ELF>@&@8@! XXPddhh<<:o X   `8` ``*`0oo)oop)oo@+ oooo``>;<FhCXCtChFGKN hXHXp8YYYYY Z((ZDHZ`hZ|ZZZZ[[8([T]|H_cfn xo4oXp|8pXpxpppp$p@q\8qxXqxqqqrrDrpsstt xuH Xvp w w y hy@ yd Xz H{ { h| X}P X~ ~ h  0 zRx AAM 8 A AC $TAAC KEEG|CBAC EH D;AC t HAC [$Kd AC KG`$ U|AC EID 4pUGAC GJ XUDAC GJ|UAM UAP UAP UAP UAP UAP $UAP @UAP \UAP xUAP UAP UAP UzRx U AC $8UAC KEEG`tXKAC EH YKAC t ]AC [$`<AC HG`$h|AC EID ?@ABCDEbGHJKL STUV  {@@HG]\(08^@P]H```hp0^x\`@P^\ `p^\`^ \(@`H`P^X\`@x`^]@^\ `_ (@00_8\@ X`hP_p\x0 @ڪ @hêɪ @`( @hê`ɪɪ _ t(`s0H PXt`sht`s`t`s@u`s(0 8 u@`sH`hp@ux`s``u0t`u`s@u(@H`PuX`s`@x u`s g(]PWgW@`ogI@G`g0gw`gw gHROgR@`gg(~|g  `(@@H` h@@0@P`p$(8) $0@HPX%`h/px 0 - &+(#  " ,(!08P.X`*h5%%h%h%h%h%zh%rh%jh%bhp%Zh`%Rh P%Jh @%Bh 0%:h %2h %*h%"h%h%h% h%h%h%h%h%hp%ښh`%ҚhP%ʚh@%šh0%h %h%h%h%h %h!%h"%h#%h$%h%U=ȵHATSu`HL%HL)HHH9sHHAHH9rH=͘t H=T7`[A\ff.UHHSHH=tH5SH=1H=tHHtHH=[H[ÐUH(>HcHHUHDUHAWAVLpAUAATILSLHl(H`H`HlL#Ly H CLrHuA l1C S H`A CHCt<~8CHH8H5aE1HJ@1HCClu HĈ[A\A]A^A_H bDHcHl~C lS1lC l9l~ l1҉S C H`CHCVlBv elC lBwIT$H8E1DrDz1CIT$@ID$HHt E1;u,@H ;t AEI9rHL9h@tilDcCLEA1A,HXgHXHD1lSLEAA1+UHHH11i`@UHATIHESHH0HHw@HDHHH1E11?ufHHH 9HcH9wH9ML$0IvTMT$8HHH I HAxtHsxDFA9r DFxA9vC‰L9r¿01H1H01[A\ÐAHDH{dfDHKHQF+BCHQHHC H0[A\ÿI<$H3%ff.UHAWAVAUATSHHHHHQIHsDh@HXHE1E1Et}A͉fDD9;tEtVAH AEuH=;1DH1j1HdEuH[A\A]A^A_fDDs[ HCDLh@AHHXHE)D;, /EVA͉HUL5]HHH HD9;tE H AEu惽wHIcLDDE1AHHXH7'HHsH=91_fsH=%\1:DsH=81fsH=81gfs H=81OfsH=y817fsH=a81ft3H=[1fH1LHH@p&H=N8H1_fsH'H=8H1- HHuH8t-sBHELeHX LH1H4HuH=71uH=Z1DUHAWHuAVAUATSHH}L'ID$HLM|$@HE;UHMH}H]xHAH0ZHUHBH8|I|$0AHH5YHHI\$8H{ HC@@MbxPE11D:HHHMq9wqA9wAu ADI9wI9,HMH[ HAHhHp.HphHD|Dx1HL$$HDVfDADI;D$0HUHuLIH@1LpHMHLHLHAHHSLBHUB|HEPHE]XDhD`cHƿ1MLHĈ[A\A]A^A_ËPE19|HMLk HAL8E1HLMD1HHCPHEHHHCH1H8H1Lc Lm5DxHM1Lڿ18ff.@UHLuL`H]HLeLmL}HHMAHbDEEuyxtD|H`ILhHA v;1LD牅;H]LeLmLuL}HiWDHcH@L1D1HpHK@H5SVE11HxHlIŸt%HpHK@H5VE1HxaD|HK@HUHsHH=6VEHT$E1 H$L@HE lAt/|HK@H5UE1H)HpHxAD|HK@H=UHsH E1zfLnH߉qUfDHp1HxEEIA9F|Dx DDH TxHƿ1EE;E}A@HCE1l@~N@HpH<xHxHA H9lhDҨDEO'AEA9DH1DDD DAuH1HD |JHxLLH SxHƿ1E}AfDHp1HxEEIA9|DxKDDH kSxHƿ1EE{E}A@Hp1HxVEEIA9|DxDDH RxHƿ1EEE}A|@Hp1HxEE IA9|Dx;DDH QxHƿ1EEkE} A@Hp1HxFEEIA9.|DxDDH QxHƿ1EEE}Al@Hp1HxEEIA9V|Dx+DDH 1QxHƿ1EE[E}A@HCP@fHpHx AUI9cDDLE1ɉDDDDDDLEHAU1DD|JHx3LLH PxHƿ1iE}AfAEA!@mD|DH zOEHƉڿ1fmD|DH OEfDmD|aDH OEfDLE1|(IH OHMڿ1a@mD|DH NE mD|DH NEmD|DH NEH1D|(I=H sNHMڿ1DAEA ff.UHAWEAVAUATASHHE~9IE1 AIE9~$IuH=M|uH[A\A]A^A_ÐAE9uH߾H[A\A]A^A_@UHLeEH]LmH AI[A9tH]LeLmþLfUHLeEH]LmH AI D9~ LjH]LeLmff.UHщH1H]ff.UHщHH:UHщHHUHщHHUHщHHUHщHHUHщHHUHщHHzUHщHHZUHщH H:UHщH HUHщH HHIÐUHGDUHAWAVLpAUAATILSLHl(H`H`HlL#L H CLHuA l1C S H`A CHCt<~8CHH8H5 pE1HJ@1HCCluyHĈ[A\A]A^A_H=pDHcHl~NC lS1lC l9l~ l1҉S C H`CHCVlBv lC lBwIT$H8E1DrDzCIT$@ID$HHt E1;u,@H8;t AEI9rHL9h@tilDcCLEA1AHXHXHD1lSLEAA15UHHH11`@UHATIHESHH0H@HHDMD$HH111A8u%H4HHH)I:HcH9wH9ML$0IvSMT$8@HHH I HAxtHsHxLFI9r LF Hx I9vA‰L9r1H1H01[A\IЉ3LCaHKHQHF+BCHQHHC H0[A\ÿ6I<$H'DUHAWAVAUATSHHHHHQIHsDh@HXHE1E1Et}A͉fDD9;tEtVAH8AEuH=?I1gDH11HEuH[A\A]A^A_fDDs[ HCDLh@AH4HH)HXHE)D;@W4 7ENA͉HUL5kHHH HD9;tEH8AEu惽wHIcLDDE1AH4HH)HXH$@HHHs0H= G1VsH=Ej12DHs(H=F1Hs H=F1HsH=F1HsH=F1HsH=F1~t3H=i1_fH1LHH@pPH=nFH1WfsHH=L HHL)H LII9wLI M9wAu ADI9wI9.HMHAHJ LHpH`LhhLhH`DDMHpLD$DE4$H1ADI;D$0HUHuLIH@1Lp(HMHLHLHAHHSLHBHUHBHxHEHP vHE]XLh L`Hƿ1MLHĈ[A\A]A^A_Hp E1H;xHMLj HHAL8?E1HLMD1HCHP HEHHHCH1H8%H1fDLc Lm5DEHM1Lڿ!19f.UHLuLuH]HLeLmL}HHMAH5DEEut}tDmJII)HELhHA v41LD牅h hH]LeLmLuL}HqeDHcH@L1D1HEHK@H5^dE11HxH}IŸt"HEHK@H5*dE1HxDEHK@H@HsHH=GdEHT$E18H$DHE}At)EHK@H5cE1H)HEHx&ADEHK@H=cHsH8E13뉐LH߉hhtfDHE1HxME0IL9ULhXwLhXH bHM1M}0AfHCE1}@x~KHEH<XHhIXHhA H9UƋEDҨDE@AEA9DxH1DDDh0 DhAuH1H`D UJHhXSL`LhH ;bXHƿ1E}AfHE1HxiME(IL9ULhXLhXH aHM1M}(ARfHE1HxME IL9ULhXoLhXH GaHM1M} AfHE1HxMEIL9ULhXLhXH j`HM19M}ArfHE1HxMEIL9ULhXLhXH _`HM1M}AfHE1HxMEIL9ULhXLhXH _HM1YM}AfHCPw@fxHEHx AUI96DxDwL@1ɉDDD`DhD`DhLEHxAU1DDUJHhX6LxLhH ^XHƿ1lE}ADAEA!0@m]H K^MHƉڿ1vfm]MH ^m]MH ^xwLE1](IOH ]HMڿ1m]MH ]<@m]MH ]@m]MH ]@xH1DP](IH ]HMڿ1fDHKtEAD$tHcɺLI Lt A!1H]LeLmLuL}Ë|DLL|f.UHHpH]LeLmLuAHUHuAL}LMHLEHMDH}HIDdLXHDHh"u*D8Dt)Eu<@tfDH StUCuCftfD9uދAD$tHXHhHcLHѺt@A!HhdDL`H]LeLmLuL}f1䐐UAHLMLEHMHUHuH}H0I9sC HcIuH0ff.UHLEHMHUHuH}H0DIEu!HDIEt91uIcIfDSfff.