From 3467b0cdb09976faccc6dbef09315cc38dbe6fb5 Mon Sep 17 00:00:00 2001
From: Cyrille Bagard <nocbos@gmail.com>
Date: Tue, 5 Feb 2013 23:01:48 +0000
Subject: Rewritten many parts of the process which cut code into basic blocks.

git-svn-id: svn://svn.gna.org/svn/chrysalide/trunk@338 abbe820e-26c8-41b2-8c08-b7b2b41f8b0a
---
 ChangeLog                    |  16 ++
 src/analysis/decomp/reduce.c |   2 +-
 src/analysis/disass/macro.c  | 456 +++++++++++++++++++++++++++----------------
 src/arch/dalvik/register.c   |   2 +-
 src/decomp/instr/switch.c    |   4 +-
 5 files changed, 307 insertions(+), 173 deletions(-)

diff --git a/ChangeLog b/ChangeLog
index 90a1cb1..d830550 100644
--- a/ChangeLog
+++ b/ChangeLog
@@ -1,3 +1,19 @@
+13-02-05  Cyrille Bagard <nocbos@gmail.com>
+
+	* src/analysis/decomp/reduce.c:
+	Avoid to remove variable definitions with immediate values in switch cases
+	when reducing expressions.
+
+	* src/analysis/disass/macro.c:
+	Rewrite many parts of the process which cut code into basic blocks :
+	improve it and fix it for special cases with switch cases.
+
+	* src/arch/dalvik/register.c:
+	Fix a typo, and thus a bug when comparing registers.
+
+	* src/decomp/instr/switch.c:
+	Activate some visiting functions.
+
 13-02-03  Cyrille Bagard <nocbos@gmail.com>
 
 	* src/analysis/decomp/decompiler.c:
diff --git a/src/analysis/decomp/reduce.c b/src/analysis/decomp/reduce.c
index 2d6fce3..c372f2a 100644
--- a/src/analysis/decomp/reduce.c
+++ b/src/analysis/decomp/reduce.c
@@ -332,7 +332,7 @@ static void replace_useless_variable(GDecInstruction *block, GHashTable *table)
 
     while (g_hash_table_iter_next(&iter, (gpointer *)&var, (gpointer *)&val))
     {
-        replace = G_IS_IMM_EXPRESSION(val->value);
+        replace = (G_IS_IMM_EXPRESSION(val->value) && (val->used_counter > 1));
         replace |= (val->used_counter == 2);    /* 1 assign. + 1 usage */
 
         if (!replace) continue;
diff --git a/src/analysis/disass/macro.c b/src/analysis/disass/macro.c
index 993f70f..8766ed9 100644
--- a/src/analysis/disass/macro.c
+++ b/src/analysis/disass/macro.c
@@ -24,6 +24,7 @@
 #include "macro.h"
 
 
+#include <malloc.h>
 #include <string.h>
 
 
@@ -32,6 +33,40 @@
 
 
 
+/* ------------------------ COUVERTURE D'UNE ZONE A DECOUPER ------------------------ */
+
+
+/* Bornes d'une zone à couvrir */
+typedef struct _code_coverage
+{
+    vmpa_t start;                           /* Adresse de départ           */
+
+    vmpa_t *ends;                           /* Adresses butoir de fin      */
+    size_t ends_count;                      /* Quantité de fins possibles  */
+
+} code_coverage;
+
+
+/* Met en place les délimitations d'une zone de code. */
+static code_coverage *create_code_coverage(vmpa_t, vmpa_t);
+
+/* Crée une copie d'une couverture de zone de code. */
+static code_coverage *dup_code_coverage(vmpa_t, const code_coverage *);
+
+/* Détruit des délimitations d'une zone de code. */
+static void delete_code_coverage(code_coverage *);
+
+/* Indique si une adresse est hors zone ou non. */
+static bool code_coverage_stop_here(const code_coverage *, const vmpa_t *);
+
+/* Ajoute une adresse butoir pour la zone à couvrir. */
+static void add_ending_address_code_coverage(code_coverage *, const vmpa_t *);
+
+
+
+/* ------------------------- SUIVI DES FLOTS D'INSTRUCTIONS ------------------------- */
+
+
 /* Indications sur une branche */
 typedef struct _branch_info
 {
@@ -41,6 +76,23 @@ typedef struct _branch_info
 } branch_info;
 
