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authorCyrille Bagard <nocbos@gmail.com>2015-06-12 23:46:47 (GMT)
committerCyrille Bagard <nocbos@gmail.com>2015-06-12 23:46:47 (GMT)
commit04d108111fe7ddd01713b4ca22f8d96961ec2486 (patch)
tree72ca086e0db2568bc93acb865b84e29c7d206897 /src/analysis/disass/macro.c
parent64aee7b4301e720a7420ab8942ef88f72d7a2c99 (diff)
Improved loading speed with binary search of sorted arrays.
git-svn-id: svn://svn.gna.org/svn/chrysalide/trunk@538 abbe820e-26c8-41b2-8c08-b7b2b41f8b0a
Diffstat (limited to 'src/analysis/disass/macro.c')
-rw-r--r--src/analysis/disass/macro.c96
1 files changed, 48 insertions, 48 deletions
diff --git a/src/analysis/disass/macro.c b/src/analysis/disass/macro.c
index b478c74..4e77881 100644
--- a/src/analysis/disass/macro.c
+++ b/src/analysis/disass/macro.c
@@ -111,7 +111,7 @@ static bool add_hop_into_branch(branch_info *, const vmpa2t *);
static const vmpa2t *get_entry_to_branch(const branch_info *);
/* Identifie les différents points de passage d'une branche. */
-static void find_next_hops(GArchInstruction *, const vmpa2t *, const code_coverage *, branch_info *);
+static void find_next_hops(GArchProcessor *, const vmpa2t *, const code_coverage *, branch_info *);
/* Retrouve le point de ralliement entre deux branches. */
static bool compute_first_common_addr(const branch_info *, const branch_info *, vmpa2t *);
@@ -170,19 +170,19 @@ static bool compute_first_common_addr_in_group(const branch_group *, vmpa2t *);
/* Procède à la création d'un bloc d'instructions simple. */
-static GInstrBlock *build_instruction_block_simple(GArchInstruction *, code_coverage *, GArchInstruction **, GArchInstruction *);
+static GInstrBlock *build_instruction_block_simple(GArchProcessor *, code_coverage *, GArchInstruction **, GArchInstruction *);
/* Procède à la définition d'un bloc d'instructions selectif. */
-static GInstrBlock *build_instruction_blocks_case(GArchInstruction *, code_coverage *, const branch_group *, vmpa2t *);
+static GInstrBlock *build_instruction_blocks_case(GArchProcessor *, code_coverage *, const branch_group *, vmpa2t *);
/* Procède à la définition d'un bloc d'instruction if/then/else. */
-static GInstrBlock *build_instruction_blocks_ite(GArchInstruction *, code_coverage *, const branch_info *, const branch_info *, vmpa2t *);
+static GInstrBlock *build_instruction_blocks_ite(GArchProcessor *, code_coverage *, const branch_info *, const branch_info *, vmpa2t *);
/* Procède à la définition d'un bloc d'instructions d'exception. */
-static void add_instruction_blocks_except(GInstrBlock **, GInstrBlock **, GArchInstruction *, code_coverage *, const branch_group *, const branch_info *);
+static void add_instruction_blocks_except(GInstrBlock **, GInstrBlock **, GArchProcessor *, code_coverage *, const branch_group *, const branch_info *);
/* Procède à la définition de bloc regroupant des instructions. */
-static GInstrBlock *build_instruction_blocks(GArchInstruction *, code_coverage *);
+static GInstrBlock *build_instruction_blocks(GArchProcessor *, code_coverage *);
@@ -581,7 +581,7 @@ static const vmpa2t *get_entry_to_branch(const branch_info *info)
/******************************************************************************
* *
-* Paramètres : instrs = ensemble des instructions d'assemblage. *
+* Paramètres : proc = ensemble des instructions d'assemblage. *
* start = position du début de bloc. *
* coverage = liste des adresses de fin butoir. *
* count = nombre de sauts détectés. [OUT] *
@@ -594,7 +594,7 @@ static const vmpa2t *get_entry_to_branch(const branch_info *info)
* *
******************************************************************************/
-static void find_next_hops(GArchInstruction *instrs, const vmpa2t *start, const code_coverage *coverage, branch_info *info)
+static void find_next_hops(GArchProcessor *proc, const vmpa2t *start, const code_coverage *coverage, branch_info *info)
{
GArchInstruction *iter; /* Boucle de parcours #1 */
