------------------------------------------------------------------------------ -- DynASM PPC module. -- -- Copyright (C) 2005-2011 Mike Pall. All rights reserved. -- See dynasm.lua for full copyright notice. ------------------------------------------------------------------------------ -- Module information: local _info = { arch = "ppc", description = "DynASM PPC module", version = "1.3.0", vernum = 10300, release = "2011-05-05", author = "Mike Pall", license = "MIT", } -- Exported glue functions for the arch-specific module. local _M = { _info = _info } -- Cache library functions. local type, tonumber, pairs, ipairs = type, tonumber, pairs, ipairs local assert, setmetatable = assert, setmetatable local _s = string local sub, format, byte, char = _s.sub, _s.format, _s.byte, _s.char local match, gmatch = _s.match, _s.gmatch local concat, sort = table.concat, table.sort -- Inherited tables and callbacks. local g_opt, g_arch local wline, werror, wfatal, wwarn -- Action name list. -- CHECK: Keep this in sync with the C code! local action_names = { "STOP", "SECTION", "ESC", "REL_EXT", "ALIGN", "REL_LG", "LABEL_LG", "REL_PC", "LABEL_PC", "IMM", } -- Maximum number of section buffer positions for dasm_put(). -- CHECK: Keep this in sync with the C code! local maxsecpos = 25 -- Keep this low, to avoid excessively long C lines. -- Action name -> action number. local map_action = {} for n,name in ipairs(action_names) do map_action[name] = n-1 end -- Action list buffer. local actlist = {} -- Argument list for next dasm_put(). Start with offset 0 into action list. local actargs = { 0 } -- Current number of section buffer positions for dasm_put(). local secpos = 1 ------------------------------------------------------------------------------ -- Return 8 digit hex number. local function tohex(x) return sub(format("%08x", x), -8) -- Avoid 64 bit portability problem in Lua. end -- Dump action names and numbers. local function dumpactions(out) out:write("DynASM encoding engine action codes:\n") for n,name in ipairs(action_names) do local num = map_action[name] out:write(format(" %-10s %02X %d\n", name, num, num)) end out:write("\n") end -- Write action list buffer as a huge static C array. local function writeactions(out, name) local nn = #actlist if nn == 0 then nn = 1; actlist[0] = map_action.STOP end out:write("static const unsigned int ", name, "[", nn, "] = {\n") for i = 1,nn-1 do assert(out:write("0x", tohex(actlist[i]), ",\n")) end assert(out:write("0x", tohex(actlist[nn]), "\n};\n\n")) end ------------------------------------------------------------------------------ -- Add word to action list. local function wputxw(n) assert(n >= 0 and n <= 0xffffffff and n % 1 == 0, "word out of range") actlist[#actlist+1] = n end -- Add action to list with optional arg. Advance buffer pos, too. local function waction(action, val, a, num) local w = assert(map_action[action], "bad action name `"..action.."'") wputxw(w * 0x10000 + (val or 0)) if a then actargs[#actargs+1] = a end if a or num then secpos = secpos + (num or 1) end end -- Flush action list (intervening C code or buffer pos overflow). local function wflush(term) if #actlist == actargs[1] then return end -- Nothing to flush. if not term then waction("STOP") end -- Terminate action list. wline(format("dasm_put(Dst, %s);", concat(actargs, ", ")), true) actargs = { #actlist } -- Actionlist offset is 1st arg to next dasm_put(). secpos = 1 -- The actionlist offset occupies a buffer position, too. end -- Put escaped word. local function wputw(n) if n <= 0xffffff then waction("ESC") end wputxw(n) end -- Reserve position for word. local function wpos() local pos = #actlist+1 actlist[pos] = "" return pos end -- Store word to reserved position. local function wputpos(pos, n) assert(n >= 0 and n <= 0xffffffff and n % 1 == 0, "word out of range") actlist[pos] = n end ------------------------------------------------------------------------------ -- Global label name -> global label number. With auto assignment on 1st use. local next_global = 20 local map_global = setmetatable({}, { __index = function(t, name) if not match(name, "^[%a_][%w_]*$") then werror("bad global label") end local n = next_global