 
+/* Indique si une adresse est retenue comme point de passage. */
+static bool is_addr_in_branch(const branch_info *, const vmpa_t *);
+
+/* Identifie les différents points de passage d'une branche. */
+static void find_next_jumps(GArchInstruction *, vmpa_t, const code_coverage *, branch_info *);
+
+/* Retrouve le point de ralliement entre deux branches. */
+static vmpa_t compute_first_common_addr(branch_info *, branch_info *);
+
+/* Retrouve le point de ralliement entre un groupe de branches. */
+static vmpa_t compute_first_common_addr_in_group(const branch_info *, size_t);
+
+
+
+/* --------------------------- DECOUPAGE EN BLOCS DE CODE --------------------------- */
+
+
 /**
  * Macros pour le marquage des instructions traitées.
  * Dans un soucis d'optimisation, on ne traite que les instructions
@@ -51,29 +103,159 @@ typedef struct _branch_info
 #define MACRO_CLEAR_PROCESSED(_instr) g_object_set_data(G_OBJECT(_instr), "macro_done", NULL)
 
 
-/* Indique si une adresse est retenue comme point de passage. */
-static bool is_addr_in_branch(const branch_info *, const vmpa_t *, bool, size_t *);
+/* Procède à la définition de bloc regroupant des instructions. */
+static GInstrBlock *build_instruction_block(GArchInstruction *, const code_coverage *);
 
-/* Identifie les différents points de passage d'une branche. */
-static void find_next_jumps(GArchInstruction *, vmpa_t, vmpa_t, branch_info *);
 
-/* Retrouve le point de ralliement entre deux branches. */
-static vmpa_t compute_first_common_addr(branch_info *, branch_info *);
 
-/* Retrouve le point de ralliement entre un groupe de branches. */
-static vmpa_t compute_first_common_addr_in_group(const branch_info *, size_t);
+/* ---------------------------------------------------------------------------------- */
+/*                          COUVERTURE D'UNE ZONE A DECOUPER                          */
+/* ---------------------------------------------------------------------------------- */
 
-/* Procède à la définition de bloc regroupant des instructions. */
-static GInstrBlock *build_instruction_block(GArchInstruction *, vmpa_t, vmpa_t, vmpa_t);
 
+/******************************************************************************
+*                                                                             *
+*  Paramètres  : start = adresse du début de la zone à couvrir.               *
+*                end   = adresse de fin de la zone à couvrir (exclusive).     *
+*                                                                             *
+*  Description : Met en place les délimitations d'une zone de code.           *
+*                                                                             *
+*  Retour      : Couverture d'une zone de code.                               *
+*                                                                             *
+*  Remarques   : -                                                            *
+*                                                                             *
+******************************************************************************/
+
+static code_coverage *create_code_coverage(vmpa_t start, vmpa_t end)
+{
+    code_coverage *result;                  /* Couverture à retourner      */
+
+    result = (code_coverage *)calloc(1, sizeof(code_coverage));
+
+    result->start = start;
+
+    result->ends = (vmpa_t *)calloc(1, sizeof(vmpa_t));
+    result->ends_count = 1;
+
+    result->ends[0] = end;
+
+    return result;
+
+}
+
+
+/******************************************************************************
+*                                                                             *
+*  Paramètres  : start = nouvelle adresse de début, plus profonde.            *
+*                src   = informations de couverture à consulter.              *
+*                                                                             *
+*  Description : Crée une copie d'une couverture de zone de code.             *
+*                                                                             *
+*  Retour      : Couverture d'une zone de code copiée.                        *
+*                                                                             *
+*  Remarques   : -                                                            *
+*                                                                             *
+******************************************************************************/
+
+static code_coverage *dup_code_coverage(vmpa_t start, const code_coverage *src)
+{
+    code_coverage *result;                  /* Couverture à retourner      */
+    size_t i;                               /* Boucle de parcours          */
+
+    result = (code_coverage *)calloc(1, sizeof(code_coverage));
+
+    result->start = start;
+
+    result->ends = (vmpa_t *)calloc(src->ends_count, sizeof(vmpa_t));
+    result->ends_count = src->ends_count;
+
+    for (i = 0; i < result->ends_count; i++)
+        result->ends[i] = src->ends[i];
+
+    return result;
+
+}
+
+
+/******************************************************************************
+*                                                                             *
+*  Paramètres  : coverage = structure à libérer de la mémoire.                *
+*                                                                             *
+*  Description : Détruit des délimitations d'une zone de code.                *
+*                                                                             *
+*  Retour      : -                                                            *
+*                                                                             *
+*  Remarques   : -                                                            *
+*                                                                             *
+******************************************************************************/
+
+static void delete_code_coverage(code_coverage *coverage)
+{
+    free(coverage->ends);
+
+    free(coverage);
+
+}
+
+
+/******************************************************************************
+*                                                                             *
+*  Paramètres  : coverage = informations de couverture à consulter.           *
+*                addr     = adresse à tester.                                 *
+*                                                                             *
+*  Description : Indique si une adresse est hors zone ou non.                 *
+*                                                                             *
+*  Retour      : true si l'adresse ne doit pas être couverte, false sinon.    *
+*                                                                             *
+*  Remarques   : -                                                            *
+*                                                                             *
+******************************************************************************/
+
+static bool code_coverage_stop_here(const code_coverage *coverage, const vmpa_t *addr)
+{
+    void *ptr;                              /* Résultat des recherches     */
+
+    ptr = bsearch(addr, coverage->ends, coverage->ends_count,
+                  sizeof(vmpa_t), (__compar_fn_t)compare_vmpa);
+
+    return (ptr != NULL);
+
+}
+
+
+/******************************************************************************
+*                                                                             *
+*  Paramètres  : coverage = informations de couverture à compléter.           *
+*                addr     = adresse à ajouter.                                *
+*                                                                             *
+*  Description : Ajoute une adresse butoir pour la zone à couvrir.            *
+*                                                                             *
+*  Retour      : -                                                            *
+*                                                                             *
+*  Remarques   : -                                                            *
+*                                                                             *
+******************************************************************************/
+
+static void add_ending_address_code_coverage(code_coverage *coverage, const vmpa_t *addr)
+{
+    coverage->ends = (vmpa_t *)realloc(coverage->ends, ++coverage->ends_count * sizeof(vmpa_t));
+    coverage->ends[coverage->ends_count - 1] = *addr;
+
+    qsort(coverage->ends, coverage->ends_count, sizeof(vmpa_t), (__compar_fn_t)compare_vmpa);
+
+}
+
+
+
+/* ---------------------------------------------------------------------------------- */
+/*                           SUIVI DES FLOTS D'INSTRUCTIONS                           */
+/* ---------------------------------------------------------------------------------- */
 