@UHLMLEHMHUHuH}H0EQEu,UD@8t)@u<@tfDI EQEt+AAuAAftf9uA9 uIcHEH0ÐD‰H0UAHLEHUDH}H]LLeLmLMHMHuH`HLEHtaDcE9wLDKE9wCD+Atrfs.AIMLCDD)D)EH]LeLmAtfHHHuDfLKDL$ADD묐HKD4@ff.UHH]LeHLmLuAL}LMILEHMMHUHuH}HpHLMt7LzMt+AHIϋ;tHcH}LDAՅu1H]LeLmLuL}DUHH]LeHLmLuIHMHUIHuH}H@I΅u;H{t-HcL3I<>AՅuH$Ld$Ll$Lt$DߐUHH]LeHLmLuIL}LMALEHMMHUHuMH}Hpfuzu-DfD9t"fEua<tDH {teCuCftf}tf;EuHcL3I<>AԅuH]LeLmLuL}DfAtH {uDfUHH]LeHLmLuML}LMILEHMMHUHuH}HpHHD},PxMHpML)|t6HHHtVt-r˃uHP}MMLDfu1-fDHxLLLtHHHuH]LeLmLuL}ff.UHH]LuHLeLmIHuH}H0H;uIAFHL$I9w$I9DvMIA<$uMI)1H$MMfLl$Ld$Lt$UHH]LeHLmHUIHuH}H@AH;CtH]LeLmÐH3HL*uCDkҐU HH}t t   ÐUHLeH]ILmH}H0IA<$uLgIL9w#@L9DvIH;puLLH]LeLmDUHLmAH]ALeLuHMHUHuH}H@AIL$7u%A<$=t31H$Ld$Ll$Lt$@IA<$uA<$=uIEfuIuA<$tM&t%A$tPw A$IA$ufDIA<${uuf륐UHSHH]HtH ]HHHuH[UHUH'Program header [%d]: phdr[%d]: Program header: %s [%d: %s][%d]: value unchanged: %s phdr[%d]: update PT_INTERP program header: p_offset=%#llx, p_size=%#llx [%d: %s][%d]: Write new value in .interp section: %s [%d: %s][%d]: New value too long (%d bytes) for .interp section (%d bytes): %s phdr[%d].%s: value unchanged: %s phdr[%d].%s: change from %s to %s phdr[%d].%s: value unchanged: %#llx phdr[%d].%s: change from %#llx to %#llx Interpreter Section: %s %s ELF object does not have an interpreter program header Unable to locate section corresponding to PT_INTERP program header No program header with specified type available: %s Program HeaderDump Program Header ContentsSegment typeOffset from start of fileVirtual address of 1st byte in memorySegment's physical address# of bytes in file image of segment# bytes in memory image of segmentSegment flagsSegment alignmnentDynamic object interpreter (PT_INTERP)Delete program headersMove program headersInterpret the element argument as a program header index rather than as a program header type. Type of program header. The first program header with the specified type will be used. If the -phndx option is used, then element is instead an integer giving the index of the specified program header element. Path of new interpreter for ELF PT_INTERP program header. Value to set for segment type. The value can be an integer, or one of hte well known PT_ symbolic constant names. Integer value to set for program header p_offset field. The value of p_offset gives the offset from the beginning of the file at which the first byte of the segment resides. Integer value to set for virtual address at which the first byte of the segment resides in memory. Integer value to set for physical address at which the first byte of the segment resides in memory. Integer value to set for number of bytes in the file image of the segment, which can be zero. Integer value to set for number of bytes in the memory image of the segment, which can be zero. Segment flags. PF_ flag constants are accepted, as is any integer. Value to which the segment is aligned in memory, and in the file. Number of program header elements to delete, starting at the specified position. This value cannot exceed the number of slots remaining in the header table below the specified. position If count is not supplied, a single element is deleted. Numeric index within program header to which the element(s) should be moved. Number of program header elements to move. This value cannot exceed the number of slots remaining in the program header table below the specified position. If count is not supplied, a single header element is moved. The phdr:dump command