mirror of
https://github.com/capstone-engine/capstone.git
synced 2024-11-30 08:50:42 +00:00
21f7bc85f9
* Fix leaks * Remove unnecessary new lines * Add checks for actual buffer length before attempting reading it. * Xtensa: add xtensa support * Xtensa fixes - fix MCExpr - fix Xtensa_add_cs_detail - add `add_cs_detail` - add `MCExpr *MCOperand_getExpr(const MCOperand *MC)` `void printExpr(const MCExpr *E, SStream *O)` autosync fix - fix StreamOperation.py - replace `report_fatal_error` with `CS_ASSERT` - fix patch StreamOperation.py - replace `assert` with `CS_ASSERT` - fix AddCSDetail.py - fix QualifiedIdentifier * Xtensa fix * Xtensa fix .py * add Xtensa to the fuzzer * Xtensa `LITBASE`: add a basic implementation * Xtensa `LITBASE`: add a integration test * Xtensa: fix cs_v6_release_guide.md * Xtensa: fix `XTENSA_OP_GROUP_MEMOPERAND` * Xtensa: fix * Xtensa: fix Targets.py * Use isUint and isInt all over Xtensa * Add documentation about LITBASE functionality * Fix typo * Replace hard with Capstone assert * Xtensa: fix arch_config.json * Xtensa: fix --------- Co-authored-by: Rot127 <unisono@quyllur.org>
458 lines
12 KiB
C
458 lines
12 KiB
C
/* Capstone Disassembly Engine */
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/* By Nguyen Anh Quynh <aquynh@gmail.com>, 2013-2019 */
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/* Rot127 <unisono@quyllur.org>, 2022-2023 */
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#include "Mapping.h"
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#include "capstone/capstone.h"
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#include "utils.h"
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// create a cache for fast id lookup
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static unsigned short *make_id2insn(const insn_map *insns, unsigned int size)
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{
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// NOTE: assume that the max id is always put at the end of insns array
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unsigned short max_id = insns[size - 1].id;
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unsigned int i;
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unsigned short *cache =
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(unsigned short *)cs_mem_calloc(max_id + 1, sizeof(*cache));
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for (i = 1; i < size; i++)
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cache[insns[i].id] = i;
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return cache;
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}
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// look for @id in @insns, given its size in @max. first time call will update
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// @cache. return 0 if not found
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unsigned short insn_find(const insn_map *insns, unsigned int max,
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unsigned int id, unsigned short **cache)
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{
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if (id > insns[max - 1].id)
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return 0;
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if (*cache == NULL)
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*cache = make_id2insn(insns, max);
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return (*cache)[id];
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}
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// Gives the id for the given @name if it is saved in @map.
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// Returns the id or -1 if not found.
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int name2id(const name_map *map, int max, const char *name)
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{
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int i;
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for (i = 0; i < max; i++) {
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if (!strcmp(map[i].name, name)) {
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return map[i].id;
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}
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}
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// nothing match
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return -1;
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}
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// Gives the name for the given @id if it is saved in @map.
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// Returns the name or NULL if not found.
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const char *id2name(const name_map *map, int max, const unsigned int id)
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{
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int i;
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for (i = 0; i < max; i++) {
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if (map[i].id == id) {
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return map[i].name;
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}
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}
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// nothing match
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return NULL;
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}
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/// Adds a register to the implicit write register list.
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/// It will not add the same register twice.
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void map_add_implicit_write(MCInst *MI, uint32_t Reg)
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{
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if (!MI->flat_insn->detail)
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return;
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uint16_t *regs_write = MI->flat_insn->detail->regs_write;
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for (int i = 0; i < MAX_IMPL_W_REGS; ++i) {
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if (i == MI->flat_insn->detail->regs_write_count) {
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regs_write[i] = Reg;
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MI->flat_insn->detail->regs_write_count++;
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return;
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}
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if (regs_write[i] == Reg)
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return;
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}
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}
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/// Adds a register to the implicit read register list.
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/// It will not add the same register twice.