 
 /******************************************************************************
 *                                                                             *
 *  Paramètres  : info = informations à consulter.                             *
 *                addr = adresse à rechercher.                                 *
-*                fast = autorise une recherche rapide.                        *
-*                pos  = enregistrement de la position de la trouvaille. [OUT] *
 *                                                                             *
 *  Description : Indique si une adresse est retenue comme point de passage.   *
 *                                                                             *
@@ -83,31 +265,15 @@ static GInstrBlock *build_instruction_block(GArchInstruction *, vmpa_t, vmpa_t,
 *                                                                             *
 ******************************************************************************/
 
-static bool is_addr_in_branch(const branch_info *info, const vmpa_t *addr, bool fast, size_t *pos)
+static bool is_addr_in_branch(const branch_info *info, const vmpa_t *addr)
 {
     bool result;                            /* Bilan à retourner           */
     size_t i;                               /* Boucle de parcours          */
-    void *ptr;                              /* Résultat des recherches     */
 
     result = false;
 
-    if (!fast)
-        for (i = 0; i < info->count && !result; i++)
-        {
-            result = (info->jumps[i] == *addr);
-            if (result && pos != NULL)
-                *pos = i;
-        }
-
-    else
-    {
-        ptr = bsearch(addr, info->jumps, info->count, sizeof(vmpa_t), (__compar_fn_t)compare_vmpa);
-        result = (ptr != NULL);
-
-        if (result && pos != NULL)
-            *pos = (ptr - ((void *)info->jumps)) / sizeof(vmpa_t);
-
-    }
+    for (i = 0; i < info->count && !result; i++)
+        result = (info->jumps[i] == *addr);
 
     return result;
 
@@ -116,10 +282,10 @@ static bool is_addr_in_branch(const branch_info *info, const vmpa_t *addr, bool
 
 /******************************************************************************
 *                                                                             *
-*  Paramètres  : instrs = ensemble des instructions d'assemblage.             *
-*                start  = adresse de début du bloc.                           *
-*                end    = adresse de fin du bloc (exclusive).                 *
-*                count  = nombre de sauts détectés. [OUT]                     *
+*  Paramètres  : instrs   = ensemble des instructions d'assemblage.           *
+*                start    = adresse de début du bloc.                         *
+*                coverage = liste des adresses de fin butoir.                 *
+*                count    = nombre de sauts détectés. [OUT]                   *
 *                                                                             *
 *  Description : Identifie les différents points de passage d'une branche.    *
 *                                                                             *
@@ -129,17 +295,17 @@ static bool is_addr_in_branch(const branch_info *info, const vmpa_t *addr, bool
 *                                                                             *
 ******************************************************************************/
 
