From ebc50b387ab209c9f9a0d92e340ac293d5697274 Mon Sep 17 00:00:00 2001 From: sanine Date: Sat, 11 Mar 2023 15:58:20 -0600 Subject: build & link with luajit instead of lua5.1 --- libs/luajit-cmake/luajit/src/lj_gdbjit.c | 818 +++++++++++++++++++++++++++++++ 1 file changed, 818 insertions(+) create mode 100644 libs/luajit-cmake/luajit/src/lj_gdbjit.c (limited to 'libs/luajit-cmake/luajit/src/lj_gdbjit.c') diff --git a/libs/luajit-cmake/luajit/src/lj_gdbjit.c b/libs/luajit-cmake/luajit/src/lj_gdbjit.c new file mode 100644 index 0000000..c50d0d4 --- /dev/null +++ b/libs/luajit-cmake/luajit/src/lj_gdbjit.c @@ -0,0 +1,818 @@ +/* +** Client for the GDB JIT API. +** Copyright (C) 2005-2022 Mike Pall. See Copyright Notice in luajit.h +*/ + +#define lj_gdbjit_c +#define LUA_CORE + +#include "lj_obj.h" + +#if LJ_HASJIT + +#include "lj_gc.h" +#include "lj_err.h" +#include "lj_debug.h" +#include "lj_frame.h" +#include "lj_buf.h" +#include "lj_strfmt.h" +#include "lj_jit.h" +#include "lj_dispatch.h" + +/* This is not compiled in by default. +** Enable with -DLUAJIT_USE_GDBJIT in the Makefile and recompile everything. +*/ +#ifdef LUAJIT_USE_GDBJIT + +/* The GDB JIT API allows JIT compilers to pass debug information about +** JIT-compiled code back to GDB. You need at least GDB 7.0 or higher +** to see it in action. +** +** This is a passive API, so it works even when not running under GDB +** or when attaching to an already running process. Alas, this implies +** enabling it always has a non-negligible overhead -- do not use in +** release mode! +** +** The LuaJIT GDB JIT client is rather minimal at the moment. It gives +** each trace a symbol name and adds a source location and frame unwind +** information. Obviously LuaJIT itself and any embedding C application +** should be compiled with debug symbols, too (see the Makefile). +** +** Traces are named TRACE_1, TRACE_2, ... these correspond to the trace +** numbers from -jv or -jdump. Use "break TRACE_1" or "tbreak TRACE_1" etc. +** to set breakpoints on specific traces (even ahead of their creation). +** +** The source location for each trace allows listing the corresponding +** source lines with the GDB command "list" (but only if the Lua source +** has been loaded from a file). Currently this is always set to the +** location where the trace has been started. +** +** Frame unwind information can be inspected with the GDB command +** "info frame". This also allows proper backtraces across JIT-compiled +** code with the GDB command "bt". +** +** You probably want to add the following settings to a .gdbinit file +** (or add them to ~/.gdbinit): +** set disassembly-flavor intel +** set breakpoint pending on +** +** Here's a sample GDB session: +** ------------------------------------------------------------------------ + +$ cat >x.lua +for outer=1,100 do + for