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void map_add_implicit_read(MCInst *MI, uint32_t Reg)
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{
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if (!MI->flat_insn->detail)
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return;
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uint16_t *regs_read = MI->flat_insn->detail->regs_read;
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for (int i = 0; i < MAX_IMPL_R_REGS; ++i) {
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if (i == MI->flat_insn->detail->regs_read_count) {
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regs_read[i] = Reg;
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MI->flat_insn->detail->regs_read_count++;
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return;
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}
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if (regs_read[i] == Reg)
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return;
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}
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}
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/// Removes a register from the implicit write register list.
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void map_remove_implicit_write(MCInst *MI, uint32_t Reg)
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{
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if (!MI->flat_insn->detail)
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return;
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uint16_t *regs_write = MI->flat_insn->detail->regs_write;
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bool shorten_list = false;
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for (int i = 0; i < MAX_IMPL_W_REGS; ++i) {
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if (shorten_list) {
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regs_write[i - 1] = regs_write[i];
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}
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if (i >= MI->flat_insn->detail->regs_write_count)
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return;
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if (regs_write[i] == Reg) {
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MI->flat_insn->detail->regs_write_count--;
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// The register should exist only once in the list.
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CS_ASSERT_RET(!shorten_list);
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shorten_list = true;
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}
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}
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}
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/// Copies the implicit read registers of @imap to @MI->flat_insn.
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/// Already present registers will be preserved.
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void map_implicit_reads(MCInst *MI, const insn_map *imap)
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{
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#ifndef CAPSTONE_DIET
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if (!MI->flat_insn->detail)
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return;
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cs_detail *detail = MI->flat_insn->detail;
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unsigned Opcode = MCInst_getOpcode(MI);
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unsigned i = 0;
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uint16_t reg = imap[Opcode].regs_use[i];
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while (reg != 0) {
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if (i >= MAX_IMPL_R_REGS ||
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detail->regs_read_count >= MAX_IMPL_R_REGS) {
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printf("ERROR: Too many implicit read register defined in "
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"instruction mapping.\n");
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return;
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}
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detail->regs_read[detail->regs_read_count++] = reg;
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if (i + 1 < MAX_IMPL_R_REGS) {
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// Select next one
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reg = imap[Opcode].regs_use[++i];
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}
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}
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#endif // CAPSTONE_DIET
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}
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/// Copies the implicit write registers of @imap to @MI->flat_insn.
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/// Already present registers will be preserved.
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void map_implicit_writes(MCInst *MI, const insn_map *imap)
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{
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#ifndef CAPSTONE_DIET
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if (!MI->flat_insn->detail)
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return;
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cs_detail *detail = MI->flat_insn->detail;
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unsigned Opcode = MCInst_getOpcode(MI);
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unsigned i = 0;
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uint16_t reg = imap[Opcode].regs_mod[i];
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while (reg != 0) {
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if (i >= MAX_IMPL_W_REGS ||
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detail->regs_write_count >= MAX_IMPL_W_REGS) {
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printf("ERROR: Too many implicit write register defined in "
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"instruction mapping.\n");
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return;
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}
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detail->regs_write[detail->regs_write_count++] = reg;
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if (i + 1 < MAX_IMPL_W_REGS) {
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// Select next one
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reg = imap[Opcode].regs_mod[++i];
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}
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}
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#endif // CAPSTONE_DIET
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}
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/// Adds a given group to @MI->flat_insn.
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/// A group is never added twice.
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void add_group(MCInst *MI, unsigned /* arch_group */ group)
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{
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#ifndef CAPSTONE_DIET
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if (!MI->flat_insn->detail)
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return;
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cs_detail *detail = MI->flat_insn->detail;
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if (detail->groups_count >= MAX_NUM_GROUPS) {
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printf("ERROR: Too many groups defined.\n");
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return;
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}
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for (int i = 0; i < detail->groups_count; ++i) {
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if (detail->groups[i] == group) {
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return;
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}
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}
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detail->groups[detail->groups_count++] = group;
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#endif // CAPSTONE_DIET
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}
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/// Copies the groups from @imap to @MI->flat_insn.
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/// Already present groups will be preserved.