-static void find_next_jumps(GArchInstruction *instrs, vmpa_t start, vmpa_t end, branch_info *info)
+static void find_next_jumps(GArchInstruction *instrs, vmpa_t start, const code_coverage *coverage, branch_info *info)
 {
     GArchInstruction *iter;                 /* Boucle de parcours #1       */
+    vmpa_t addr;                            /* Adresse d'une instruction   */
     GArchInstruction **dests;               /* Instr. visée par une autre  */
     InstructionLinkType *types;             /* Type de lien entre lignes   */
     size_t dcount;                          /* Nombre de liens de dest.    */
     size_t i;                               /* Boucle de parcours #2       */
-    vmpa_t addr;                            /* Adresse de la destination   */
 
     /* On évite de boucler... */
-    if (is_addr_in_branch(info, &start, false, NULL))
+    if (is_addr_in_branch(info, &start))
         return;
 
     info->jumps = (vmpa_t *)realloc(info->jumps, ++(info->count) * sizeof(vmpa_t));
@@ -148,8 +314,13 @@ static void find_next_jumps(GArchInstruction *instrs, vmpa_t start, vmpa_t end,
     /* On suit le flot jusqu'à la prochaine bifurcation */
     for (iter = g_arch_instruction_find_by_address(instrs, start, true);
          iter != NULL;
-         iter = g_arch_instruction_get_next_iter(instrs, iter, end))
+         iter = g_arch_instruction_get_next_iter(instrs, iter, VMPA_MAX))
     {
+        g_arch_instruction_get_location(iter, NULL, NULL, &addr);
+
+        if (code_coverage_stop_here(coverage, &addr))
+            break;
+
         if (g_arch_instruction_is_return(iter))
         {
             iter = NULL;
@@ -170,7 +341,7 @@ static void find_next_jumps(GArchInstruction *instrs, vmpa_t start, vmpa_t end,
                 case ILT_JUMP_IF_TRUE:
                 case ILT_JUMP_IF_FALSE:
                     g_arch_instruction_get_location(dests[i], NULL, NULL, &addr);
-                    find_next_jumps(instrs, addr, end, info);
+                    find_next_jumps(instrs, addr, coverage, info);
                     break;
 
                 default:
@@ -183,10 +354,10 @@ static void find_next_jumps(GArchInstruction *instrs, vmpa_t start, vmpa_t end,
     }
 
     /* Si on termine... */
-    if (iter != NULL && !is_addr_in_branch(info, &end, false, NULL))
+    if (iter != NULL && !is_addr_in_branch(info, &addr))
     {
         info->jumps = (vmpa_t *)realloc(info->jumps, ++(info->count) * sizeof(vmpa_t));
-        info->jumps[info->count - 1] = end;
+        info->jumps[info->count - 1] = addr;
     }
 
 }
@@ -213,11 +384,8 @@ static vmpa_t compute_first_common_addr(branch_info *a, branch_info *b)
     /* Valeur conceptuellement impossible à renvoyer */
     result = VMPA_MAX;
 
-    //qsort(a->jumps, a->count, sizeof(vmpa_t), (__compar_fn_t)compare_vmpa);
-    //qsort(b->jumps, b->count, sizeof(vmpa_t), (__compar_fn_t)compare_vmpa);
-
     for (i = 0; i < a->count && result == VMPA_MAX; i++)
-        if (is_addr_in_branch(b, &a->jumps[i], false, NULL))
+        if (is_addr_in_branch(b, &a->jumps[i]))
             result = a->jumps[i];
 
     return result;
@@ -248,15 +416,12 @@ static vmpa_t compute_first_common_addr_in_group(const branch_info *list, size_t
     /* Valeur conceptuellement impossible à renvoyer */
     result = VMPA_MAX;
 
-    //qsort(a->jumps, a->count, sizeof(vmpa_t), (__compar_fn_t)compare_vmpa);
-    //qsort(b->jumps, b->count, sizeof(vmpa_t), (__compar_fn_t)compare_vmpa);
-
     for (i = 0; i < list[0].count && result == VMPA_MAX; i++)
     {
         keep = true;
 
         for (j = 1; j < count && keep; j++)
-            keep = is_addr_in_branch(&list[j], &list[0].jumps[i], false, NULL);
+            keep = is_addr_in_branch(&list[j], &list[0].jumps[i]);
 
         if (keep)
             result = list[0].jumps[i];
@@ -269,56 +434,15 @@ static vmpa_t compute_first_common_addr_in_group(const branch_info *list, size_t
 