if n > 2047 then werror("too many global labels") end next_global = n + 1 t[name] = n return n end}) -- Dump global labels. local function dumpglobals(out, lvl) local t = {} for name, n in pairs(map_global) do t[n] = name end out:write("Global labels:\n") for i=20,next_global-1 do out:write(format(" %s\n", t[i])) end out:write("\n") end -- Write global label enum. local function writeglobals(out, prefix) local t = {} for name, n in pairs(map_global) do t[n] = name end out:write("enum {\n") for i=20,next_global-1 do out:write(" ", prefix, t[i], ",\n") end out:write(" ", prefix, "_MAX\n};\n") end -- Write global label names. local function writeglobalnames(out, name) local t = {} for name, n in pairs(map_global) do t[n] = name end out:write("static const char *const ", name, "[] = {\n") for i=20,next_global-1 do out:write(" \"", t[i], "\",\n") end out:write(" (const char *)0\n};\n") end ------------------------------------------------------------------------------ -- Extern label name -> extern label number. With auto assignment on 1st use. local next_extern = 0 local map_extern_ = {} local map_extern = setmetatable({}, { __index = function(t, name) -- No restrictions on the name for now. local n = next_extern if n > 2047 then werror("too many extern labels") end next_extern = n + 1 t[name] = n map_extern_[n] = name return n end}) -- Dump extern labels. local function dumpexterns(out, lvl) out:write("Extern labels:\n") for i=0,next_extern-1 do out:write(format(" %s\n", map_extern_[i])) end out:write("\n") end -- Write extern label names. local function writeexternnames(out, name) out:write("static const char *const ", name, "[] = {\n") for i=0,next_extern-1 do out:write(" \"", map_extern_[i], "\",\n") end out:write(" (const char *)0\n};\n") end ------------------------------------------------------------------------------ -- Arch-specific maps. local map_archdef = { sp = "r1" } -- Ext. register name -> int. name. local map_type = {} -- Type name -> { ctype, reg } local ctypenum = 0 -- Type number (for Dt... macros). -- Reverse defines for registers. function _M.revdef(s) if s == "r1" then return "sp" end return s end local map_cond = { lt = 0, gt = 1, eq = 2, so = 3, ge = 4, le = 5, ne = 6, ns = 7, } ------------------------------------------------------------------------------ -- Template strings for PPC instructions. local map_op = { tdi_3 = "08000000ARI", twi_3 = "0c000000ARI", mulli_3 = "1c000000RRI", subfic_3 = "20000000RRI", cmplwi_3 = "28000000XRU", cmplwi_2 = "28000000-RU", cmpldi_3 = "28200000XRU", cmpldi_2 = "28200000-RU", cmpwi_3 = "2c000000XRI", cmpwi_2 = "2c000000-RI", cmpdi_3 = "2c200000XRI", cmpdi_2 = "2c200000-RI", addic_3 = "30000000RRI", ["addic._3"] = "34000000RRI", addi_3 = "38000000RR0I", li_2 = "38000000RI", la_2 = "38000000RD", addis_3 = "3c000000RR0I", lis_2 = "3c000000RI", lus_2 = "3c000000RU", bc_3 = "40000000AAK", bcl_3 = "40000001AAK", bdnz_1 = "42000000K", bdz_1 = "42400000K", sc_0 = "44000000", b_1 = "48000000J", bl_1 = "48000001J", rlwimi_5 = "50000000RR~AAA.", rlwinm_5 = "54000000RR~AAA.", rlwnm_5 = "5c000000RR~RAA.", ori_3 = "60000000RR~U", nop_0 = "60000000", oris_3 = "64000000RR~U", xori_3 = "68000000RR~U", xoris_3 = "6c000000RR~U", ["andi._3"] = "70000000RR~U", ["andis._3"] = "74000000RR~U", lwz_2 = "80000000RD", lwzu_2 = "84000000RD", lbz_2 = "88000000RD", lbzu_2 = "8c000000RD", stw_2 = "90000000RD", stwu_2 = "94000000RD", stb_2 = "98000000RD", stbu_2 = "9c000000RD", lhz_2 = "a0000000RD", lhzu_2 = "a4000000RD", lha_2 = "a8000000RD", lhau_2 = "ac000000RD", sth_2 = "b0000000RD", sthu_2 = "b4000000RD", lmw_2 = "b8000000RD", stmw_2 = "bc000000RD", lfs_2 = "c0000000FD", lfsu_2 = "c4000000FD", lfd_2 = "c8000000FD", lfdu_2 = "cc000000FD", stfs_2 = "d0000000FD", stfsu_2 = "d4000000FD", stfd_2 = "d8000000FD", stfdu_2 = "dc000000FD", ld_2 = "e8000000RD", -- NYI: displacement must be divisible by 4. ldu_2 = "e8000001RD", lwa_2 = "e8000002RD", std_2 = "f8000000RD", stdu_2 = "f8000001RD", -- Primary opcode 19: mcrf_2 = "4c000000XX", isync_0 = "4c00012c", crnor_3 = "4c000042CCC", crnot_2 = "4c000042CC=", crandc_3 = "4c000102CCC", crxor_3 = "4c000182CCC", crclr_1 = "4c000182C==", crnand_3 = "4c0001c2CCC", crand_3 = "4c000202CCC", creqv_3 = "4c000242CCC", crset_1 = "4c000242C==", crorc_3 = "4c000342CCC", cror_3 = "4c000382CCC", crmove_2 = "4c000382CC=", bclr_2 = "4c000020AA", bclrl_2 = "4c000021AA", bcctr_2 = "4c000420AA", bcctrl_2 = "4c000421AA", blr_0 = "4e800020", blrl_0 = "4e800021", bctr_0 = "4e800420", bctrl_0 = "4e800421", -- Primary opcode 31: cmpw_3 = "7c000000XRR", cmpw_2 = "7c000000-RR", cmpd_3 = "7c200000XRR", cmpd_2 = "7c200000-RR", tw_3 = "7c000008ARR", subfc_3 = "7c000010RRR.", subc_3 = "7c000010RRR~.", mulhdu_3 = "7c000012RRR.", addc_3 = "7c000014RRR.", mulhwu_3 = "7c000016RRR.", isel_4 = "7c00001eRRRC", isellt_3 = "7c00001eRRR", iselgt_3 = "7c00005eRRR", iseleq_3 = "7c00009eRRR", mfcr_1 = "7c000026R", -- NYI: mtcrf, mtocrf, mfocrf lwarx_3 = "7c000028RR0R", ldx_3 = "7c00002aRR0R", lwzx_3 = "7c00002eRR0R", slw_3 = "7c000030RR~R.", cntlzw_2 = "7c000034RR~", sld_3 = "7c000036RR~R.", and_3 = "7c000038RR~R.", cmplw_3 = "7c000040XRR", cmplw_2 = "7c000040-RR", cmpld_3 = "7c200040XRR", cmpld_2 = "7c200040-RR", subf_3 = "7c000050RRR.", sub_3 = "7c000050RRR~.", ldux_3 = "7c00006aRR0R", dcbst_2 = "7c00006c-RR", lwzux_3 = "7c00006eRR0R", cntlzd_2 = "7c000074RR~", andc_3 = "7c000078RR~R.", td_3 = "7c000088ARR", mulhd_3 = "7c000092RRR.", mulhw_3 = "7c000096RRR.", ldarx_3 = "7c0000a8RR0R", dcbf_2 = "7c0000ac-RR", lbzx_3 = "7c0000aeRR0R", neg_2 = "7c0000d0RR.", lbzux_3 = "7c0000eeRR0R", popcntb_2 = "7c0000f4RR~", not_2 = "7c0000f8RR~%.", nor_3 = "7c0000f8RR~R.", subfe_3 = "7c000110RRR.", sube_3 = "7c000110RRR~.", adde_3 = "7c000114RRR.", stdx_3 = "7c00012aRR0R", stwcx_3 = "7c00012cRR0R.", stwx_3 = "7c00012eRR0R", prtyw_2 = "7c000134RR~", stdux_3 = "7c00016aRR0R", stwux_3 = "7c00016eRR0R", prtyd_2 = "7c000174RR~", subfze_2 = "7c000190RR.", addze_2 = "7c000194RR.", stdcx_3 = "7c0001acRR0R.", stbx_3 = "7c0001aeRR0R", subfme_2 = "7c0001d0RR.", mulld_3 = "7c0001d2RRR.", addme_2 = "7c0001d4RR.", mullw_3 = "7c0001d6RRR.", dcbtst_2 = "7c0001ec-RR", stbux_3 = "7c0001eeRR0R", add_3 = "7c000214RRR.", dcbt_2 = "7c00022c-RR", lhzx_3 = "7c00022eRR0R", eqv_3 = "7c000238RR~R.", eciwx_3 = "7c00026cRR0R", lhzux_3 = "7c00026eRR0R", xor_3 = "7c000278RR~R.", mfspefscr_1 = "7c0082a6R", mfxer_1 = "7c0102a6R", mflr_1 = "7c0802a6R", mfctr_1 = "7c0902a6R", lwax_3 = "7c0002aaRR0R", lhax_3 = "7c0002aeRR0R", mftb_1 = "7c0c42e6R", mftbu_1 = "7c0d42e6R", lwaux_3 = "7c0002eaRR0R", lhaux_3 = "7c0002eeRR0R", sthx_3 = "7c00032eRR0R", orc_3 = "7c000338RR~R.", ecowx_3 = "7c00036cRR0R", sthux_3 = "7c00036eRR0R", or_3 = "7c000378RR~R.", mr_2 = "7c000378RR~%.", divdu_3 = "7c000392RRR.", divwu_3 = "7c000396RRR.", mtspefscr_1 = "7c0083a6R", mtxer_1 = "7c0103a6R", mtlr_1 = "7c0803a6R", mtctr_1 = "7c0903a6R", dcbi_2 = "7c0003ac-RR", nand_3 = "7c0003b8RR~R.", divd_3 = "7c0003d2RRR.", divw_3 = "7c0003d6RRR.", cmpb_3 = "7c0003f8RR~R.", mcrxr_1 = "7c000400X", subfco_3 = "7c000410RRR.", subco_3 = "7c000410RRR~.", addco_3 = "7c000414RRR.", ldbrx_3 = "7c000428RR0R", lswx_3 = "7c00042aRR0R", lwbrx_3 = "7c00042cRR0R", lfsx_3 = "7c00042eFR0R", srw_3 = "7c000430RR~R.", srd_3 = "7c000436RR~R.", subfo_3 = "7c000450RRR.", subo_3 = "7c000450RRR~.", lfsux_3 = "7c00046eFR0R", lswi_3 = "7c0004aaRR0A", sync_0 = "7c0004ac", lwsync_0 = "7c2004ac", ptesync_0 = "7c4004ac", lfdx_3 = "7c0004aeFR0R", nego_2 = "7c0004d0RR.", lfdux_3 = "7c0004eeFR0R", subfeo_3 = "7c000510RRR.", subeo_3 = "7c000510RRR~.", addeo_3 = "7c000514RRR.", stdbrx_3 = "7c000528RR0R", stswx_3 = "7c00052aRR0R", stwbrx_3 = "7c00052cRR0R", stfsx_3 = "7c00052eFR0R", stfsux_3 = "7c00056eFR0R", subfzeo_2 = "7c000590RR.", addzeo_2 = "7c000594RR.", stswi_3 = "7c0005aaRR0A", stfdx_3 = "7c0005aeFR0R", subfmeo_2 = "7c0005d0RR.", mulldo_3 = "7c0005d2RRR.", addmeo_2 = "7c0005d4RR.", mullwo_3 = "7c0005d6RRR.", dcba_2 = "7c0005ec-RR", stfdux_3 = "7c0005eeFR0R", addo_3 = "7c000614RRR.", lhbrx_3 = "7c00062cRR0R", sraw_3 = "7c000630RR~R.", srad_3 = "7c000634RR~R.", srawi_3 = "7c000670RR~A.", eieio_0 = "7c0006ac", lfiwax_3 = "7c0006aeFR0R", sthbrx_3 = "7c00072cRR0R", extsh_2 = "7c000734RR~.", extsb_2 = "7c000774RR~.", divduo_3 = "7c000792RRR.", divwou_3 = "7c000796RRR.", icbi_2 = "7c0007ac-RR", stfiwx_3 = "7c0007aeFR0R", extsw_2 = "7c0007b4RR~.", divdo_3 = "7c0007d2RRR.", divwo_3 = "7c0007d6RRR.", dcbz_2 = "7c0007ec-RR", -- Primary opcode 59: fdivs_3 = "ec000024FFF.", fsubs_3 = "ec000028FFF.", fadds_3 = "ec00002aFFF.", fsqrts_2 = "ec00002cF-F.", fres_2 = "ec000030F-F.", fmuls_3 = "ec000032FF-F.", frsqrtes_2 = "ec000034F-F.", fmsubs_4 = "ec000038FFFF~.", fmadds_4 = "ec00003aFFFF~.", fnmsubs_4 = "ec00003cFFFF~.", fnmadds_4 = "ec00003eFFFF~.", -- Primary opcode 63: fdiv_3 = "fc000024FFF.", fsub_3 = "fc000028FFF.", fadd_3 = "fc00002aFFF.", fsqrt_2 = "fc00002cF-F.", fsel_4 = "fc00002eFFFF~.", fre_2 = "fc000030F-F.", fmul_3 = "fc000032FF-F.", frsqrte_2 = "fc000034F-F.", fmsub_4 = "fc000038FFFF~.", fmadd_4 = "fc00003aFFFF~.", fnmsub_4 = "fc00003cFFFF~.", fnmadd_4 = "fc00003eFFFF~.", fcmpu_3 = "fc000000XFF", fcpsgn_3 = "fc000010FFF.", fcmpo_3 = "fc000040XFF", mtfsb1_1 = "fc00004cA", fneg_2 = "fc000050F-F.", mcrfs_2 = "fc000080XX", mtfsb0_1 = "fc00008cA", fmr_2 = "fc000090F-F.", frsp_2 = "fc000018F-F.", fctiw_2 = "fc00001cF-F.", fctiwz_2 = "fc00001eF-F.", mtfsfi_2 = "fc00010cAA", -- NYI: upshift. fnabs_2 = "fc000110F-F.", fabs_2 = "fc000210F-F.", frin_2 = "fc000310F-F.", friz_2 = "fc000350F-F.", frip_2 = "fc000390F-F.", frim_2 = "fc0003d0F-F.", mffs_1 = "fc00048eF.", mtfsf_1 = "fc00058eF.", fctid_2 = "fc00065cF-F.", fctidz_2 = "fc00065eF-F.", fcfid_2 = "fc00069cF-F.", -- Primary opcode 4, SPE APU extension: evaddw_3 = "10000200RRR", evaddiw_3 = "10000202RAR~", evsubw_3 = "10000204RRR~", evsubiw_3 = "10000206RAR~", evabs_2 = "10000208RR", evneg_2 = "10000209RR", evextsb_2 = "1000020aRR", evextsh_2 = "1000020bRR", evrndw_2 = "1000020cRR", evcntlzw_2 = "1000020dRR", evcntlsw_2 = "1000020eRR", brinc_3 = "1000020fRRR", evand_3 = "10000211RRR", evandc_3 = "10000212RRR", evxor_3 = "10000216RRR", evor_3 = "10000217RRR", evmr_2 = "10000217RR=", evnor_3 = "10000218RRR", evnot_2 = "10000218RR=", eveqv_3 = "10000219RRR", evorc_3 = "1000021bRRR", evnand_3 = "1000021eRRR", evsrwu_3 = "10000220RRR", evsrws_3 = "10000221RRR", evsrwiu_3 = "10000222RRA", evsrwis_3 = "10000223RRA", evslw_3 = "10000224RRR", evslwi_3 = "10000226RRA", evrlw_3 = "10000228RRR", evsplati_2 = "10000229RS", evrlwi_3 = "1000022aRRA", evsplatfi_2 = "1000022bRS", evmergehi_3 = "1000022cRRR", evmergelo_3 = "1000022dRRR", evcmpgtu_3 = "10000230XRR", evcmpgtu_2 = "10000230-RR", evcmpgts_3 = "10000231XRR", evcmpgts_2 = "10000231-RR", evcmpltu_3 = "10000232XRR", evcmpltu_2 = "10000232-RR", evcmplts_3 = "10000233XRR", evcmplts_2 = "10000233-RR", evcmpeq_3 = "10000234XRR", evcmpeq_2 = "10000234-RR", evsel_4 = "10000278RRRW", evsel_3 = "10000278RRR", evfsadd_3 = "10000280RRR", evfssub_3 = "10000281RRR", evfsabs_2 = "10000284RR", evfsnabs_2 = "10000285RR", evfsneg_2 = "10000286RR", evfsmul_3 = "10000288RRR", evfsdiv_3 = "10000289RRR", evfscmpgt_3 = "1000028cXRR", evfscmpgt_2 = "1000028c-RR", evfscmplt_3 = "1000028dXRR", evfscmplt_2 = "1000028d-RR", evfscmpeq_3 = "1000028eXRR", evfscmpeq_2 = "1000028e-RR", evfscfui_2 = "10000290R-R", evfscfsi_2 = "10000291R-R", evfscfuf_2 = "10000292R-R", evfscfsf_2 = "10000293R-R", evfsctui_2 = "10000294R-R", evfsctsi_2 = "10000295R-R", evfsctuf_2 = "10000296R-R", evfsctsf_2 = "10000297R-R", evfsctuiz_2 = "10000298R-R", evfsctsiz_2 = "1000029aR-R", evfststgt_3 = "1000029cXRR", evfststgt_2 = "1000029c-RR", evfststlt_3 = "1000029dXRR", evfststlt_2 = "1000029d-RR", evfststeq_3 = "1000029eXRR", evfststeq_2 = "1000029e-RR", efsadd_3 = "100002c0RRR", efssub_3 = "100002c1RRR", efsabs_2 = "100002c4RR", efsnabs_2 = "100002c5RR", efsneg_2 = "100002c6RR", efsmul_3 = "100002c8RRR", efsdiv_3 = "100002c9RRR", efscmpgt_3 = "100002ccXRR", efscmpgt_2 = "100002cc-RR", efscmplt_3 = "100002cdXRR", efscmplt_2 = "100002cd-RR", efscmpeq_3 = "100002ceXRR", efscmpeq_2 = "100002ce-RR", efscfd_2 = "100002cfR-R", efscfui_2 = "100002d0R-R", efscfsi_2 = "100002d1R-R", efscfuf_2 = "100002d2R-R", efscfsf_2 = "100002d3R-R", efsctui_2 = "100002d4R-R", efsctsi_2 = "100002d5R-R", efsctuf_2 = "100002d6R-R", efsctsf_2 = "100002d7R-R", efsctuiz_2 = "100002d8R-R", efsctsiz_2 = "100002daR-R", efststgt_3 = "100002dcXRR", efststgt_2 = "100002dc-RR", efststlt_3 = "100002ddXRR", efststlt_2 = "100002dd-RR", efststeq_3 = "100002deXRR", efststeq_2 = "100002de-RR", efdadd_3 = "100002e0RRR", efdsub_3 = "100002e1RRR", efdcfuid_2 = "100002e2R-R", efdcfsid_2 = "100002e3R-R", efdabs_2 = "100002e4RR", efdnabs_2 = "100002e5RR", efdneg_2 = "100002e6RR", efdmul_3 = "100002e8RRR", efddiv_3 = "100002e9RRR", efdctuidz_2 = "100002eaR-R", efdctsidz_2 = "100002ebR-R", efdcmpgt_3 = "100002ecXRR", efdcmpgt_2 = "100002ec-RR", efdcmplt_3 = "100002edXRR", efdcmplt_2 = "100002ed-RR", efdcmpeq_3 = "100002eeXRR", efdcmpeq_2 = "100002ee-RR", efdcfs_2 = "100002efR-R", efdcfui_2 = "100002f0R-R", efdcfsi_2 = "100002f1R-R", efdcfuf_2 = "100002f2R-R", efdcfsf_2 = "100002f3R-R", efdctui_2 = "100002f4R-R", efdctsi_2 = "100002f5R-R", efdctuf_2 = "100002f6R-R", efdctsf_2 = "100002f7R-R", efdctuiz_2 = "100002f8R-R", efdctsiz_2 = "100002faR-R", efdtstgt_3 = "100002fcXRR", efdtstgt_2 = "100002fc-RR", efdtstlt_3 = "100002fdXRR", efdtstlt_2 = "100002fd-RR", efdtsteq_3 = "100002feXRR", efdtsteq_2 = "100002fe-RR", evlddx_3 = "10000300RR0R", evldd_2 = "10000301R8", evldwx_3 = "10000302RR0R", evldw_2 = "10000303R8", evldhx_3 = "10000304RR0R", evldh_2 = "10000305R8", evlwhex_3 = "10000310RR0R", evlwhe_2 = "10000311R4", evlwhoux_3 = "10000314RR0R", evlwhou_2 = "10000315R4", evlwhosx_3 = "10000316RR0R", evlwhos_2 = "10000317R4", evstddx_3 = "10000320RR0R", evstdd_2 = "10000321R8", evstdwx_3 = "10000322RR0R", evstdw_2 = "10000323R8", evstdhx_3 = "10000324RR0R", evstdh_2 = "10000325R8", evstwhex_3 = "10000330RR0R", evstwhe_2 = "10000331R4", evstwhox_3 = "10000334RR0R", evstwho_2 = "10000335R4", evstwwex_3 = "10000338RR0R", evstwwe_2 = "10000339R4", evstwwox_3 = "1000033cRR0R", evstwwo_2 = "1000033dR4", evmhessf_3 = "10000403RRR", evmhossf_3 = "10000407RRR", evmheumi_3 = "10000408RRR", evmhesmi_3 = "10000409RRR", evmhesmf_3 = "1000040bRRR", evmhoumi_3 = "1000040cRRR", evmhosmi_3 = "1000040dRRR", evmhosmf_3 = "1000040fRRR", evmhessfa_3 = "10000423RRR", evmhossfa_3 = "10000427RRR", evmheumia_3 = "10000428RRR", evmhesmia_3 = "10000429RRR", evmhesmfa_3 = "1000042bRRR", evmhoumia_3 = "1000042cRRR", evmhosmia_3 = "1000042dRRR", evmhosmfa_3 = "1000042fRRR", evmwhssf_3 = "10000447RRR", evmwlumi_3 = "10000448RRR", evmwhumi_3 = "1000044cRRR", evmwhsmi_3 = "1000044dRRR", evmwhsmf_3 = "1000044fRRR", evmwssf_3 = "10000453RRR", evmwumi_3 = "10000458RRR", evmwsmi_3 = "10000459RRR", evmwsmf_3 = "1000045bRRR", evmwhssfa_3 = "10000467RRR", evmwlumia_3 = "10000468RRR", evmwhumia_3 = "1000046cRRR", evmwhsmia_3 = "1000046dRRR", evmwhsmfa_3 = "1000046fRRR", evmwssfa_3 = "10000473RRR", evmwumia_3 = "10000478RRR", evmwsmia_3 = "10000479RRR", evmwsmfa_3 = "1000047bRRR", evmra_2 = "100004c4RR", evdivws_3 = "100004c6RRR", evdivwu_3 = "100004c7RRR", evmwssfaa_3 = "10000553RRR", evmwumiaa_3 = "10000558RRR", evmwsmiaa_3 = "10000559RRR", evmwsmfaa_3 = "1000055bRRR", evmwssfan_3 = "100005d3RRR", evmwumian_3 = "100005d8RRR", evmwsmian_3 = "100005d9RRR", evmwsmfan_3 = "100005dbRRR", evmergehilo_3 = "1000022eRRR", evmergelohi_3 = "1000022fRRR", evlhhesplatx_3 = "10000308RR0R", evlhhesplat_2 = "10000309R2", evlhhousplatx_3 = "1000030cRR0R", evlhhousplat_2 = "1000030dR2", evlhhossplatx_3 = "1000030eRR0R", evlhhossplat_2 = "1000030fR2", evlwwsplatx_3 = "10000318RR0R", evlwwsplat_2 = "10000319R4", evlwhsplatx_3 = "1000031cRR0R", evlwhsplat_2 = "1000031dR4", evaddusiaaw_2 = "100004c0RR", evaddssiaaw_2 = "100004c1RR", evsubfusiaaw_2 = "100004c2RR", evsubfssiaaw_2 = "100004c3RR", evaddumiaaw_2 = "100004c8RR", evaddsmiaaw_2 = "100004c9RR", evsubfumiaaw_2 = "100004caRR", evsubfsmiaaw_2 = "100004cbRR", evmheusiaaw_3 = "10000500RRR", evmhessiaaw_3 = "10000501RRR", evmhessfaaw_3 = "10000503RRR", evmhousiaaw_3 = "10000504RRR", evmhossiaaw_3 = "10000505RRR", evmhossfaaw_3 = "10000507RRR", evmheumiaaw_3 = "10000508RRR", evmhesmiaaw_3 = "10000509RRR", evmhesmfaaw_3 = "1000050bRRR", evmhoumiaaw_3 = "1000050cRRR", evmhosmiaaw_3 = "1000050dRRR", evmhosmfaaw_3 = "1000050fRRR", evmhegumiaa_3 = "10000528RRR", evmhegsmiaa_3 = "10000529RRR", evmhegsmfaa_3 = "1000052bRRR", evmhogumiaa_3 = "1000052cRRR", evmhogsmiaa_3 = "1000052dRRR", evmhogsmfaa_3 = "1000052fRRR", evmwlusiaaw_3 = "10000540RRR", evmwlssiaaw_3 = "10000541RRR", evmwlumiaaw_3 = "10000548RRR", evmwlsmiaaw_3 = "10000549RRR", evmheusianw_3 = "10000580RRR", evmhessianw_3 = "10000581RRR", evmhessfanw_3 = "10000583RRR", evmhousianw_3 = "10000584RRR", evmhossianw_3 = "10000585RRR", evmhossfanw_3 = "10000587RRR", evmheumianw_3 = "10000588RRR", evmhesmianw_3 = "10000589RRR", evmhesmfanw_3 = "1000058bRRR", evmhoumianw_3 = "1000058cRRR", evmhosmianw_3 = "1000058dRRR", evmhosmfanw_3 = "1000058fRRR", evmhegumian_3 = "100005a8RRR", evmhegsmian_3 = "100005a9RRR", evmhegsmfan_3 = "100005abRRR", evmhogumian_3 = "100005acRRR", evmhogsmian_3 = "100005adRRR", evmhogsmfan_3 = "100005afRRR", evmwlusianw_3 = "100005c0RRR", evmwlssianw_3 = "100005c1RRR", evmwlumianw_3 = "100005c8RRR", evmwlsmianw_3 = "100005c9RRR", -- NYI: some 64 bit PowerPC and Book E instructions: -- rldicl, rldicr, rldic, rldimi, rldcl, rldcr, sradi, 64 bit ext. add/sub, -- extended addressing branches, cache management, loads and stores } -- Add mnemonics for "." variants. do local t = {} for k,v in pairs(map_op) do if sub(v, -1) == "." then local v2 = sub(v, 1, 7)..char(byte(v, 8)+1)..sub(v, 9, -2) t[sub(k, 1, -3).."."..sub(k, -2)] = v2 end end for k,v in pairs(t) do map_op[k] = v end end -- Add more branch mnemonics. for cond,c in pairs(map_cond) do local b1 = "b"..cond local c1 = (c%4)*0x00010000 + (c < 4 and 0x01000000 or 0) -- bX[l] map_op[b1.."_1"] = tohex(0x40800000 + c1).."K" map_op[b1.."l_1"] = tohex(0x40800001 + c1).."K" map_op[b1.."_2"] = tohex(0x40800000 + c1).."-XK" map_op[b1.."l_2"] = tohex(0x40800001 + c1).."-XK" -- bXlr[l] map_op[b1.."lr_0"] = tohex(0x4c800020 + c1) map_op[b1.."lrl_0"] = tohex(0x4c800021 + c1) map_op[b1.."ctr_0"] = tohex(0x4c800420 + c1) map_op[b1.."ctrl_0"] = tohex(0x4c800421 + c1) -- bXctr[l] map_op[b1.."lr_1"] = tohex(0x4c800020 + c1).."-X" map_op[b1.."lrl_1"] = tohex(0x4c800021 + c1).."-X" map_op[b1.."ctr_1"] = tohex(0x4c800420 + c1).."-X" map_op[b1.."ctrl_1"] = tohex(0x4c800421 + c1).."-X" end ------------------------------------------------------------------------------ local function parse_gpr(expr) local tname, ovreg = match(expr, "^([%w_]+):(r[1-3]?[0-9])$") local tp = map_type[tname or expr] if tp then local reg = ovreg or tp.reg if not reg then werror("type `"..(tname or expr).."' needs a register override") end expr = reg end local r = match(expr, "^r([1-3]?[0-9])$") if r then r = tonumber(r) if r <= 31 then return r, tp end end werror("bad register name `"..expr.."'") end local function parse_fpr(expr) local r = match(expr, "^f([1-3]?[0-9])$") if r then r = tonumber(r) if r <= 31 then return r end end werror("bad register name `"..expr.."'") end local function parse_cr(expr) local r = match(expr, "^cr([0-7])$") if r then return tonumber(r) end werror("bad condition register name `"..expr.."'") end local function parse_cond(expr) local r, cond = match(expr, "^4%*cr([0-7])%+(%w%w)$") if r then r = tonumber(r) local c = map_cond[cond] if c and c < 4 then return r*4+c end end werror("bad condition bit name `"..expr.."'") end local function parse_imm(imm, bits, shift, scale, signed) local n = tonumber(imm) if n then if n % 2^scale == 0 then n = n / 2^scale if signed then if n >= 0 then if n < 2^(bits-1) then return n*2^shift end else if n >= -(2^(bits-1))-1 then return (n+2^bits)*2^shift end end else if n >= 0 and n <= 2^bits-1 then return n*2^shift end end end werror("out of range immediate `"..imm.."'") elseif match(imm, "^r([1-3]?[0-9])$") or match(imm, "^([%w_]+):(r[1-3]?[0-9])$") then werror("expected immediate operand, got register") else waction("IMM", (signed and 32768 or 0)+scale*1024+bits*32+shift, imm) return 0 end end local function parse_disp(disp) local imm, reg = match(disp, "^(.*)%(([%w_:]+)%)$") if imm then local r = parse_gpr(reg) if r == 0 then werror("cannot use r0 in displacement") end return r*65536 + parse_imm(imm, 16, 0, 0, true) end local reg, tailr = match(disp, "^([%w_:]+)%s*(.*)$") if reg and tailr ~= "" then local r, tp = parse_gpr(reg) if r == 0 then werror("cannot use r0 in displacement") end if tp then waction("IMM", 32768+16*32, format(tp.ctypefmt, tailr)) return r*65536 end end werror("bad displacement `"..disp.."'") end local function parse_u5disp(disp, scale) local imm, reg = match(disp, "^(.