/* Call stacks at program points. Copyright (C) 2019-2022 Free Software Foundation, Inc. Contributed by David Malcolm . This file is part of GCC. GCC 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, or (at your option) any later version. GCC 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 GCC; see the file COPYING3. If not see . */ #include "config.h" #include "system.h" #include "coretypes.h" #include "pretty-print.h" #include "tree.h" #include "options.h" #include "json.h" #include "ordered-hash-map.h" #include "options.h" #include "cgraph.h" #include "function.h" #include "cfg.h" #include "basic-block.h" #include "gimple.h" #include "gimple-iterator.h" #include "digraph.h" #include "analyzer/analyzer.h" #include "analyzer/analyzer-logging.h" #include "analyzer/call-string.h" #include "analyzer/supergraph.h" #if ENABLE_ANALYZER #if __GNUC__ >= 10 #pragma GCC diagnostic ignored "-Wformat-diag" #endif /* class call_string. */ /* struct call_string::element_t. */ /* call_string::element_t's equality operator. */ bool call_string::element_t::operator== (const call_string::element_t &other) const { return (m_caller == other.m_caller && m_callee == other.m_callee); } /* call_string::element_t's inequality operator. */ bool call_string::element_t::operator!= (const call_string::element_t &other) const { return !(*this == other); } function * call_string::element_t::get_caller_function () const { return m_caller->get_function (); } function * call_string::element_t::get_callee_function () const { return m_callee->get_function (); } /* Print this to PP. */ void call_string::print (pretty_printer *pp) const { pp_string (pp, "["); call_string::element_t *e; int i; FOR_EACH_VEC_ELT (m_elements, i, e) { if (i > 0) pp_string (pp, ", "); pp_printf (pp, "(SN: %i -> SN: %i in %s)", e->m_callee->m_index, e->m_caller->m_index, function_name (e->m_caller->m_fun)); } pp_string (pp, "]"); } /* Return a new json::array of the form [{"src_snode_idx" : int, "dst_snode_idx" : int, "funcname" : str}, ...for each element in the callstring]. */ json::value * call_string::to_json () const { json::array *arr = new json::array (); for (const call_string::element_t &e : m_elements) { json::object *e_obj = new json::object (); e_obj->set ("src_snode_idx", new json::integer_number (e.m_callee->m_index)); e_obj->set ("dst_snode_idx", new json::integer_number (e.m_caller->m_index)); e_obj->set ("funcname", new json::string (function_name (e.m_caller->m_fun))); arr->append (e_obj); } return arr; } /* Get or create the call_string resulting from pushing the return superedge for CALL_SEDGE onto the end of this call_string. */ const call_string * call_string::push_call (const supergraph &sg, const call_superedge *call_sedge) const { gcc_assert (call_sedge); const return_superedge *return_sedge = call_sedge->get_edge_for_return (sg); gcc_assert (return_sedge); return push_call (return_sedge->m_dest, return_sedge->m_src); } /* Get or create the call_string resulting from pushing the call (caller, callee) onto the end of this call_string. */ const call_string * call_string::push_call (const supernode *caller, const supernode *callee) const { call_string::element_t e (caller, callee); if (const call_string **slot = m_children.get (e)) return *slot; call_string *result = new call_string (*this, e); m_children.put (e, result); return result; } /* Count the number of times the top-most call site appears in the stack. */ int call_string::calc_recursion_depth () const { if (m_elements.is_empty ()) return 0; const call_string::element_t top_return_sedge = m_elements[m_elements.length () - 1]; int result = 0; for (const call_string::element_t &e : m_elements) if (e == top_return_sedge) ++result; return result; } /* Comparator for call strings. This implements a version of lexicographical order. Return negative if A is before B. Return positive if B is after A. Return 0 if they are equal. */ int call_string::cmp (const call_string &a, const call_string &b) { unsigned len_a = a.length (); unsigned len_b = b.length (); unsigned i = 0; while (1) { /* Consider index i; the strings have been equal up to it. */ /* Have both strings run out? */ if (i >= len_a && i >= len_b) return 0; /* Otherwise, has just one of the strings run out? */ if (i >= len_a) return 1; if (i >= len_b) return -1; /* Otherwise, compare the node pairs. */ const call_string::element_t a_node_pair = a[i]; const call_string::element_t b_node_pair = b[i]; int src_cmp = a_node_pair.m_callee->m_index - b_node_pair.m_callee->m_index; if (src_cmp) return src_cmp; int dest_cmp = a_node_pair.m_caller->m_index - b_node_pair.m_caller->m_index; if (dest_cmp) return dest_cmp; i++; // TODO: test coverage for this } } /* Comparator for use by vec::qsort. */ int call_string::cmp_ptr_ptr (const void *pa, const void *pb) { const call_string *cs_a = *static_cast (pa); const call_string *cs_b = *static_cast (pb); return cmp (*cs_a, *cs_b); } /* Return the pointer to callee of the topmost call in the stack, or NULL if stack is empty. */ const supernode * call_string::get_callee_node () const { if(m_elements.is_empty ()) return NULL; return m_elements[m_elements.length () - 1].m_callee; } /* Return the pointer to caller of the topmost call in the stack, or NULL if stack is empty. */ const supernode * call_string::get_caller_node () const { if(m_elements.is_empty ()) return NULL; return m_elements[m_elements.length () - 1].m_caller; } /* Assert that this object is sane. */ void call_string::validate () const { /* Skip this in a release build. */ #if !CHECKING_P return; #endif gcc_assert (m_parent || m_elements.length () == 0); /* Each entry's "caller" should be the "callee" of the previous entry. */ call_string::element_t *e; int i; FOR_EACH_VEC_ELT (m_elements, i, e) if (i > 0) gcc_assert (e->get_caller_function () == m_elements[i - 1].get_callee_function ()); } /* ctor for the root/empty call_string. */ call_string::call_string () : m_parent (NULL), m_elements () { } /* ctor for a child call_string. */ call_string::call_string (const call_string &parent, const element_t &to_push) : m_parent (&parent), m_elements (parent.m_elements.length () + 1) { m_elements.splice (parent.m_elements); m_elements.quick_push (to_push); } /* dtor for call_string: recursively delete children. */ call_string::~call_string () { for (auto child_iter : m_children) delete child_iter.second; } /* Log this call_string and all its descendents recursively to LOGGER, using indentation and elision to highlight the hierarchy. */ void call_string::recursive_log (logger *logger) const { logger->start_log_line (); pretty_printer *pp = logger->get_printer (); for (unsigned i = 0; i < length (); i++) pp_string (pp, " "); if (length () > 0) { pp_string (pp, "["); /* Elide all but the final element, since they are shared with the parent call_string. */ for (unsigned i = 0; i < length (); i++) pp_string (pp, "..., "); /* Log the final element in detail. */ const element_t *e = &m_elements[m_elements.length () - 1]; pp_printf (pp, "(SN: %i -> SN: %i in %s)]", e->m_callee->m_index, e->m_caller->m_index, function_name (e->m_caller->m_fun)); } else pp_string (pp, "[]"); logger->end_log_line (); /* Recurse into children. */ { auto_vec children (m_children.elements ()); for (auto iter : m_children) children.safe_push (iter.second); children.qsort (call_string::cmp_ptr_ptr); for (auto iter : children) iter->recursive_log (logger); } } #endif /* #if ENABLE_ANALYZER */