is used to display program headers using the same style used by the elfdump program. If phdr:dump is called without an argument, information for every program header is shown. If called with the element argument, the information for the program header symbol at that index is displayed. The phdr:p_type command is used to display or alter the segment type program header. This information is maintained in the p_type field of an ELF program header element. If phdr:p_type is called without arguments, the value of p_type for every element of the program header array is shown. If called with the element argument, the value of the program header specified is displayed. If both arguments are present, the p_type field of the program header at the specified position is set to the given value. The phdr:p_offset command is used to display or alter the p_offset field of the specified program header. p_offset provides the offset from the beginning of the at which the first byte of the segment resides. If phdr:p_offset is called without arguments, the value of p_offset for every element in the program header array is shown. If called with the element argument, the value of the element specified is displayed. If both arguments are present, the p_offset field of the element at the specifiedindex is set to the given value. The phdr:p_vaddr command is used to display or alter the p_vaddr field of the specified program header. p_vaddr provides the virtual address at which the first byte of the segment resides in memory If phdr:p_vaddr is called without arguments, the value of p_vaddr for every element in the program header array is shown. If called with the element argument, the value of the element specified is displayed. If both arguments are present, the p_vaddr field of the element at the specified index is set to the given value. The phdr:p_paddr command is used to display or alter the p_paddr field of the specified program header. p_paddr provides the physical address at which the first byte of the segment resides in memory, for systems in which physical addressing is relevant. Because the system ignores physical addressing for application programs, this member has unspecified contents for executable files and shared objects. If phdr:p_paddr is called without arguments, the value of p_paddr for every element in the program header array is shown. If called with the element argument, the value of the element specified is displayed. If both arguments are present, the p_paddr field of the element at the specified index is set to the given value. The phdr:p_filesz command is used to display or alter the p_filesz field of the specified program header. p_filesz contains the number of bytes in the file image of the segment. This value can be zero. If phdr:p_filesz is called without arguments, the value of p_filesz for every element in the program header array is shown. If called with the element argument, the value of the element specified is displayed. If both arguments are present, the p_filesz field of the element at the specified index is set to the given value. The phdr:p_memsz command is used to display or alter the p_memsz field of the specified program header. p_memsz contains the number of bytes in the memory image of the segment. This value can be zero. If phdr:p_memsz is called without arguments, the value of p_memsz for every element in the program header array is shown. If called with the element argument, the value of the element specified is displayed. If both arguments are present, the p_memsz field of the element at the specified index is set to the given value. The phdr:p_flags command is used to display or alter the flags that are associated with the segment described by the program