*)%(([%w_:]+)%)$") if imm then local r = parse_gpr(reg) if r == 0 then werror("cannot use r0 in displacement") end return r*65536 + parse_imm(imm, 5, 11, scale, false) end local reg, tailr = match(disp, "^([%w_:]+)%s*(.*)$") if reg and tailr ~= "" then local r, tp = parse_gpr(reg) if r == 0 then werror("cannot use r0 in displacement") end if tp then waction("IMM", scale*1024+5*32+11, format(tp.ctypefmt, tailr)) return r*65536 end end werror("bad displacement `"..disp.."'") end local function parse_label(label, def) local prefix = sub(label, 1, 2) -- =>label (pc label reference) if prefix == "=>" then return "PC", 0, sub(label, 3) end -- ->name (global label reference) if prefix == "->" then return "LG", map_global[sub(label, 3)] end if def then -- [1-9] (local label definition) if match(label, "^[1-9]$") then return "LG", 10+tonumber(label) end else -- [<>][1-9] (local label reference) local dir, lnum = match(label, "^([<>])([1-9])$") if dir then -- Fwd: 1-9, Bkwd: 11-19. return "LG", lnum + (dir == ">" and 0 or 10) end -- extern label (extern label reference) local extname = match(label, "^extern%s+(%S+)$") if extname then return "EXT", map_extern[extname] end end werror("bad label `"..label.."'") end ------------------------------------------------------------------------------ -- Handle opcodes defined with template strings. map_op[".template__"] = function(params, template, nparams) if not params then return sub(template, 9) end local op = tonumber(sub(template, 1, 8), 16) local n, rs = 1, 26 -- Limit number of section buffer positions used by a single dasm_put(). -- A single opcode needs a maximum of 3 positions (rlwinm). if secpos+3 > maxsecpos then wflush() end local pos = wpos() -- Process each character. for p in gmatch(sub(template, 9), ".") do if p == "R" then rs = rs - 5; op = op + parse_gpr(params[n]) * 2^rs; n = n + 1 elseif p == "F" then rs = rs - 5; op = op + parse_fpr(params[n]) * 2^rs; n = n + 1 elseif p == "A" then rs = rs - 5; op = op + parse_imm(params[n], 5, rs, 0, false); n = n + 1 elseif p == "S" then rs = rs - 5; op = op + parse_imm(params[n], 5, rs, 0, true); n = n + 1 elseif p == "I" then op = op + parse_imm(params[n], 16, 0, 0, true); n = n + 1 elseif p == "U" then op = op + parse_imm(params[n], 16, 0, 0, false); n = n + 1 elseif p == "D" then op = op + parse_disp(params[n]); n = n + 1 elseif p == "2" then op = op + parse_u5disp(params[n], 1); n = n + 1 elseif p == "4" then op = op + parse_u5disp(params[n], 2); n = n + 1 elseif p == "8" then op = op + parse_u5disp(params[n], 3); n = n + 1 elseif p == "C" then rs = rs - 5; op = op + parse_cond(params[n]) * 2^rs; n = n + 1 elseif p == "X" then rs = rs - 5; op = op + parse_cr(params[n]) * 2^(rs+2); n = n + 1 elseif p == "W" then op = op + parse_cr(params[n]); n = n + 1 elseif p == "J" or p == "K" then local mode, n, s = parse_label(params[n], false) if p == "K" then n = n + 2048 end waction("REL_"..mode, n, s, 1) n = n + 1 elseif p == "0" then local mm = 2^rs local t = op % mm if ((op - t) / mm) % 32 == 0 then werror("cannot use r0") end elseif p == "=" or p == "%" then local mm = 2^(rs + (p == "%" and 5 or 0)) local t = ((op - op % mm) / mm) % 32 rs = rs - 5 op = op + t * 2^rs elseif p == "~" then local mm = 2^rs local t1l = op % mm local t1h = (op - t1l) / mm local t2l = t1h % 32 local t2h = (t1h - t2l) / 32 local t3l = t2h % 32 op = ((t2h - t3l + t2l)*32 + t3l)*mm + t1l elseif p == "-" then rs = rs - 5 elseif p == "." then -- Ignored. else assert(false) end end wputpos(pos, op) end ------------------------------------------------------------------------------ -- Pseudo-opcode to mark the position where the action list is to be emitted. map_op[".actionlist_1"] = function(params) if not params then return "cvar" end local name = params[1] -- No syntax check. You get to keep the pieces. wline(function(out) writeactions(out, name) end) end -- Pseudo-opcode to mark the position where the global enum is to be emitted. map_op[".globals_1"] = function(params) if not params then return "prefix" end local prefix = params[1] -- No syntax check. You get to keep the pieces. wline(function(out) writeglobals(out, prefix) end) end -- Pseudo-opcode to mark the