inner=1,100 do end +end +^D + +$ luajit -jv x.lua +[TRACE 1 x.lua:2] +[TRACE 2 (1/3) x.lua:1 -> 1] + +$ gdb --quiet --args luajit x.lua +(gdb) tbreak TRACE_1 +Function "TRACE_1" not defined. +Temporary breakpoint 1 (TRACE_1) pending. +(gdb) run +Starting program: luajit x.lua + +Temporary breakpoint 1, TRACE_1 () at x.lua:2 +2 for inner=1,100 do end +(gdb) list +1 for outer=1,100 do +2 for inner=1,100 do end +3 end +(gdb) bt +#0 TRACE_1 () at x.lua:2 +#1 0x08053690 in lua_pcall [...] +[...] +#7 0x0806ff90 in main [...] +(gdb) disass TRACE_1 +Dump of assembler code for function TRACE_1: +0xf7fd9fba : mov DWORD PTR ds:0xf7e0e2a0,0x1 +0xf7fd9fc4 : movsd xmm7,QWORD PTR [edx+0x20] +[...] +0xf7fd9ff8 : jmp 0xf7fd2014 +End of assembler dump. +(gdb) tbreak TRACE_2 +Function "TRACE_2" not defined. +Temporary breakpoint 2 (TRACE_2) pending. +(gdb) cont +Continuing. + +Temporary breakpoint 2, TRACE_2 () at x.lua:1 +1 for outer=1,100 do +(gdb) info frame +Stack level 0, frame at 0xffffd7c0: + eip = 0xf7fd9f60 in TRACE_2 (x.lua:1); saved eip 0x8053690 + called by frame at 0xffffd7e0 + source language unknown. + Arglist at 0xffffd78c, args: + Locals at 0xffffd78c, Previous frame's sp is 0xffffd7c0 + Saved registers: + ebx at 0xffffd7ac, ebp at 0xffffd7b8, esi at 0xffffd7b0, edi at 0xffffd7b4, + eip at 0xffffd7bc +(gdb) + +** ------------------------------------------------------------------------ +*/ + +/* -- GDB JIT API --------------------------------------------------------- */ + +/* GDB JIT actions. */ +enum { + GDBJIT_NOACTION = 0, + GDBJIT_REGISTER, + GDBJIT_UNREGISTER +}; + +/* GDB JIT entry. */ +typedef struct GDBJITentry { + struct GDBJITentry *next_entry; + struct GDBJITentry *prev_entry; + const char *symfile_addr; + uint64_t symfile_size; +} GDBJITentry; + +/* GDB JIT descriptor. */ +typedef struct GDBJITdesc { + uint32_t version; + uint32_t action_flag; + GDBJITentry *relevant_entry; + GDBJITentry *first_entry; +} GDBJITdesc; + +GDBJITdesc __jit_debug_descriptor = { + 1, GDBJIT_NOACTION, NULL, NULL +}; + +/* GDB sets a breakpoint at this function. */ +void LJ_NOINLINE __jit_debug_register_code() +{ + __asm__ __volatile__(""); +}; + +/* -- In-memory ELF object definitions ------------------------------------ */ + +/* ELF definitions. */ +typedef struct ELFheader { + uint8_t emagic[4]; + uint8_t eclass; + uint8_t eendian; + uint8_t eversion; + uint8_t eosabi; + uint8_t eabiversion; + uint8_t epad[7]; + uint16_t type; + uint16_t machine; + uint32_t version; + uintptr_t entry; + uintptr_t phofs; + uintptr_t shofs; + uint32_t flags; + uint16_t ehsize; + uint16_t phentsize; + uint16_t phnum; + uint16_t shentsize; + uint16_t shnum; + uint16_t shstridx; +} ELFheader; + +typedef struct ELFsectheader { + uint32_t name; + uint32_t type; + uintptr_t flags; + uintptr_t addr; + uintptr_t ofs; + uintptr_t size; + uint32_t