header. If phdr:p_flags is called without arguments, the value of p_flags for every element in the program header array is shown. If called with the element argument, the value of the program header at that index is displayed. If one or more value arguments are present, the following steps are taken: o All the value arguments are OR'd together. o If the -cmp option has been specified, the new value is complemented. o The p_flags field of the section header is updated with the new value. If -and is specified, the new value is AND'd against the existing value. If -or is specified, the new value is OR'd against the existing value. If neither -and or -or are specified, the new value replaces the existing value. The phdr:p_align command is used to display or alter the p_align field of the specified program header. p_align is the value to which the segment is aligned in memory, and in the file. Values 0 and 1 mean no alignment is required. Otherwise, p_align should be a positive integral power of 2, and p_vaddr should equal p_offset, modulo p_align. If phdr:p_align is called without arguments, the value of p_align for every element in the program header array is shown. If called with the element argument, the value of the element specified is displayed. If both arguments are present, the p_align field of the element at the specified index is set to the given value. The phdr:interp command is used to display or alter the interpreter of the ELF object. If phdr:interp is called without arguments, the existing interpreter is shown. If called with the newpath argument, the interpreter is set to the given string, if possible. An ELF PT_INTERP program header usually references its own special section instead of some other string table. The ELF ABI says that this section must be named ".interp". .interp is typically sized to just fit the original string, including its NULL termination. You can treat it as a string table with one string. If the new interpreter path is short enough to fit in this .interp section, phdr:interp simply replaces the old path with the new one. In the case where the new path is too long to fit in the .interp section, phdr:interp will attempt to use the dynamic string table instead. This is not always possible: The desired string must already exist in the dynamic string table, or there must be enough room in the reserved section at the end (DT_SUNW_STRPAD) for the new string to be added. The phdr:delete command is used to delete one or more elements in the program header. The elements following the deleted items move up, and the vacated elements at the end are zero filled. The phdr:move command is used to move the position of one or more elements in the program header array. The specified number of elements are moved from elt to dst_index. p_alignp_paddrcountdst_indexelementnewpathsizep_typevalue-phndx%u %#x .interpphdrdumpp_offsetp_vaddrp_fileszp_memszp_flagsdeletemoveYYYYYY Y:ṭlD,Up`جPȫةpProgram header [%d]: phdr[%d]: Program header: %s [%d: %s][%d]: value unchanged: %s phdr[%d]: update PT_INTERP program header: p_offset=%#llx, p_size=%#llx [%d: %s][%d]: Write new value in .interp section: %s [%d: %s][%d]: New value too long (%d bytes) for .interp section (%d bytes): %s phdr[%d].%s: value unchanged: %s phdr[%d].%s: change from %s to %s phdr[%d].%s: value unchanged: %#llx phdr[%d].