const mrange_t *range; /* Emplacement d'instruction */
@@ -619,9 +619,9 @@ static void find_next_hops(GArchInstruction *instrs, const vmpa2t *start, const
printf(" ++ add 0x%08x\n", (unsigned int)start->virtual);
/* On suit le flot jusqu'à la prochaine bifurcation */
- for (iter = g_arch_instruction_find_by_address(instrs, start, true);
+ for (iter = g_arch_processor_find_instr_by_address(proc, start);
iter != NULL;
- iter = g_arch_instruction_get_next_iter(instrs, iter, VMPA_MAX))
+ iter = g_arch_processor_get_next_instr(proc, iter))
{
range = g_arch_instruction_get_range(iter);
@@ -673,7 +673,7 @@ static void find_next_hops(GArchInstruction *instrs, const vmpa2t *start, const
case ILT_CASE_JUMP:
case ILT_JUMP_IF_TRUE:
case ILT_JUMP_IF_FALSE:
- find_next_hops(instrs, get_mrange_addr(range), coverage, info);
+ find_next_hops(proc, get_mrange_addr(range), coverage, info);
break;
case ILT_LOOP:
@@ -877,7 +877,7 @@ static bool compute_first_common_addr_in_group(const branch_group *group, vmpa2t
/******************************************************************************
* *
-* Paramètres : instrs = ensemble des instructions d'assemblage. *
+* Paramètres : proc = ensemble des instructions d'assemblage. *
* coverage = délimitations de la zone à couvrir. *
* first = première instruction d'un bloc préliminaire. *
* cur = instruction courante dans le traitement. *
@@ -890,13 +890,13 @@ static bool compute_first_common_addr_in_group(const branch_group *group, vmpa2t
* *
******************************************************************************/
#include "../../arch/instruction-int.h"
-static GInstrBlock *build_instruction_block_simple(GArchInstruction *instrs, code_coverage *coverage, GArchInstruction **first, GArchInstruction *cur)
+static GInstrBlock *build_instruction_block_simple(GArchProcessor *proc, code_coverage *coverage, GArchInstruction **first, GArchInstruction *cur)
{
GInstrBlock *result; /* Regroupement à retourner */
if (*first != NULL)
{
- result = g_flow_block_new(instrs, *first, cur);
+ result = g_flow_block_new(proc, *first, cur);
mark_range_as_processed_in_coverage(coverage, *first);
@@ -912,7 +912,7 @@ static GInstrBlock *build_instruction_block_simple(GArchInstruction *instrs, cod
/******************************************************************************
* *
-* Paramètres : instrs = ensemble des instructions d'assemblage. *
+* Paramètres : proc = ensemble des instructions d'assemblage. *
* coverage = délimitations de la zone à couvrir. *
* cases = branches conditionnelles des situations. *
* next = localisation de l'instruction de reprise. *
@@ -925,7 +925,7 @@ static GInstrBlock *build_instruction_block_simple(GArchInstruction *instrs, cod
* *
******************************************************************************/
-static GInstrBlock *build_instruction_blocks_case(GArchInstruction *instrs, code_coverage *coverage, const branch_group *cases, vmpa2t *next)
+static GInstrBlock *build_instruction_blocks_case(GArchProcessor *proc, code_coverage *coverage, const branch_group *cases, vmpa2t *next)
{
GInstrBlock *result; /* Regroupement à retourner */
bool has_common; /* Fin commune ? */
@@ -948,7 +948,7 @@ static GInstrBlock *build_instruction_blocks_case(GArchInstruction *instrs, code
for (j = 0; j < cases->count; j++)
add_ending_address_code_coverage(sub_coverage, get_entry_to_branch(&cases->branches[j]));
- block = build_instruction_blocks(instrs, sub_coverage);
+ block = build_instruction_blocks(proc, sub_coverage);
if (block != NULL)
g_virtual_block_add_child(G_VIRTUAL_BLOCK(result), block);
@@ -970,7 +970,7 @@ static GInstrBlock *build_instruction_blocks_case(GArchInstruction *instrs, code
/******************************************************************************
* *
-* Paramètres : instrs = ensemble des instructions d'assemblage. *
+* Paramètres : proc = ensemble des instructions d'assemblage. *