link; + uint32_t info; + uintptr_t align; + uintptr_t entsize; +} ELFsectheader; + +#define ELFSECT_IDX_ABS 0xfff1 + +enum { + ELFSECT_TYPE_PROGBITS = 1, + ELFSECT_TYPE_SYMTAB = 2, + ELFSECT_TYPE_STRTAB = 3, + ELFSECT_TYPE_NOBITS = 8 +}; + +#define ELFSECT_FLAGS_WRITE 1 +#define ELFSECT_FLAGS_ALLOC 2 +#define ELFSECT_FLAGS_EXEC 4 + +typedef struct ELFsymbol { +#if LJ_64 + uint32_t name; + uint8_t info; + uint8_t other; + uint16_t sectidx; + uintptr_t value; + uint64_t size; +#else + uint32_t name; + uintptr_t value; + uint32_t size; + uint8_t info; + uint8_t other; + uint16_t sectidx; +#endif +} ELFsymbol; + +enum { + ELFSYM_TYPE_FUNC = 2, + ELFSYM_TYPE_FILE = 4, + ELFSYM_BIND_LOCAL = 0 << 4, + ELFSYM_BIND_GLOBAL = 1 << 4, +}; + +/* DWARF definitions. */ +#define DW_CIE_VERSION 1 + +enum { + DW_CFA_nop = 0x0, + DW_CFA_offset_extended = 0x5, + DW_CFA_def_cfa = 0xc, + DW_CFA_def_cfa_offset = 0xe, + DW_CFA_offset_extended_sf = 0x11, + DW_CFA_advance_loc = 0x40, + DW_CFA_offset = 0x80 +}; + +enum { + DW_EH_PE_udata4 = 3, + DW_EH_PE_textrel = 0x20 +}; + +enum { + DW_TAG_compile_unit = 0x11 +}; + +enum { + DW_children_no = 0, + DW_children_yes = 1 +}; + +enum { + DW_AT_name = 0x03, + DW_AT_stmt_list = 0x10, + DW_AT_low_pc = 0x11, + DW_AT_high_pc = 0x12 +}; + +enum { + DW_FORM_addr = 0x01, + DW_FORM_data4 = 0x06, + DW_FORM_string = 0x08 +}; + +enum { + DW_LNS_extended_op = 0, + DW_LNS_copy = 1, + DW_LNS_advance_pc = 2, + DW_LNS_advance_line = 3 +}; + +enum { + DW_LNE_end_sequence = 1, + DW_LNE_set_address = 2 +}; + +enum { +#if LJ_TARGET_X86 + DW_REG_AX, DW_REG_CX, DW_REG_DX, DW_REG_BX, + DW_REG_SP, DW_REG_BP, DW_REG_SI, DW_REG_DI, + DW_REG_RA, +#elif LJ_TARGET_X64 + /* Yes, the order is strange, but correct. */ + DW_REG_AX, DW_REG_DX, DW_REG_CX, DW_REG_BX, + DW_REG_SI, DW_REG_DI, DW_REG_BP, DW_REG_SP, + DW_REG_8, DW_REG_9, DW_REG_10, DW_REG_11, + DW_REG_12, DW_REG_13, DW_REG_14, DW_REG_15, + DW_REG_RA, +#elif LJ_TARGET_ARM + DW_REG_SP = 13, + DW_REG_RA = 14, +#elif LJ_TARGET_ARM64 + DW_REG_SP = 31, + DW_REG_RA = 30, +#elif LJ_TARGET_PPC + DW_REG_SP = 1, + DW_REG_RA = 65, + DW_REG_CR = 70, +#elif LJ_TARGET_MIPS + DW_REG_SP = 29, + DW_REG_RA = 31, +#else +#error "Unsupported target architecture" +#endif +}; + +/* Minimal list of sections for the in-memory ELF object. */ +enum { + GDBJIT_SECT_NULL, + GDBJIT_SECT_text, + GDBJIT_SECT_eh_frame, + GDBJIT_SECT_shstrtab, + GDBJIT_SECT_strtab, + GDBJIT_SECT_symtab, + GDBJIT_SECT_debug_info, + GDBJIT_SECT_debug_abbrev, + GDBJIT_SECT_debug_line, + GDBJIT_SECT__MAX +}; + +enum { + GDBJIT_SYM_UNDEF, + GDBJIT_SYM_FILE, + GDBJIT_SYM_FUNC, + GDBJIT_SYM__MAX +}; + +/* In-memory ELF object. */ +typedef struct GDBJITobj { + ELFheader hdr; /* ELF header. */ + ELFsectheader sect[GDBJIT_SECT__MAX]; /* ELF sections. */ + ELFsymbol sym[GDBJIT_SYM__MAX]; /* ELF symbol table. */ + uint8_t space[4096]; /* Space for various section data. */ +} GDBJITobj; + +/* Combined structure for GDB JIT entry and ELF object. */ +typedef struct GDBJITentryobj { + GDBJITentry entry; + size_t sz; + GDBJITobj obj; +} GDBJITentryobj; + +/* Template for in-memory ELF header. */ +static const ELFheader elfhdr_template = { + .emagic = { 0x7f, 'E', 'L', 'F' }, + .eclass = LJ_64 ? 