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void map_groups(MCInst *MI, const insn_map *imap)
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{
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#ifndef CAPSTONE_DIET
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if (!MI->flat_insn->detail)
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return;
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cs_detail *detail = MI->flat_insn->detail;
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unsigned Opcode = MCInst_getOpcode(MI);
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unsigned i = 0;
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uint16_t group = imap[Opcode].groups[i];
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while (group != 0) {
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if (detail->groups_count >= MAX_NUM_GROUPS) {
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printf("ERROR: Too many groups defined in instruction mapping.\n");
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return;
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}
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detail->groups[detail->groups_count++] = group;
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group = imap[Opcode].groups[++i];
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}
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#endif // CAPSTONE_DIET
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}
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/// Returns the pointer to the supllementary information in
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/// the instruction mapping table @imap or NULL in case of failure.
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const void *map_get_suppl_info(MCInst *MI, const insn_map *imap)
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{
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#ifndef CAPSTONE_DIET
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if (!MI->flat_insn->detail)
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return NULL;
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unsigned Opcode = MCInst_getOpcode(MI);
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return &imap[Opcode].suppl_info;
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#else
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return NULL;
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#endif // CAPSTONE_DIET
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}
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// Search for the CS instruction id for the given @MC_Opcode in @imap.
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// return -1 if none is found.
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unsigned int find_cs_id(unsigned MC_Opcode, const insn_map *imap,
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unsigned imap_size)
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{
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// binary searching since the IDs are sorted in order
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unsigned int left, right, m;
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unsigned int max = imap_size;
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right = max - 1;
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if (MC_Opcode < imap[0].id || MC_Opcode > imap[right].id)
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// not found
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return -1;
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left = 0;
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while (left <= right) {
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m = (left + right) / 2;
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if (MC_Opcode == imap[m].id) {
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return m;
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}
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if (MC_Opcode < imap[m].id)
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right = m - 1;
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else
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left = m + 1;
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}
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return -1;
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}
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/// Sets the Capstone instruction id which maps to the @MI opcode.
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/// If no mapping is found the function returns and prints an error.
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void map_cs_id(MCInst *MI, const insn_map *imap, unsigned int imap_size)
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{
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unsigned int i = find_cs_id(MCInst_getOpcode(MI), imap, imap_size);
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if (i != -1) {
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MI->flat_insn->id = imap[i].mapid;
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return;
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}
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printf("ERROR: Could not find CS id for MCInst opcode: %d\n",
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MCInst_getOpcode(MI));
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return;
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}
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/// Returns the operand type information from the
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/// mapping table for instruction operands.
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/// Only usable by `auto-sync` archs!
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const cs_op_type mapping_get_op_type(MCInst *MI, unsigned OpNum,
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const map_insn_ops *insn_ops_map,
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size_t map_size)
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{
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assert(MI);
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assert(MI->Opcode < map_size);
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assert(OpNum < sizeof(insn_ops_map[MI->Opcode].ops) /
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sizeof(insn_ops_map[MI->Opcode].ops[0]));
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return insn_ops_map[MI->Opcode].ops[OpNum].type;
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}
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/// Returns the operand access flags from the
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/// mapping table for instruction operands.
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/// Only usable by `auto-sync` archs!
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const cs_ac_type mapping_get_op_access(MCInst *MI, unsigned OpNum,
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const map_insn_ops *insn_ops_map,
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size_t map_size)
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{
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assert(MI);
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assert(MI->Opcode < map_size);
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assert(OpNum < sizeof(insn_ops_map[MI->Opcode].ops) /
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sizeof(insn_ops_map[MI->Opcode].ops[0]));
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cs_ac_type access = insn_ops_map[MI->Opcode].ops[OpNum].access;
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if (MCInst_opIsTied(MI, OpNum) || MCInst_opIsTying(MI, OpNum))
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access |= (access == CS_AC_READ) ? CS_AC_WRITE : CS_AC_READ;
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return access;
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}
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/// Returns the operand at detail->arch.operands[op_count + offset]
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/// Or NULL if detail is not set.