 
 
+/* ---------------------------------------------------------------------------------- */
+/*                             DECOUPAGE EN BLOCS DE CODE                             */
+/* ---------------------------------------------------------------------------------- */
 
 
 /******************************************************************************
 *                                                                             *
-*  Paramètres  : list  = liste d'ensembles de jalons à parcourir.             *
-*                count = taille de cette liste.                               *
-*                                                                             *
-*  Description : Retrouve le point de ralliement entre un groupe de branches. *
-*                                                                             *
-*  Retour      : Adresse commune aux branches.                                *
-*                                                                             *
-*  Remarques   : -                                                            *
-*                                                                             *
-******************************************************************************/
-
-static vmpa_t avoid_cases_common_part(const branch_info *list, size_t cur, size_t count, vmpa_t max)
-{
-    vmpa_t result;                          /* Adresse trouvée à retourner */
-    size_t found_pos;                       /* Plus petit tronc commun     */
-    size_t i;                               /* Boucle de parcours          */
-    size_t pos;                             /* Emplacement du cas commun   */
-
-    result = max;
-
-    found_pos = list[cur].count;
-
-    for (i = 0; i < count; i++)
-    {
-        if (i == cur) continue;
-
-        if (is_addr_in_branch(&list[cur], &list[i].jumps[0], false, &pos))
-        {
-            if (pos < found_pos)
-                result = list[i].jumps[0];
-        }
-
-    }
-
-    return result;
-
-}
-
-
-
-/******************************************************************************
-*                                                                             *
-*  Paramètres  : instrs = ensemble des instructions d'assemblage.             *
-*                start  = adresse de début du bloc.                           *
-*                end    = adresse de fin du bloc (exclusive).                 *
-*                stop   = adresse d'arrêt en cas de saut ou VMPA_MAX.         *
+*  Paramètres  : instrs   = ensemble des instructions d'assemblage.           *
+*                coverage = délimitations de la zone à couvrir.               *
 *                                                                             *
 *  Description : Procède à la définition de bloc regroupant des instructions. *
 *                                                                             *
@@ -328,7 +452,7 @@ static vmpa_t avoid_cases_common_part(const branch_info *list, size_t cur, size_
 *                                                                             *
 ******************************************************************************/
 
-static GInstrBlock *build_instruction_block(GArchInstruction *instrs, vmpa_t start, vmpa_t end, vmpa_t stop)
+static GInstrBlock *build_instruction_block(GArchInstruction *instrs, const code_coverage *coverage)
 {
     GInstrBlock *result;                    /* Regroupement à retourner    */
     GInstrBlock *result_cached;             /* Temporisation pour unicité  */
@@ -344,13 +468,15 @@ static GInstrBlock *build_instruction_block(GArchInstruction *instrs, vmpa_t sta
     GInstrBlock *block;                     /* Nouveau bloc mis en place   */
     GInstrBlock *parent;                    /* Mémorisation pour les liens */
     GInstrBlock *group;                     /* Regroupement de blocs       */
+    size_t not_handled;                     /* Quantité de liens non gérés */
+    vmpa_t next_addr;                       /* Prochaine instruction visée */
     branch_info *cases_branches;            /* Branches d'un aiguillage    */
     size_t cases_count;                     /* Nombre d'aiguillages        */
     branch_info true_branch;                /* Branche 'condition vraie'   */
     branch_info false_branch;               /* Branche 'condition fausse'  */
     branch_info *excep_branches;            /* Branches d'exceptions       */
     size_t excep_count;                     /* Nombre d'exceptions         */
-    vmpa_t next_addr;                       /* Prochaine instruction visée */
+    code_coverage *sub_coverage;            /* Couverture pour les suivants*/
     size_t j;                               /* Boucle de parcours #2       */
     vmpa_t stop_addr;                       /* Adresse de fin de bloc      */
 
@@ -386,16 +512,15 @@ static GInstrBlock *build_instruction_block(GArchInstruction *instrs, vmpa_t sta
     last = NULL;
 
     memset(&main_branch, 0, sizeof(branch_info));
-    find_next_jumps(instrs, start, end, &main_branch);
+    find_next_jumps(instrs, coverage->start, coverage, &main_branch);
 