2 : 1, + .eendian = LJ_ENDIAN_SELECT(1, 2), + .eversion = 1, +#if LJ_TARGET_LINUX + .eosabi = 0, /* Nope, it's not 3. */ +#elif defined(__FreeBSD__) + .eosabi = 9, +#elif defined(__NetBSD__) + .eosabi = 2, +#elif defined(__OpenBSD__) + .eosabi = 12, +#elif defined(__DragonFly__) + .eosabi = 0, +#elif LJ_TARGET_SOLARIS + .eosabi = 6, +#else + .eosabi = 0, +#endif + .eabiversion = 0, + .epad = { 0, 0, 0, 0, 0, 0, 0 }, + .type = 1, +#if LJ_TARGET_X86 + .machine = 3, +#elif LJ_TARGET_X64 + .machine = 62, +#elif LJ_TARGET_ARM + .machine = 40, +#elif LJ_TARGET_ARM64 + .machine = 183, +#elif LJ_TARGET_PPC + .machine = 20, +#elif LJ_TARGET_MIPS + .machine = 8, +#else +#error "Unsupported target architecture" +#endif + .version = 1, + .entry = 0, + .phofs = 0, + .shofs = offsetof(GDBJITobj, sect), + .flags = 0, + .ehsize = sizeof(ELFheader), + .phentsize = 0, + .phnum = 0, + .shentsize = sizeof(ELFsectheader), + .shnum = GDBJIT_SECT__MAX, + .shstridx = GDBJIT_SECT_shstrtab +}; + +/* -- In-memory ELF object generation ------------------------------------- */ + +/* Context for generating the ELF object for the GDB JIT API. */ +typedef struct GDBJITctx { + uint8_t *p; /* Pointer to next address in obj.space. */ + uint8_t *startp; /* Pointer to start address in obj.space. */ + GCtrace *T; /* Generate symbols for this trace. */ + uintptr_t mcaddr; /* Machine code address. */ + MSize szmcode; /* Size of machine code. */ + MSize spadjp; /* Stack adjustment for parent trace or interpreter. */ + MSize spadj; /* Stack adjustment for trace itself. */ + BCLine lineno; /* Starting line number. */ + const char *filename; /* Starting file name. */ + size_t objsize; /* Final size of ELF object. */ + GDBJITobj obj; /* In-memory ELF object. */ +} GDBJITctx; + +/* Add a zero-terminated string. */ +static uint32_t gdbjit_strz(GDBJITctx *ctx, const char *str) +{ + uint8_t *p = ctx->p; + uint32_t ofs = (uint32_t)(p - ctx->startp); + do { + *p++ = (uint8_t)*str; + } while (*str++); + ctx->p = p; + return ofs; +} + +/* Append a decimal number. */ +static void gdbjit_catnum(GDBJITctx *ctx, uint32_t n) +{ + if (n >= 10) { uint32_t m = n / 10; n = n % 10; gdbjit_catnum(ctx, m); } + *ctx->p++ = '0' + n; +} + +/* Add a SLEB128 value. */ +static void gdbjit_sleb128(GDBJITctx *ctx, int32_t v) +{ + uint8_t *p = ctx->p; + for (; (uint32_t)(v+0x40) >= 0x80; v >>= 7) + *p++ = (uint8_t)((v & 0x7f) | 0x80); + *p++ = (uint8_t)(v & 0x7f); + ctx->p = p; +} + +/* Shortcuts