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#define DEFINE_get_detail_op(arch, ARCH) \
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cs_##arch##_op *ARCH##_get_detail_op(MCInst *MI, int offset) \
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{ \
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if (!MI->flat_insn->detail) \
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return NULL; \
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int OpIdx = MI->flat_insn->detail->arch.op_count + offset; \
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assert(OpIdx >= 0 && OpIdx < MAX_MC_OPS); \
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return &MI->flat_insn->detail->arch.operands[OpIdx]; \
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}
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DEFINE_get_detail_op(arm, ARM);
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DEFINE_get_detail_op(ppc, PPC);
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DEFINE_get_detail_op(tricore, TriCore);
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DEFINE_get_detail_op(aarch64, AArch64);
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DEFINE_get_detail_op(alpha, Alpha);
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DEFINE_get_detail_op(hppa, HPPA);
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DEFINE_get_detail_op(loongarch, LoongArch);
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DEFINE_get_detail_op(mips, Mips);
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DEFINE_get_detail_op(riscv, RISCV);
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DEFINE_get_detail_op(systemz, SystemZ);
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DEFINE_get_detail_op(xtensa, Xtensa);
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/// Returns true if for this architecture the
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/// alias operands should be filled.
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/// TODO: Replace this with a proper option.
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/// So it can be toggled between disas() calls.
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bool map_use_alias_details(const MCInst *MI) {
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assert(MI);
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return (MI->csh->detail_opt & CS_OPT_ON) && !(MI->csh->detail_opt & CS_OPT_DETAIL_REAL);
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}
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/// Sets the setDetailOps flag to @p Val.
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/// If detail == NULLit refuses to set the flag to true.
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void map_set_fill_detail_ops(MCInst *MI, bool Val) {
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CS_ASSERT_RET(MI);
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if (!detail_is_set(MI)) {
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MI->fillDetailOps = false;
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return;
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}
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MI->fillDetailOps = Val;
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}
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/// Sets the instruction alias flags and the given alias id.
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void map_set_is_alias_insn(MCInst *MI, bool Val, uint64_t Alias) {
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CS_ASSERT_RET(MI);
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MI->isAliasInstr = Val;
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MI->flat_insn->is_alias = Val;
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MI->flat_insn->alias_id = Alias;
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}
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static inline bool char_ends_mnem(const char c, cs_arch arch) {
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switch (arch) {
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default:
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return (!c || c == ' ' || c == '\t' || c == '.');
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case CS_ARCH_PPC:
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return (!c || c == ' ' || c == '\t');
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}
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}
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/// Sets an alternative id for some instruction.
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/// Or -1 if it fails.
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/// You must add (<ARCH>_INS_ALIAS_BEGIN + 1) to the id to get the real id.
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void map_set_alias_id(MCInst *MI, const SStream *O, const name_map *alias_mnem_id_map, int map_size) {
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if (!MCInst_isAlias(MI))
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return;
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char alias_mnem[16] = { 0 };
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int i = 0, j = 0;
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const char *asm_str_buf = O->buffer;
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// Skip spaces and tabs
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while (is_blank_char(asm_str_buf[i])) {
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if (!asm_str_buf[i]) {
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MI->flat_insn->alias_id = -1;
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return;
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}
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++i;
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}
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for (; j < sizeof(alias_mnem) - 1; ++j, ++i) {
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if (char_ends_mnem(asm_str_buf[i], MI->csh->arch))
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break;
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alias_mnem[j] = asm_str_buf[i];
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}
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MI->flat_insn->alias_id = name2id(alias_mnem_id_map, map_size, alias_mnem);
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}
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/// Does a binary search over the given map and searches for @id.
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/// If @id exists in @map, it sets @found to true and returns
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/// the value for the @id.
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/// Otherwise, @found is set to false and it returns UINT64_MAX.
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///
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/// Of course it assumes the map is sorted.
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uint64_t enum_map_bin_search(const cs_enum_id_map *map, size_t map_len,
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const char *id, bool *found)
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{
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size_t l = 0;
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size_t r = map_len;
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size_t id_len = strlen(id);
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while (l <= r) {
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size_t m = (l + r) / 2;
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size_t j = 0;
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size_t i = 0;
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size_t entry_len = strlen(map[m].str);
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while (j < entry_len && i < id_len && id[i] == map[m].str[j]) {
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++j, ++i;
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}
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if (i == id_len && j == entry_len) {
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*found = true;
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return map[m].val;
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}
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if (id[i] < map[m].str[j]) {
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r = m - 1;
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} else if (id[i] > map[m].str[j]) {
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l = m + 1;
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}
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if ((m == 0 && id[i] < map[m].str[j]) || (l + r) / 2 >= map_len) {
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// Break before we go out of bounds.
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break;
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}
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}
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*found = false;
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return UINT64_MAX;
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}
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