-    //printf("[+] blocking 0x%08llx -> 0x%08llx... stop @ 0x%08llx\n", start, end, stop);
-
-    for (iter = g_arch_instruction_find_by_address(instrs, start, true);
+    for (iter = g_arch_instruction_find_by_address(instrs, coverage->start, true);
          iter != NULL;
          )
     {
         g_arch_instruction_get_location(iter, NULL, NULL, &addr);
-        if (addr == stop) break;
+
+        if (code_coverage_stop_here(coverage, &addr)) break;
 
         /* On s'arrêter si l'instruction est déjà décompilée */
         if (MACRO_IS_PROCESSED(iter)) break;
@@ -408,7 +533,7 @@ static GInstrBlock *build_instruction_block(GArchInstruction *instrs, vmpa_t sta
         /* 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, end);
+            iter = g_arch_instruction_get_next_iter(instrs, iter, VMPA_MAX);
             continue;
         }
 
@@ -416,7 +541,8 @@ static GInstrBlock *build_instruction_block(GArchInstruction *instrs, vmpa_t sta
 
         dcount = g_arch_instruction_get_destinations(iter, &dests, &types, NULL);
 
-        next_addr = 0;
+        not_handled = 0;
+        next_addr = VMPA_MAX;
         cases_branches = NULL;
         cases_count = 0;
         memset(&true_branch, 0, sizeof(branch_info));
@@ -447,18 +573,18 @@ static GInstrBlock *build_instruction_block(GArchInstruction *instrs, vmpa_t sta
                     cases_branches = (branch_info *)realloc(cases_branches,
                                                             ++cases_count * sizeof(branch_info));
                     memset(&cases_branches[cases_count - 1], 0, sizeof(branch_info));
-                    find_next_jumps(instrs, addr, end, &cases_branches[cases_count - 1]);
+                    find_next_jumps(instrs, addr, coverage, &cases_branches[cases_count - 1]);
 
                     break;
 
                 case ILT_JUMP_IF_TRUE:
                     g_arch_instruction_get_location(dests[i], NULL, NULL, &addr);
-                    find_next_jumps(instrs, addr, end, &true_branch);
+                    find_next_jumps(instrs, addr, coverage, &true_branch);
                     break;
 
                 case ILT_JUMP_IF_FALSE:
                     g_arch_instruction_get_location(dests[i], NULL, NULL, &addr);
-                    find_next_jumps(instrs, addr, end, &false_branch);
+                    find_next_jumps(instrs, addr, coverage, &false_branch);
                     break;
 
                 case ILT_CATCH_EXCEPTION:
@@ -468,13 +594,16 @@ static GInstrBlock *build_instruction_block(GArchInstruction *instrs, vmpa_t sta
                     excep_branches = (branch_info *)realloc(excep_branches,
                                                             ++excep_count * sizeof(branch_info));
                     memset(&excep_branches[excep_count - 1], 0, sizeof(branch_info));
-                    find_next_jumps(instrs, addr, end, &excep_branches[excep_count - 1]);
+                    find_next_jumps(instrs, addr, coverage, &excep_branches[excep_count - 1]);
 
-                    break;
+                    /**
+                     * Les deux cas sont les seuls à ne pas conduire à une définition de
+                     * next_addr, donc on les comptabilise sur un pied d'égalité !
+                     */
+                    //break;
 
                 default:
-                    if (next_addr == 0)
-                        next_addr = VMPA_MAX;
+                    not_handled++;
                     break;
 
             }
@@ -493,52 +622,30 @@ static GInstrBlock *build_instruction_block(GArchInstruction *instrs, vmpa_t sta
 
             DELAYED_BLOCK_ADDING(result, result_cached, block);
 
-            printf(" --- cases --- start\n");
-
             next_addr = compute_first_common_addr_in_group(cases_branches, cases_count);
-            printf("    stop :: 0x%08llx\n", next_addr);
 
             parent = block;
             group = g_virtual_block_new();
 
-            do
+            for (i = 0; i < cases_count; i++)
             {
-                size_t _i, _j;
-
-                for (_i = 0; _i < cases_count; _i++)
-                {
-                    printf("  [case %d] : ", _i);
+                sub_coverage = dup_code_coverage(cases_branches[i].jumps[0], coverage);
 
-                    for (_j = 0; _j < cases_branches[_i].count; _j++)
-                        printf("0x%08lx ", cases_branches[_i].jumps[_j]);
+                add_ending_address_code_coverage(sub_coverage, &next_addr);
 