* coverage = délimitations de la zone à couvrir. *
* true_branch = branche conditionnelle correspondant à true. *
* false_branch = branche conditionnelle correspondant à false. *
@@ -984,7 +984,7 @@ static GInstrBlock *build_instruction_blocks_case(GArchInstruction *instrs, code
* *
******************************************************************************/
-static GInstrBlock *build_instruction_blocks_ite(GArchInstruction *instrs, code_coverage *coverage, const branch_info *true_branch, const branch_info *false_branch, vmpa2t *next)
+static GInstrBlock *build_instruction_blocks_ite(GArchProcessor *proc, code_coverage *coverage, const branch_info *true_branch, const branch_info *false_branch, vmpa2t *next)
{
GInstrBlock *result; /* Regroupement à retourner */
bool has_common; /* Fin commune ? */
@@ -1005,7 +1005,7 @@ static GInstrBlock *build_instruction_blocks_ite(GArchInstruction *instrs, code_
_sub_coverage = dup_code_coverage(coverage, get_entry_to_branch(true_branch));
- block = build_instruction_blocks(instrs, _sub_coverage);
+ block = build_instruction_blocks(proc, _sub_coverage);
delete_code_coverage(_sub_coverage);
@@ -1018,7 +1018,7 @@ static GInstrBlock *build_instruction_blocks_ite(GArchInstruction *instrs, code_
_sub_coverage = dup_code_coverage(coverage, get_entry_to_branch(false_branch));
- block = build_instruction_blocks(instrs, _sub_coverage);
+ block = build_instruction_blocks(proc, _sub_coverage);
delete_code_coverage(_sub_coverage);
@@ -1053,7 +1053,7 @@ static GInstrBlock *build_instruction_blocks_ite(GArchInstruction *instrs, code_
* Encapsulation des branches conditionnelles.
*/
- GInstrBlock *build_instr_block_bi(GArchInstruction *instrs, const code_coverage *coverage, const branch_info *br0, const branch_info *br1, const vmpa2t *next)
+ GInstrBlock *build_instr_block_bi(GArchProcessor *proc, const code_coverage *coverage, const branch_info *br0, const branch_info *br1, const vmpa2t *next)
{
GInstrBlock *result; /* Bloc construit à renvoyer */
code_coverage *sub_coverage; /* Couverture pour les suivants*/
@@ -1069,7 +1069,7 @@ static GInstrBlock *build_instruction_blocks_ite(GArchInstruction *instrs, code_
if (br1->count > 0)
add_ending_address_code_coverage(sub_coverage, get_entry_to_branch(br1));
- result = build_instruction_blocks(instrs, sub_coverage);
+ result = build_instruction_blocks(proc, sub_coverage);
delete_code_coverage(sub_coverage);
@@ -1081,7 +1081,7 @@ static GInstrBlock *build_instruction_blocks_ite(GArchInstruction *instrs, code_
/* Branche 'true' */
- block = build_instr_block_bi(instrs, coverage, true_branch, false_branch, next);
+ block = build_instr_block_bi(proc, coverage, true_branch, false_branch, next);
printf("===> TRUE_BRANCH = %p\n", block);
@@ -1090,7 +1090,7 @@ static GInstrBlock *build_instruction_blocks_ite(GArchInstruction *instrs, code_
/* Branche 'false' */
- block = build_instr_block_bi(instrs, coverage, false_branch, true_branch, next);
+ block = build_instr_block_bi(proc, coverage, false_branch, true_branch, next);
printf("===> FALSE_BRANCH = %p\n", block);
@@ -1114,7 +1114,7 @@ static GInstrBlock *build_instruction_blocks_ite(GArchInstruction *instrs, code_
* *
* Paramètres : result = liste générale résultante du découpage. [OUT] *
* cached = emplacement pour le cache des résultats. [OUT] *
-* instrs = ensemble des instructions d'assemblage. *
+* proc = ensemble des instructions d'assemblage. *
* coverage = délimitations de la zone à couvrir. *
* exceptions = branche conditionnelle correspondant à true. *
* main_branch = branche principale avec son flot d'exécution. *
@@ -1127,7 +1127,7 @@ static GInstrBlock *build_instruction_blocks_ite(GArchInstruction *instrs, code_
* *
******************************************************************************/
-static void add_instruction_blocks_except(GInstrBlock **result, GInstrBlock **cached, GArchInstruction *instrs, code_coverage *coverage, const branch_group *exceptions, const branch_info *main_branch)
