVE_MAP_ERR); first = false; } return "unk. ctxt"; } const char* bx_dbg_symbolic_address_16bit(Bit32u eip, Bit32u cs) { // just prints an error anyway return bx_dbg_symbolic_address (0,0,0); } int bx_dbg_symbol_command(const char* filename, bx_bool global, Bit32u offset) { dbg_printf(BX_HAVE_MAP_ERR); return -1; } void bx_dbg_info_symbols_command(const char *Symbol) { dbg_printf(BX_HAVE_MAP_ERR); } int bx_dbg_lbreakpoint_symbol_command(const char *Symbol) { dbg_printf(BX_HAVE_MAP_ERR); return -1; } Bit32u bx_dbg_get_symbol_value(const char *Symbol) { return 0; } const char* bx_dbg_disasm_symbolic_address(Bit32u eip, Bit32u base) { return 0; } #else /* if BX_HAVE_MAP == 1 */ #if BX_HAVE_MAP #include #elif BX_HAVE_MAP_H #include #endif #if BX_HAVE_SET #include #elif BX_HAVE_SET_H #include #endif struct symbol_entry_t { symbol_entry_t (Bit32u _start = 0, const char* _name = 0) { start = _start; name = _name ? strdup(_name) : 0; } ~symbol_entry_t() { if (name) free(name); } void trim_quotes(void); char* name; Bit32u start; private: symbol_entry_t(const symbol_entry_t&); // No definition void operator=(const symbol_entry_t &); // No definition }; struct lt_symbol_entry_t { bool operator()(const symbol_entry_t* s1, const symbol_entry_t* s2) const { return s1->start < s2->start; } }; struct lt_rsymbol_entry_t { bool operator()(const symbol_entry_t* s1, const symbol_entry_t* s2) const { return strcoll(s1->name, s2->name) < 0; } }; struct context_t { typedef std::set sym_set_t; typedef std::set rsym_set_t; typedef std::map map_t; context_t (Bit32u); ~context_t(); static context_t* get_context(Bit32u); symbol_entry_t* get_symbol_entry(Bit32u); symbol_entry_t* get_symbol_entry(const char *Symbol) const; void add_symbol(symbol_entry_t*); const sym_set_t* get_all_symbols() const {return &m_syms;} const rsym_set_t* get_all_rsymbols() const {return &m_rsyms;} friend class context_dtor_t; protected: static map_t s_map; // Forvard references (find name by address) sym_set_t m_syms; // Reverse references (find address by name) rsym_set_t m_rsyms; Bit32u m_id; }; context_t::map_t context_t::s_map; context_t::context_t (Bit32u id) { m_id = id; s_map[m_id] = this; } context_t::~context_t() { while (!m_syms.empty()) { sym_set_t::iterator it = m_syms.begin(); symbol_entry_t *sym = *it; m_syms.erase(it); delete sym; } } context_t* context_t::get_context(Bit32u i) { return s_map[i]; } symbol_entry_t* context_t::get_symbol_entry(Bit32u ip) { symbol_entry_t probe(ip, 0); // find the first symbol whose address is greater than ip. if (m_syms.empty ()) return 0; sym_set_t::iterator iter = m_syms.upper_bound(&probe); if (iter == m_syms.end()) { // No symbol found return 0; } --iter; if(iter == m_syms.end()) return 0; return *iter; } symbol_entry_t* context_t::get_symbol_entry(const char *Symbol) const { if (m_rsyms.empty()) return 0; symbol_entry_t probe(0, Symbol); rsym_set_t::const_iterator iter; iter=m_rsyms.find(&probe); if(iter==m_rsyms.end()) // No symbol found return 0; return *iter; } void context_t::add_symbol(symbol_entry_t* sym) { m_syms.insert(sym); m_rsyms.insert(sym); } void symbol_entry_t::trim_quotes(void) { size_t len = strlen(name); if (name[0] == '\"' && name[len-1] == '\"') { memmove(name, name+1, len); name[len-2] = 0; } } Bit32u bx_dbg_get_symbol_value(const char *Symbol) { context_t* cntx = context_t::get_context(0); if(!cntx) // Context not found return 0; symbol_entry_t s(0, Symbol); s.trim_quotes(); symbol_entry_t* sym=cntx->get_symbol_entry(s.name); if(!sym) // Symbol not found return 0; return sym->start; } const char* bx_dbg_symbolic_address(Bit32u context, Bit32u eip, Bit32u base) { static char buf[80]; // Look up this context context_t* cntx = context_t::get_context(context); if (!cntx) { // Try global context cntx = context_t::get_context(0); if (!cntx) { snprintf (buf, 80, "unk. ctxt"); return buf; } } // full linear address not only eip (for nonzero based segments) symbol_entry_t* entr = cntx->get_symbol_entry(base+eip); if (!entr) { snprintf (buf, 