-                    printf("\n");
+                for (j = 0; j < cases_count; j++)
+                    if (cases_branches[j].jumps[0] != cases_branches[i].jumps[0])
+                        add_ending_address_code_coverage(sub_coverage, &cases_branches[j].jumps[0]);
 
-                }
+                block = build_instruction_block(instrs, sub_coverage);
 
-            } while (0);
-
-
-            for (j = 0; j < cases_count; j++)
-            {
-                printf(" ## %zu start=0x%08lx (0x%08lx)...\n", j, cases_branches[j].jumps[0],
-                       next_addr);
-
-                //block = build_instruction_block(instrs, cases_branches[j].jumps[0], end, next_addr);
-
-                //next_addr = avoid_cases_common_part(cases_branches, j, cases_count, next_addr);
-
-                block = build_instruction_block(instrs, cases_branches[j].jumps[0], end,
-                                                avoid_cases_common_part(cases_branches, j, cases_count, next_addr));
-
-                printf(" %p (0x%08lx)\n", block,
-                       avoid_cases_common_part(cases_branches, j, cases_count, next_addr));
+                delete_code_coverage(sub_coverage);
 
                 if (block != NULL)
 
                 g_virtual_block_add_child(G_VIRTUAL_BLOCK(group), block);
 
-                free(cases_branches[j].jumps);
+                free(cases_branches[i].jumps);
 
             }
 
@@ -550,23 +657,13 @@ static GInstrBlock *build_instruction_block(GArchInstruction *instrs, vmpa_t sta
             else
                 g_object_unref(G_OBJECT(group));
 
-            printf(" --- cases --- end\n");
-
-
             free(cases_branches);
 
         }
 
-        if (next_addr == VMPA_MAX)
-        {
-            iter = g_arch_instruction_get_next_iter(instrs, iter, end);
-            continue;
-        }
-
         else if (true_branch.count > 0 || false_branch.count > 0)
         {
             next_addr = compute_first_common_addr(&true_branch, &false_branch);
-            next_addr = MIN(next_addr, end);
 
             /**
              * On doit clôturer le bloc renvoyant vers les branches 'true' et 'false' ici.
@@ -582,14 +679,32 @@ static GInstrBlock *build_instruction_block(GArchInstruction *instrs, vmpa_t sta
             parent = block;
             group = g_virtual_block_new();
 
-            block = build_instruction_block(instrs, true_branch.jumps[0], end, next_addr);
+            /* Branche 'true' */
+
+            sub_coverage = dup_code_coverage(true_branch.jumps[0], coverage);
+            add_ending_address_code_coverage(sub_coverage, &next_addr);
+            add_ending_address_code_coverage(sub_coverage, &false_branch.jumps[0]);
+
+            block = build_instruction_block(instrs, sub_coverage);
             if (block != NULL)
                 g_virtual_block_add_child(G_VIRTUAL_BLOCK(group), block);
 
-            block = build_instruction_block(instrs, false_branch.jumps[0], end, next_addr);
+            delete_code_coverage(sub_coverage);
+
+            /* Branche 'false' */
+
+            sub_coverage = dup_code_coverage(false_branch.jumps[0], coverage);
+            add_ending_address_code_coverage(sub_coverage, &next_addr);
+            add_ending_address_code_coverage(sub_coverage, &true_branch.jumps[0]);
+
+            block = build_instruction_block(instrs, sub_coverage);
             if (block != NULL)
                 g_virtual_block_add_child(G_VIRTUAL_BLOCK(group), block);
 
+            delete_code_coverage(sub_coverage);
+
+            /* Conclusion */
+
             if (g_virtual_block_count_children(G_VIRTUAL_BLOCK(group)) > 0)
             {
                 DELAYED_BLOCK_ADDING(result, result_cached, group);
@@ -601,8 +716,6 @@ static GInstrBlock *build_instruction_block(GArchInstruction *instrs, vmpa_t sta
             free(true_branch.jumps);
             free(false_branch.jumps);
 
-            if (next_addr == end) break;
-
         }
 
         /* Post-traitements de ILT_CATCH_EXCEPTION */
@@ -621,9 +734,13 @@ static GInstrBlock *build_instruction_block(GArchInstruction *instrs, vmpa_t sta
             for (j = 0; j < excep_count; j++)
             {
                 stop_addr = compute_first_common_addr(&main_branch, &excep_branches[j]);
-                //next_addr = MIN(next_addr, end);
 