position where the global names are to be emitted. map_op[".globalnames_1"] = function(params) if not params then return "cvar" end local name = params[1] -- No syntax check. You get to keep the pieces. wline(function(out) writeglobalnames(out, name) end) end -- Pseudo-opcode to mark the position where the extern names are to be emitted. map_op[".externnames_1"] = function(params) if not params then return "cvar" end local name = params[1] -- No syntax check. You get to keep the pieces. wline(function(out) writeexternnames(out, name) end) end ------------------------------------------------------------------------------ -- Label pseudo-opcode (converted from trailing colon form). map_op[".label_1"] = function(params) if not params then return "[1-9] | ->global | =>pcexpr" end if secpos+1 > maxsecpos then wflush() end local mode, n, s = parse_label(params[1], true) if mode == "EXT" then werror("bad label definition") end waction("LABEL_"..mode, n, s, 1) end ------------------------------------------------------------------------------ -- Pseudo-opcodes for data storage. map_op[".long_*"] = function(params) if not params then return "imm..." end for _,p in ipairs(params) do local n = tonumber(p) if not n then werror("bad immediate `"..p.."'") end if n < 0 then n = n + 2^32 end wputw(n) if secpos+2 > maxsecpos then wflush() end end end -- Alignment pseudo-opcode. map_op[".align_1"] = function(params) if not params then return "numpow2" end if secpos+1 > maxsecpos then wflush() end local align = tonumber(params[1]) if align then local x = align -- Must be a power of 2 in the range (2 ... 256). for i=1,8 do x = x / 2 if x == 1 then waction("ALIGN", align-1, nil, 1) -- Action byte is 2**n-1. return end end end werror("bad alignment") end ------------------------------------------------------------------------------ -- Pseudo-opcode for (primitive) type definitions (map to C types). map_op[".type_3"] = function(params, nparams) if not params then return nparams == 2 and "name, ctype" or "name, ctype, reg" end local name, ctype, reg = params[1], params[2], params[3] if not match(name, "^[%a_][%w_]*$") then werror("bad type name `"..name.."'") end local tp = map_type[name] if tp then werror("duplicate type `"..name.."'") end -- Add #type to defines. A bit unclean to put it in map_archdef. map_archdef["#"..name] = "sizeof("..ctype..")" -- Add new type and emit shortcut define. local num = ctypenum + 1 map_type[name] = { ctype = ctype, ctypefmt = format("Dt%X(%%s)", num), reg = reg, } wline(format("#define Dt%X(_V) (int)(ptrdiff_t)&(((%s *)0)_V)", num, ctype)) ctypenum = num end map_op[".type_2"] = map_op[".type_3"] -- Dump type definitions. local function dumptypes(out, lvl) local t = {} for name in pairs(map_type) do t[#t+1] = name end sort(t) out:write("Type definitions:\n") for _,name in ipairs(t) do local tp = map_type[name] local reg = tp.reg or "" out:write(format(" %-20s %-20s %s\n", name, tp.ctype, reg)) end out:write("\n") end ------------------------------------------------------------------------------ -- Set the current section. function _M.section(num) waction("SECTION", num) wflush(true) -- SECTION is a terminal action. end ------------------------------------------------------------------------------ -- Dump architecture description. function _M.dumparch(out) out:write(format("DynASM %s version %s, released %s\n\n", _info.arch, _info.version, _info.release)) dumpactions(out) end -- Dump all user defined elements. function _M.dumpdef(out, lvl) dumptypes(out, lvl) dumpglobals(out, lvl) dumpexterns(out, lvl) end ------------------------------------------------------------------------------ -- Pass callbacks from/to the DynASM core. function _M.passcb(wl, we, wf, ww) wline, werror, wfatal, wwarn = wl, we, wf, ww return wflush end -- Setup the arch-specific module. function _M.setup(arch, opt) g_arch, g_opt = arch, opt end -- Merge the core maps and the arch-specific maps. function _M.mergemaps(map_coreop, map_def) setmetatable(map_op, { __index = map_coreop }) setmetatable(map_def, { __index = map_archdef }) return map_op, map_def end return _M ------------------------------------------------------------------------------