+static void add_instruction_blocks_except(GInstrBlock **result, GInstrBlock **cached, GArchProcessor *proc, code_coverage *coverage, const branch_group *exceptions, const branch_info *main_branch)
{
size_t i; /* Boucle de parcours */
vmpa2t stop_addr; /* Adresse de fin de bloc */
@@ -1143,7 +1143,7 @@ static void add_instruction_blocks_except(GInstrBlock **result, GInstrBlock **ca
sub_coverage = dup_code_coverage(coverage, get_entry_to_branch(&exceptions->branches[i]));
add_ending_address_code_coverage(sub_coverage, &stop_addr);
- block = build_instruction_blocks(instrs, sub_coverage);
+ block = build_instruction_blocks(proc, sub_coverage);
if (block != NULL)
DELAYED_BLOCK_ADDING(*result, *cached, block);
@@ -1157,7 +1157,7 @@ static void add_instruction_blocks_except(GInstrBlock **result, GInstrBlock **ca
/******************************************************************************
* *
-* Paramètres : instrs = ensemble des instructions d'assemblage. *
+* Paramètres : proc = ensemble des instructions d'assemblage. *
* coverage = délimitations de la zone à couvrir. *
* *
* Description : Procède à la définition de bloc regroupant des instructions. *
@@ -1168,7 +1168,7 @@ static void add_instruction_blocks_except(GInstrBlock **result, GInstrBlock **ca
* *
******************************************************************************/
#include "../../arch/instruction-int.h"
-static GInstrBlock *build_instruction_blocks(GArchInstruction *instrs, code_coverage *coverage)
+static GInstrBlock *build_instruction_blocks(GArchProcessor *proc, code_coverage *coverage)
{
GInstrBlock *result; /* Regroupement à retourner */
GInstrBlock *result_cached; /* Temporisation pour unicité */
@@ -1199,17 +1199,17 @@ static GInstrBlock *build_instruction_blocks(GArchInstruction *instrs, code_cove
last = NULL;
init_branch_info(&main_branch);
- find_next_hops(instrs, get_code_coverage_start_addr(coverage), coverage, &main_branch);
+ find_next_hops(proc, get_code_coverage_start_addr(coverage), coverage, &main_branch);
printf("//////////////////////////\n");
printf("/// Cutting for 0x%08x -> %p\n",
get_code_coverage_start_addr(coverage)->virtual,
- g_arch_instruction_find_by_address(instrs, get_code_coverage_start_addr(coverage), true));
+ g_arch_processor_find_instr_by_address(proc, get_code_coverage_start_addr(coverage)));
printf("//////////////////////////\n");
- for (iter = g_arch_instruction_find_by_address(instrs, get_code_coverage_start_addr(coverage), true);
+ for (iter = g_arch_processor_find_instr_by_address(proc, get_code_coverage_start_addr(coverage));
iter != NULL;
)
{
@@ -1236,7 +1236,7 @@ static GInstrBlock *build_instruction_blocks(GArchInstruction *instrs, code_cove
/* On n'approfondit que les chemins qui se séparent */
if (!g_arch_instruction_has_destinations(iter))
{
- iter = g_arch_instruction_get_next_iter(instrs, iter, VMPA_MAX);
+ iter = g_arch_processor_get_next_instr(proc, iter);
continue;
}
@@ -1268,7 +1268,7 @@ static GInstrBlock *build_instruction_blocks(GArchInstruction *instrs, code_cove
_saved0 = first;
- block = build_instruction_block_simple(instrs, coverage, &first, iter);
+ block = build_instruction_block_simple(proc, coverage, &first, iter);
printf(" -- simple block JMP -- @ 0x%08x <-> 0x%08x\n",
(unsigned int)(_saved0 ? _saved0->range.addr.virtual : ~0),
(unsigned int)iter->range.addr.virtual);
@@ -1349,7 +1349,7 @@ static GInstrBlock *build_instruction_blocks(GArchInstruction *instrs, code_cove
printf("\n>>>>>>>>>>>>>>>>>>>>>>>>>>>>>\n");
printf("BUILD @ 0x%08x\n", (unsigned int)addr->virtual);
- find_next_hops(instrs, addr, coverage, branch);
+ find_next_hops(proc, addr, coverage, branch);
printf("<<<<<<<<<<<<<<<<<<<<<<<<<<<<<\n\n");
}
@@ -1359,10 +1359,10 @@ static GInstrBlock *build_instruction_blocks(GArchInstruction *instrs, code_cove
/* Post-traitements de ILT_CASE_JUMP */
if (cases_branches.count > 0)
{
- block = build_instruction_block_simple(instrs, coverage, &first, iter);