%s: change from %#llx to %#llx Interpreter Section: %s %s ELF object does not have an interpreter program header Unable to locate section corresponding to PT_INTERP program header No program header with specified type available: %s Program HeaderDump Program Header ContentsSegment typeOffset from start of fileVirtual address of 1st byte in memorySegment's physical address# of bytes in file image of segment# bytes in memory image of segmentSegment flagsSegment alignmnentDynamic object interpreter (PT_INTERP)Delete program headersMove program headersInterpret the element argument as a program header index rather than as a program header type. Type of program header. The first program header with the specified type will be used. If the -phndx option is used, then element is instead an integer giving the index of the specified program header element. Path of new interpreter for ELF PT_INTERP program header. Value to set for segment type. The value can be an integer, or one of hte well known PT_ symbolic constant names. Integer value to set for program header p_offset field. The value of p_offset gives the offset from the beginning of the file at which the first byte of the segment resides. Integer value to set for virtual address at which the first byte of the segment resides in memory. Integer value to set for physical address at which the first byte of the segment resides in memory. Integer value to set for number of bytes in the file image of the segment, which can be zero. Integer value to set for number of bytes in the memory image of the segment, which can be zero. Segment flags. PF_ flag constants are accepted, as is any integer. Value to which the segment is aligned in memory, and in the file. Number of program header elements to delete, starting at the specified position. This value cannot exceed the number of slots remaining in the header table below the specified. position If count is not supplied, a single element is deleted. Numeric index within program header to which the element(s) should be moved. Number of program header elements to move. This value cannot exceed the number of slots remaining in the program header table below the specified position. If count is not supplied, a single header element is moved. The phdr:dump command is used to display program headers using the same style used by the elfdump program. If phdr:dump is called without an argument, information for every program header is shown. If called with the element argument, the information for the program header symbol at that index is displayed. The phdr:p_type command is used to display or alter the segment type program header. This information is maintained in the p_type field of an ELF program header element. If phdr:p_type is called without arguments, the value of p_type for every element of the program header array is shown. If called with the element argument, the value of the program header specified is displayed. If both arguments are present, the p_type field of the program header at the specified position is set to the given value. The phdr:p_offset command is used to display or alter the p_offset field of the specified program header. p_offset provides the offset from the beginning of the at which the first byte of the segment resides. If phdr:p_offset is called without arguments, the value of p_offset for every element in the program header array is shown. If called with the element argument, the value of the element specified is displayed. If both arguments are present, the p_offset field of the element at the specifiedindex is set to the given value. The phdr:p_vaddr command is used to display or alter the p_vaddr field of the specified program header. p_vaddr provides the virtual address at which the first byte of the segment resides in memory If phdr:p_vaddr is called without arguments, the value of p_vaddr for every element in the program header array is shown. If called with the element argument, the value of the element specified is displayed. If both arguments are present, the p_vaddr field of the element at the specified index is set to the given value. The phdr:p_paddr command