-                block = build_instruction_block(instrs, excep_branches[j].jumps[0], end, stop_addr);
+                sub_coverage = dup_code_coverage(excep_branches[j].jumps[0], coverage);
+                add_ending_address_code_coverage(sub_coverage, &stop_addr);
+
+                block = build_instruction_block(instrs, sub_coverage);
+
+                delete_code_coverage(sub_coverage);
 
                 if (block != NULL)
 
@@ -638,7 +755,11 @@ static GInstrBlock *build_instruction_block(GArchInstruction *instrs, vmpa_t sta
         }
 
         /* Détermination du prochain point de chute */
-        iter = g_arch_instruction_find_by_address(instrs, next_addr, true);
+
+        if (not_handled == dcount)
+            iter = g_arch_instruction_get_next_iter(instrs, iter, VMPA_MAX);
+        else
+            iter = g_arch_instruction_find_by_address(instrs, next_addr, true);
 
     }
 
@@ -646,10 +767,8 @@ static GInstrBlock *build_instruction_block(GArchInstruction *instrs, vmpa_t sta
     {
         if (!MACRO_IS_PROCESSED(first))
         {
-            //printf("--close?--\n");
             block = g_flow_block_new(instrs, first, last);
             MACRO_MARK_AS_PROCESSED(first);
-            //printf("--close!--\n");
 
             DELAYED_BLOCK_ADDING(result, result_cached, block);
 
@@ -657,12 +776,6 @@ static GInstrBlock *build_instruction_block(GArchInstruction *instrs, vmpa_t sta
 
     }
 
-    if ((result != NULL ? result : result_cached) == NULL)
-    {
-        //printf("WARNING :: null !\n");
-        //exit(0);
-    }
-
     return (result != NULL ? result : result_cached);
 
 }
@@ -689,6 +802,7 @@ void group_routines_instructions(GArchInstruction *list, GBinRoutine **routines,
     size_t i;                               /* Boucle de parcours          */
     vmpa_t start;                           /* Adresse de départ           */
     vmpa_t end;                             /* Adresse de fin              */
+    code_coverage *coverage;                /* Couverture de zone de code  */
     GInstrBlock *block;                     /* Regroupement d'instructions */
 
     for (i = 0; i < count; i++)
@@ -696,9 +810,13 @@ void group_routines_instructions(GArchInstruction *list, GBinRoutine **routines,
         start = g_binary_routine_get_address(routines[i]);
         end = start + g_binary_routine_get_size(routines[i]);
 
-        block = build_instruction_block(list, start, end, VMPA_MAX);
+        coverage = create_code_coverage(start, end);
+
+        block = build_instruction_block(list, coverage);
         g_binary_routine_set_basic_blocks(routines[i], block);
 
+        delete_code_coverage(coverage);
+
         gtk_extended_status_bar_update_activity(statusbar, id, (i + 1) * 1.0 / count);
 
     }
diff --git a/src/arch/dalvik/register.c b/src/arch/dalvik/register.c
index 4e91cd4..39363b1 100644
--- a/src/arch/dalvik/register.c
+++ b/src/arch/dalvik/register.c
@@ -192,7 +192,7 @@ int g_dalvik_register_compare(const GDalvikRegister *a, const GDalvikRegister *b
 
     if (a->index < b->index)
         result = -1;
-    else if (a->index < b->index)
+    else if (a->index > b->index)
         result = 1;
     else
         result = 0;
diff --git a/src/decomp/instr/switch.c b/src/decomp/instr/switch.c
index 4b1662b..b475eae 100644
--- a/src/decomp/instr/switch.c
+++ b/src/decomp/instr/switch.c
@@ -179,7 +179,7 @@ static bool g_switch_instruction_visit(GSwitchInstruction *instr, dec_instr_visi
     size_t i;                               /* Boucle de parcours          */
 
     result = true;
-    return true;
+
     for (i = 0; i < instr->cases_count && result; i++)
         result = _g_dec_instruction_visit(instr->cases[i].instrs, G_DEC_INSTRUCTION(instr),
                                           callback, flags, data);
@@ -213,7 +213,7 @@ static bool g_switch_instruction_replace(GSwitchInstruction *instr, GDecInstruct
     size_t i;                               /* Boucle de parcours          */
 
     result = false;
-    return false;
+
     for (i = 0; i < instr->cases_count; i++)
         result |= g_dec_instruction_replace(instr->cases[i].instrs, old, new);
 
-- 
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