80, "no symbol"); return buf; } snprintf (buf, 80, "%s+%x", entr->name, (base+eip) - entr->start); return buf; } const char* bx_dbg_disasm_symbolic_address(Bit32u eip, Bit32u base) { static char buf[80]; // Try global context context_t* cntx = context_t::get_context(0); if (!cntx) { return 0; } // full linear address not only eip (for nonzero based segments) symbol_entry_t* entr = cntx->get_symbol_entry(base+eip); if (!entr) { return 0; } snprintf (buf, 80, "%s+%x", entr->name, (base+eip) - entr->start); return buf; } const char* bx_dbg_symbolic_address_16bit(Bit32u eip, Bit32u cs) { // in 16-bit code, the segment selector and offset are combined into a // 20-bit linear address = (segment selector<<4) + offset. eip &= 0xffff; cs &= 0xffff; return bx_dbg_symbolic_address (0, eip+(cs<<4), 0); } int bx_dbg_symbol_command(const char* filename, bx_bool global, Bit32u offset) { symbol_entry_t file(0, filename); file.trim_quotes(); // Install symbols in correct context (page table) // The file format should be // address symbol (example '00002afe _StartLoseNT') Bit32u context_id = (global) ? 0 : (BX_CPU(dbg_cpu)->cr3) >> 12; context_t* cntx = context_t::get_context(context_id); if (!cntx) { cntx = new context_t(context_id); } FILE* fp = fopen(file.name, "rt"); // 't' is need for win32, unixes simply ignore it if (!fp) { dbg_printf ("Could not open symbol file '%s'\n", file.name); return -1; } // C++/C# symbols can be long char buf[512]; int line_num = 1; while (fgets(buf, sizeof(buf), fp)) { // handle end of line (before error messages) int len = strlen(buf); bool whole_line = (buf[len - 1] == '\n'); if (whole_line) buf[len - 1] = 0; // parse char* sym_name; Bit32u addr = strtoul(buf, &sym_name, 16); if (!isspace(*sym_name)) { if (*sym_name == 0) dbg_printf("%s:%d: missing symbol name\n", file.name, line_num); else dbg_printf("%s:%d: syntax error near '%s'\n", file.name, line_num, sym_name); return -1; } ++sym_name; symbol_entry_t* sym = new symbol_entry_t(addr + offset, sym_name); cntx->add_symbol(sym); // skip the rest of long line while (!whole_line) { if (!fgets(buf, sizeof(buf), fp)) break; // actually, last line can end without newline, but then // we'll just break at the next iteration because of EOF whole_line = (buf[strlen(buf)-1] == '\n'); } ++line_num; } return 0; } // check if s1 is prefix of s2 static bool bx_dbg_strprefix(const char *s1, const char *s2) { if(!s1 || !s2) return false; size_t len=strlen(s1); if(len>strlen(s2)) return false; return strncmp(s1, s2, len)==0; } void bx_dbg_info_symbols_command(const char *Symbol) { context_t* cntx = context_t::get_context(0); if(!cntx) { dbg_printf ("Global context not available\n"); return; } if(Symbol) { const context_t::rsym_set_t* rsyms; rsyms=cntx->get_all_rsymbols(); if (rsyms->empty ()) { dbg_printf ("Symbols not loaded\n"); return; } symbol_entry_t probe(0, Symbol); // remove leading and trailing quotas probe.trim_quotes(); context_t::rsym_set_t::const_iterator iter; iter=rsyms->lower_bound(&probe); if(iter==rsyms->end() || !bx_dbg_strprefix(probe.name, (*iter)->name)) dbg_printf ("No symbols found\n"); else { for(;iter!=rsyms->end() && bx_dbg_strprefix(probe.name, (*iter)->name);++iter) { dbg_printf ("%08x: %s\n", (*iter)->start, (*iter)->name); } } } else { const context_t::sym_set_t* syms; syms=cntx->get_all_symbols(); if (syms->empty ()) { dbg_printf ("Symbols not loaded\n"); return; } context_t::sym_set_t::const_iterator iter; for(iter = syms->begin();iter!=syms->end();++iter) { dbg_printf ("%08x: %s\n", (*iter)->start, (*iter)->name); } } } int bx_dbg_lbreakpoint_symbol_command(const char *symbol) { context_t* cntx = context_t::get_context(0); if(!cntx) { dbg_printf ("Global context not available\n"); return -1; } symbol_entry_t probe(0, symbol); // remove leading and trailing quotes probe.trim_quotes(); const symbol_entry_t* sym=cntx->get_symbol_entry(probe.name); if(sym) return bx_dbg_lbreakpoint_command(bkRegular, sym->start); dbg_printf ("Symbol not found\n"); return -1; } #endif #endif