is used to display or alter the p_paddr field of the specified program header. p_paddr provides the physical address at which the first byte of the segment resides in memory, for systems in which physical addressing is relevant. Because the system ignores physical addressing for application programs, this member has unspecified contents for executable files and shared objects. If phdr:p_paddr is called without arguments, the value of p_paddr for every element in the program header array is shown. If called with the element argument, the value of the element specified is displayed. If both arguments are present, the p_paddr field of the element at the specified index is set to the given value. The phdr:p_filesz command is used to display or alter the p_filesz field of the specified program header. p_filesz contains the number of bytes in the file image of the segment. This value can be zero. If phdr:p_filesz is called without arguments, the value of p_filesz for every element in the program header array is shown. If called with the element argument, the value of the element specified is displayed. If both arguments are present, the p_filesz field of the element at the specified index is set to the given value. The phdr:p_memsz command is used to display or alter the p_memsz field of the specified program header. p_memsz contains the number of bytes in the memory image of the segment. This value can be zero. If phdr:p_memsz is called without arguments, the value of p_memsz for every element in the program header array is shown. If called with the element argument, the value of the element specified is displayed. If both arguments are present, the p_memsz field of the element at the specified index is set to the given value. The phdr:p_flags command is used to display or alter the flags that are associated with the segment described by the program header. If phdr:p_flags is called without arguments, the value of p_flags for every element in the program header array is shown. If called with the element argument, the value of the program header at that index is displayed. If one or more value arguments are present, the following steps are taken: o All the value arguments are OR'd together. o If the -cmp option has been specified, the new value is complemented. o The p_flags field of the section header is updated with the new value. If -and is specified, the new value is AND'd against the existing value. If -or is specified, the new value is OR'd against the existing value. If neither -and or -or are specified, the new value replaces the existing value. The phdr:p_align command is used to display or alter the p_align field of the specified program header. p_align is the value to which the segment is aligned in memory, and in the file. Values 0 and 1 mean no alignment is required. Otherwise, p_align should be a positive integral power of 2, and p_vaddr should equal p_offset, modulo p_align. If phdr:p_align is called without arguments, the value of p_align for every element in the program header array is shown. If called with the element argument, the value of the element specified is displayed. If both arguments are present, the p_align field of the element at the specified index is set to the given value. The phdr:interp command is used to display or alter the interpreter of the ELF object. If phdr:interp is called without arguments, the existing interpreter is shown. If called with the newpath argument, the interpreter is set to the given string, if possible. An ELF PT_INTERP program header usually references its own special section instead of some other string table. The ELF ABI says that this section must be named ".interp". .interp is typically sized to just fit the original