to generate DWARF structures. */ +#define DB(x) (*p++ = (x)) +#define DI8(x) (*(int8_t *)p = (x), p++) +#define DU16(x) (*(uint16_t *)p = (x), p += 2) +#define DU32(x) (*(uint32_t *)p = (x), p += 4) +#define DADDR(x) (*(uintptr_t *)p = (x), p += sizeof(uintptr_t)) +#define DUV(x) (p = (uint8_t *)lj_strfmt_wuleb128((char *)p, (x))) +#define DSV(x) (ctx->p = p, gdbjit_sleb128(ctx, (x)), p = ctx->p) +#define DSTR(str) (ctx->p = p, gdbjit_strz(ctx, (str)), p = ctx->p) +#define DALIGNNOP(s) while ((uintptr_t)p & ((s)-1)) *p++ = DW_CFA_nop +#define DSECT(name, stmt) \ + { uint32_t *szp_##name = (uint32_t *)p; p += 4; stmt \ + *szp_##name = (uint32_t)((p-(uint8_t *)szp_##name)-4); } \ + +/* Initialize ELF section headers. */ +static void LJ_FASTCALL gdbjit_secthdr(GDBJITctx *ctx) +{ + ELFsectheader *sect; + + *ctx->p++ = '\0'; /* Empty string at start of string table. */ + +#define SECTDEF(id, tp, al) \ + sect = &ctx->obj.sect[GDBJIT_SECT_##id]; \ + sect->name = gdbjit_strz(ctx, "." #id); \ + sect->type = ELFSECT_TYPE_##tp; \ + sect->align = (al) + + SECTDEF(text, NOBITS, 16); + sect->flags = ELFSECT_FLAGS_ALLOC|ELFSECT_FLAGS_EXEC; + sect->addr = ctx->mcaddr; + sect->ofs = 0; + sect->size = ctx->szmcode; + + SECTDEF(eh_frame, PROGBITS, sizeof(uintptr_t)); + sect->flags = ELFSECT_FLAGS_ALLOC; + + SECTDEF(shstrtab, STRTAB, 1); + SECTDEF(strtab, STRTAB, 1); + + SECTDEF(symtab, SYMTAB, sizeof(uintptr_t)); + sect->ofs = offsetof(GDBJITobj, sym); + sect->size = sizeof(ctx->obj.sym); + sect->link = GDBJIT_SECT_strtab; + sect->entsize = sizeof(ELFsymbol); + sect->info = GDBJIT_SYM_FUNC; + + SECTDEF(debug_info, PROGBITS, 1); + SECTDEF(debug_abbrev, PROGBITS, 1); + SECTDEF(debug_line, PROGBITS, 1); + +#undef SECTDEF +} + +/* Initialize symbol table. */ +static void LJ_FASTCALL gdbjit_symtab(GDBJITctx *ctx) +{ + ELFsymbol *sym; + + *ctx->p++ = '\0'; /* Empty string at start of string table. */ + + sym = &ctx->obj.sym[GDBJIT_SYM_FILE]; + sym->name = gdbjit_strz(ctx, "JIT mcode"); + sym->sectidx = ELFSECT_IDX_ABS; + sym->info = ELFSYM_TYPE_FILE|ELFSYM_BIND_LOCAL; + + sym = &ctx->obj.sym[GDBJIT_SYM_FUNC]; + sym->name = gdbjit_strz(ctx, "TRACE_"); ctx->p--; + gdbjit_catnum(ctx, ctx->T->traceno); *ctx->p++ = '\0'; + sym->sectidx = GDBJIT_SECT_text; + sym->value = 0; + sym->size = ctx->szmcode; + sym->info = ELFSYM_TYPE_FUNC|ELFSYM_BIND_GLOBAL; +} + +/* Initialize .eh_frame section. */ +static void LJ_FASTCALL gdbjit_ehframe(GDBJITctx *ctx) +{ + uint8_t *p = ctx->p; + uint8_t *framep = p; + + /* Emit DWARF EH CIE. */ + DSECT(CIE, + DU32(0); /* Offset to CIE itself. */ + DB(DW_CIE_VERSION); + DSTR("zR"); /* Augmentation. */ + DUV(1); /* Code alignment factor. */ + DSV(-(int32_t)sizeof(uintptr_t)); /* Data alignment factor. */ + DB(DW_REG_RA); /* Return address register. */ + DB(1); DB(DW_EH_PE_textrel|DW_EH_PE_udata4); /* Augmentation