+ block = build_instruction_block_simple(proc, coverage, &first, iter);
DELAYED_BLOCK_ADDING(result, result_cached, block);
- group = build_instruction_blocks_case(instrs, coverage, &cases_branches, &next_addr);
+ group = build_instruction_blocks_case(proc, coverage, &cases_branches, &next_addr);
if (group != NULL)
{
@@ -1375,7 +1375,7 @@ static GInstrBlock *build_instruction_blocks(GArchInstruction *instrs, code_cove
/* Post-traitements de ILT_JUMP_IF_TRUE / ILT_JUMP_IF_FALSE */
else if (true_branch.count > 0 || false_branch.count > 0)
{
- block = build_instruction_block_simple(instrs, coverage, &first, iter);
+ block = build_instruction_block_simple(proc, coverage, &first, iter);
GArchInstruction *_saved1;
@@ -1391,7 +1391,7 @@ static GInstrBlock *build_instruction_blocks(GArchInstruction *instrs, code_cove
fflush(NULL);
DELAYED_BLOCK_ADDING(result, result_cached, block);
- group = build_instruction_blocks_ite(instrs, coverage, &true_branch, &false_branch, &next_addr);
+ group = build_instruction_blocks_ite(proc, coverage, &true_branch, &false_branch, &next_addr);
printf(" --> group = %p - next = 0x%08x\n", group, next_addr.virtual);
@@ -1406,10 +1406,10 @@ static GInstrBlock *build_instruction_blocks(GArchInstruction *instrs, code_cove
/* Post-traitements de ILT_CATCH_EXCEPTION */
if (excep_branches.count > 0)
{
- block = build_instruction_block_simple(instrs, coverage, &first, iter);
+ block = build_instruction_block_simple(proc, coverage, &first, iter);
if (block != NULL) DELAYED_BLOCK_ADDING(result, result_cached, block);
- add_instruction_blocks_except(&result, &result_cached, instrs, coverage,
+ add_instruction_blocks_except(&result, &result_cached, proc, coverage,
&excep_branches, &main_branch);
}
@@ -1422,9 +1422,9 @@ static GInstrBlock *build_instruction_blocks(GArchInstruction *instrs, code_cove
/* Détermination du prochain point de chute */
if (not_handled == dcount)
- iter = g_arch_instruction_get_next_iter(instrs, iter, VMPA_MAX);
+ iter = g_arch_processor_get_next_instr(proc, iter);
else
- iter = g_arch_instruction_find_by_address(instrs, &next_addr, true);
+ iter = g_arch_processor_find_instr_by_address(proc, &next_addr);
}
@@ -1434,7 +1434,7 @@ static GInstrBlock *build_instruction_blocks(GArchInstruction *instrs, code_cove
if (!is_range_processed_in_coverage(coverage, range))
{
- block = build_instruction_block_simple(instrs, coverage, &first, last);
+ block = build_instruction_block_simple(proc, coverage, &first, last);
DELAYED_BLOCK_ADDING(result, result_cached, block);
}
@@ -1449,7 +1449,7 @@ static GInstrBlock *build_instruction_blocks(GArchInstruction *instrs, code_cove
/******************************************************************************
* *
-* Paramètres : list = ensemble d'instructions à relier. *
+* Paramètres : proc = processeur rassemblant les instructions à relier.*
* routines = prototypes existants à insérer. *
* count = quantité de ces prototypes. *
* statusbar = barre de statut avec progression à mettre à jour.*
@@ -1463,7 +1463,7 @@ static GInstrBlock *build_instruction_blocks(GArchInstruction *instrs, code_cove
* *
******************************************************************************/
-void group_routines_instructions(GArchInstruction *list, GBinRoutine **routines, size_t count, GtkExtStatusBar *statusbar, bstatus_id_t id)
+void group_routines_instructions(GArchProcessor *proc, GBinRoutine **routines, size_t count, GtkExtStatusBar *statusbar, bstatus_id_t id)
{
size_t i; /* Boucle de parcours */
const mrange_t *range; /* Emplacement de routine */
@@ -1478,7 +1478,7 @@ void group_routines_instructions(GArchInstruction *list, GBinRoutine **routines,
coverage = create_code_coverage(range);
- block = build_instruction_blocks(list, coverage);
+ block = build_instruction_blocks(proc, coverage);
g_binary_routine_set_basic_blocks(routines[i], block);
generated by cgit v0.11.2-87-g4458 at 2024-05-11 17:01:40 (GMT)