data. */ + DB(DW_CFA_def_cfa); DUV(DW_REG_SP); DUV(sizeof(uintptr_t)); +#if LJ_TARGET_PPC + DB(DW_CFA_offset_extended_sf); DB(DW_REG_RA); DSV(-1); +#else + DB(DW_CFA_offset|DW_REG_RA); DUV(1); +#endif + DALIGNNOP(sizeof(uintptr_t)); + ) + + /* Emit DWARF EH FDE. */ + DSECT(FDE, + DU32((uint32_t)(p-framep)); /* Offset to CIE. */ + DU32(0); /* Machine code offset relative to .text. */ + DU32(ctx->szmcode); /* Machine code length. */ + DB(0); /* Augmentation data. */ + /* Registers saved in CFRAME. */ +#if LJ_TARGET_X86 + DB(DW_CFA_offset|DW_REG_BP); DUV(2); + DB(DW_CFA_offset|DW_REG_DI); DUV(3); + DB(DW_CFA_offset|DW_REG_SI); DUV(4); + DB(DW_CFA_offset|DW_REG_BX); DUV(5); +#elif LJ_TARGET_X64 + DB(DW_CFA_offset|DW_REG_BP); DUV(2); + DB(DW_CFA_offset|DW_REG_BX); DUV(3); + DB(DW_CFA_offset|DW_REG_15); DUV(4); + DB(DW_CFA_offset|DW_REG_14); DUV(5); + /* Extra registers saved for JIT-compiled code. */ + DB(DW_CFA_offset|DW_REG_13); DUV(LJ_GC64 ? 10 : 9); + DB(DW_CFA_offset|DW_REG_12); DUV(LJ_GC64 ? 11 : 10); +#elif LJ_TARGET_ARM + { + int i; + for (i = 11; i >= 4; i--) { DB(DW_CFA_offset|i); DUV(2+(11-i)); } + } +#elif LJ_TARGET_ARM64 + { + int i; + DB(DW_CFA_offset|31); DUV(2); + for (i = 28; i >= 19; i--) { DB(DW_CFA_offset|i); DUV(3+(28-i)); } + for (i = 15; i >= 8; i--) { DB(DW_CFA_offset|32|i); DUV(28-i); } + } +#elif LJ_TARGET_PPC + { + int i; + DB(DW_CFA_offset_extended); DB(DW_REG_CR); DUV(55); + for (i = 14; i <= 31; i++) { + DB(DW_CFA_offset|i); DUV(37+(31-i)); + DB(DW_CFA_offset|32|i); DUV(2+2*(31-i)); + } + } +#elif LJ_TARGET_MIPS + { + int i; + DB(DW_CFA_offset|30); DUV(2); + for (i = 23; i >= 16; i--) { DB(DW_CFA_offset|i); DUV(26-i); } + for (i = 30; i >= 20; i -= 2) { DB(DW_CFA_offset|32|i); DUV(42-i); } + } +#else +#error "Unsupported target architecture" +#endif + if (ctx->spadjp != ctx->spadj) { /* Parent/interpreter stack frame size. */ + DB(DW_CFA_def_cfa_offset); DUV(ctx->spadjp); + DB(DW_CFA_advance_loc|1); /* Only an approximation. */ + } + DB(DW_CFA_def_cfa_offset); DUV(ctx->spadj); /* Trace stack frame size. */ + DALIGNNOP(sizeof(uintptr_t)); + ) + + ctx->p = p; +} + +/* Initialize .debug_info section. */ +static void LJ_FASTCALL gdbjit_debuginfo(GDBJITctx *ctx) +{ + uint8_t *p = ctx->p; + + DSECT(info, + DU16(2); /* DWARF version. */ + DU32(0); /* Abbrev offset. */ + DB(sizeof(uintptr_t)); /* Pointer size. */ + + DUV(1); /* Abbrev #1: DW_TAG_compile_unit. */ + DSTR(ctx->filename); /* DW_AT_name. */ + DADDR(ctx->mcaddr); /* DW_AT_low_pc. */ + DADDR(ctx->mcaddr + ctx->szmcode); /* DW_AT_high_pc. */ + DU32(0); /* DW_AT_stmt_list. */ + ) + + ctx->p = p; +} + +/* Initialize .debug_abbrev section. */ +static void LJ_FASTCALL gdbjit_debugabbrev(GDBJITctx *ctx) +{ + uint8_t *p = ctx->p; + + /* Abbrev #1: DW_TAG_compile_unit. */ + DUV(1); DUV(DW_TAG_compile_unit); + DB(DW_children_no); + DUV(DW_AT_name); DUV(DW_FORM_string); + DUV(DW_AT_low_pc); DUV(DW_FORM_addr); + DUV(DW_AT_high_pc); DUV(DW_FORM_addr); + DUV(DW_AT_stmt_list); DUV(DW_FORM_data4); + DB(0); DB(0); + + ctx->p = p; +} + +#define DLNE(op, s) (DB(DW_LNS_extended_op), DUV(1+(s)), DB((op))) + +/* Initialize .debug_line section. */ +static void LJ_FASTCALL gdbjit_debugline(GDBJITctx *ctx) +{ + uint8_t *p = ctx->p; + + DSECT(line, + DU16(2); /* DWARF version. */ + DSECT(header, + DB(1); /* Minimum instruction length. */ + DB(1); /* is_stmt. */ + DI8(0); /* Line base for special opcodes. */ + DB(2); /* Line range for special opcodes. */ + DB(3+1); /* Opcode base at DW_LNS_advance_line+1. */ + DB(0); DB(1); DB(1); /* Standard opcode lengths. */ + /* Directory table. */ + DB(0); + /* File name table. */ + DSTR(ctx->filename); DUV(0); DUV(0); DUV(0); + DB(0); + ) + + DLNE(DW_LNE_set_address, sizeof(uintptr_t)); DADDR(ctx->mcaddr); + if (ctx->lineno) { + DB(DW_LNS_advance_line); DSV(ctx->lineno-1); + } + DB(DW_LNS_copy); + DB(DW_LNS_advance_pc); DUV(ctx->szmcode); + DLNE(DW_LNE_end_sequence, 0); + ) + + ctx->p = p; +} + +#undef DLNE + +/* Undef shortcuts. */ +#undef DB +#undef DI8 +#undef DU16 +#undef DU32 +#undef DADDR +#undef DUV +#undef DSV +#undef DSTR +#undef DALIGNNOP +#undef DSECT + +/* Type of a section initializer callback. */ +typedef void (LJ_FASTCALL *GDBJITinitf)(GDBJITctx *ctx); + +/* Call section initializer and set the section offset and size. */ +static void gdbjit_initsect(GDBJITctx *ctx, int sect, GDBJITinitf initf) +{ + ctx->startp = ctx->p; + ctx->obj.sect[sect].ofs = (uintptr_t)((char *)ctx->p - (char *)&ctx->obj); + initf(ctx); + ctx->obj.sect[sect].size = (uintptr_t)(ctx->p - ctx->startp); +} + +#define SECTALIGN(p, a) \ + ((p) = (uint8_t *)(((uintptr_t)(p) + ((a)-1)) & ~(uintptr_t)((a)-1))) + +/* Build in-memory ELF object. */ +static void gdbjit_buildobj(GDBJITctx *ctx) +{ + GDBJITobj *obj = &ctx->obj; + /* Fill in ELF header and clear structures. */ + memcpy(&obj->hdr, &elfhdr_template, sizeof(ELFheader)); + memset(&obj->sect, 0, sizeof(ELFsectheader)*GDBJIT_SECT__MAX); + memset(&obj->sym, 0, sizeof(ELFsymbol)*GDBJIT_SYM__MAX); + /* Initialize sections. */ + ctx->p = obj->space; + gdbjit_initsect(ctx, GDBJIT_SECT_shstrtab, gdbjit_secthdr); + gdbjit_initsect(ctx, GDBJIT_SECT_strtab, gdbjit_symtab); + gdbjit_initsect(ctx, GDBJIT_SECT_debug_info, gdbjit_debuginfo); + gdbjit_initsect(ctx, GDBJIT_SECT_debug_abbrev, gdbjit_debugabbrev); + gdbjit_initsect(ctx, GDBJIT_SECT_debug_line, gdbjit_debugline); + SECTALIGN(ctx->p, sizeof(uintptr_t)); + gdbjit_initsect(ctx, GDBJIT_SECT_eh_frame, gdbjit_ehframe); + ctx->objsize = (size_t)((char *)ctx->p - (char *)obj); + lj_assertX(ctx->objsize < sizeof(GDBJITobj), "GDBJITobj overflow"); +} + +#undef SECTALIGN + +/* -- Interface to GDB JIT API -------------------------------------------- */ + +static int gdbjit_lock; + +static void gdbjit_lock_acquire() +{ + while (__sync_lock_test_and_set(&gdbjit_lock, 1)) { + /* Just spin; futexes or pthreads aren't worth the portability cost. */ + } +} + +static void gdbjit_lock_release() +{ + __sync_lock_release(&gdbjit_lock); +} + +/* Add new entry to GDB JIT symbol chain. */ +static void gdbjit_newentry(lua_State *L, GDBJITctx *ctx) +{ + /* Allocate memory for GDB JIT entry and ELF object. */ + MSize sz = (MSize)(sizeof(GDBJITentryobj) - sizeof(GDBJITobj) + ctx->objsize); + GDBJITentryobj *eo = lj_mem_newt(L, sz, GDBJITentryobj); + memcpy(&eo->obj, &ctx->obj, ctx->objsize); /* Copy ELF object. */ + eo->sz = sz; + ctx->T->gdbjit_entry = (void *)eo; + /* Link new entry to chain and register it. */ + eo->entry.prev_entry = NULL; + gdbjit_lock_acquire(); + eo->entry.next_entry = __jit_debug_descriptor.first_entry; + if (eo->entry.next_entry) + eo->entry.next_entry->prev_entry = &eo->entry; + eo->entry.symfile_addr = (const char *)&eo->obj; + eo->entry.symfile_size = ctx->objsize; + __jit_debug_descriptor.first_entry = &eo->entry; + __jit_debug_descriptor.relevant_entry = &eo->entry; + __jit_debug_descriptor.action_flag = GDBJIT_REGISTER; + __jit_debug_register_code(); + gdbjit_lock_release(); +} + +/* Add debug info for newly compiled trace and notify GDB. */ +void lj_gdbjit_addtrace(jit_State *J, GCtrace *T) +{ + GDBJITctx ctx; + GCproto *pt = &gcref(T->startpt)->pt; + TraceNo parent = T->ir[REF_BASE].op1; + const BCIns *startpc = mref(T->startpc, const BCIns); + ctx.T = T; + ctx.mcaddr = (uintptr_t)T->mcode; + ctx.szmcode = T->szmcode; + ctx.spadjp = CFRAME_SIZE_JIT + + (MSize)(parent ? traceref(J, parent)->spadjust : 0); + ctx.spadj = CFRAME_SIZE_JIT + T->spadjust; + lj_assertJ(startpc >= proto_bc(pt) && startpc < proto_bc(pt) + pt->sizebc, + "start PC out of range"); + ctx.lineno = lj_debug_line(pt, proto_bcpos(pt, startpc)); + ctx.filename = proto_chunknamestr(pt); + if (*ctx.filename == '@' || *ctx.filename == '=') + ctx.filename++; + else + ctx.filename = "(string)"; + gdbjit_buildobj(&ctx); + gdbjit_newentry(J->L, &ctx); +} + +/* Delete debug info for trace and notify GDB. */ +void lj_gdbjit_deltrace(jit_State *J, GCtrace *T) +{ + GDBJITentryobj *eo = (GDBJITentryobj *)T->gdbjit_entry; + if (eo) { + gdbjit_lock_acquire(); + if (eo->entry.prev_entry) + eo->entry.prev_entry->next_entry = eo->entry.next_entry; + else + __jit_debug_descriptor.first_entry = eo->entry.next_entry; + if (eo->entry.next_entry) + eo->entry.next_entry->prev_entry = eo->entry.prev_entry; + __jit_debug_descriptor.relevant_entry = &eo->entry; + __jit_debug_descriptor.action_flag = GDBJIT_UNREGISTER; + __jit_debug_register_code(); + gdbjit_lock_release(); + lj_mem_free(J2G(J), eo, eo->sz); + } +} + +#endif +#endif -- cgit v1.2.1