string, including its NULL termination. You can treat it as a string table with one string. If the new interpreter path is short enough to fit in this .interp section, phdr:interp simply replaces the old path with the new one. In the case where the new path is too long to fit in the .interp section, phdr:interp will attempt to use the dynamic string table instead. This is not always possible: The desired string must already exist in the dynamic string table, or there must be enough room in the reserved section at the end (DT_SUNW_STRPAD) for the new string to be added. The phdr:delete command is used to delete one or more elements in the program header. The elements following the deleted items move up, and the vacated elements at the end are zero filled. The phdr:move command is used to move the position of one or more elements in the program header array. The specified number of elements are moved from elt to dst_index. p_alignp_paddrcountdst_indexelementnewpathsizep_typevalue-phndx%u %#x .interpphdrdumpp_offsetp_vaddrp_fileszp_memszp_flagsdeletemoveЏ))))))) Diyĕ|dL$ T@О`X`[by @V]di @ooo)oNPddPtd0PtdbQtdRtdooooFPddPtd"PtdUQtdRtdooooCPddPtdPtdRQtdRtdooo o4PddPtd Ptd>QtdoRtd.Qq)Ij &Fg)Bj3Yx5.11-1.1754 (illumos)%ld%lld %ld %lld 0x%lx0x%llx 0x%lx 0x%llx [ ][ PT_NULL ]PT_NULLnull[ PT_LOAD ]PT_LOADload[ PT_DYNAMIC ]DYNPT_DYNAMICdynamic[ PT_INTERP ]PT_INTERPinterp[ PT_NOTE ]PT_NOTEnote[ PT_SHLIB ]PT_SHLIBshlib[ PT_PHDR ]PT_PHDRphdr[ PT_TLS ]PT_TLStls[ PT_SUNW_UNWIND ]PT_SUNW_UNWINDsunw_unwind[ PT_SUNW_EH_FRAME ]PT_SUNW_EH_FRAMEsunw_eh_frame[ PT_GNU_EH_FRAME ]PT_GNU_EH_FRAMEgnu_eh_frame[ PT_GNU_STACK ]PT_GNU_STACKgnu_stack[ PT_GNU_RELRO ]PT_GNU_RELROgnu_relro[ PT_SUNWBSS ]PT_SUNWBSSsunwbss[ PT_SUNWSTACK ]PT_SUNWSTACKsunwstack[ PT_SUNWDTRACE ]PT_SUNWDTRACEsunwdtrace[ PT_SUNWCAP ]PT_SUNWCAPsunwcapPF_XxPF_WwPF_RPF_SUNW_FAILUREsunw_failurePF_SUNW_KILLEDsunw_killedPF_SUNW_SIGINFOsunw_siginfo0XDDDDDDDEE&E6EFEVEfEvEEEEEEEEEFF&F6FFFVFfFvFFFFFFFFX   BesO##9k 9y 96999299i99G9   BesO##9k 9y 96999299i99G9`o`o`o`o.Solaris Link Editors: 5.11-1.1754 (illumos)Xh8X  p) ) (* * +@DF px} Ѐ{pw  ~! {4 < J PX ;r P|,  @  `g  v] pvw xeG$ Ѓ/ '5CVcFypG0!%G HJB L;`P `Sd \|$P]G/]D;]D^O0^\P^hp^t^^^^_0_P_(PP ``x*x:M@x_ qxx`x@x@x! 3xDUPe@Pu x!%_ _`bKcKh  k<`s|$sG/0tD;tDtOt\thut u@u`uuuuu(  PP xx)<`xN@`xq xx`x`x@"x3DPT`Pd@uxvT @`Pw TT$`82D]`n@ @xx@x(x=@ K` [ i x xyz: }B}Q0~+=GTbnp9 U ] d y p_ v         ) A R b Xk          D. 4 J b w          ! 4 phdr.socrti.svalues-Xa.ccrtstuff.c__CTOR_LIST____DTOR_LIST____EH_FRAME_BEGIN____JCR_LIST____do_global_dtors_auxcompleted.5023dtor_idx.5025frame_dummyobject.5049phdr.c__phdr_msgmod_i18nhdl_to_strprocess_argslocate_interpprint_phdrcmd_body_set_interpcmd_bodycpl_1starg_ptcpl_p_typecpl_p_flagscmd_dumpcmd_p_typecmd_p_offsetcmd_p_vaddrcmd_p_paddrcmd_p_fileszcmd_p_memszcmd_p_flagscmd_p_aligncmd_interpcmd_deletecmd_movemodule.8221cmds.8220name_dump.8194opt_minus_phndx.8193arg_dump.8195name_p_type.8196opt_std.8192arg_p_type.8197name_p_offset.8198arg_p_offset.8199name_p_vaddr.8200arg_p_vaddr.8201name_p_paddr.8202arg_p_paddr.8203name_p_filesz.8204arg_p_filesz.8205name_p_memsz.8206arg_p_memsz.8207name_p_flags.8208opt_p_flags.8209arg_p_flags.8210name_p_align.8211arg_p_align.8212name_interp.8213opt_interp.8214arg_interp.8215name_delete.8216arg_delete.8217name_move.8218arg_move.8219module.8204cmds.8203name_dump.8177opt_minus_phndx.8176arg_dump.8178name_p_type.8179opt_std.8175arg_p_type.8180name_p_offset.8181arg_p_offset.8182name_p_vaddr.8183arg_p_vaddr.8184name_p_paddr.8185arg_p_paddr.8186name_p_filesz.8187arg_p_filesz.8188name_p_memsz.8189arg_p_memsz.8190name_p_flags.8191opt_p_flags.8192arg_p_flags.8193name_p_align.8194arg_p_align.8195name_interp.8196opt_interp.8197arg_interp.8198name_delete.8199arg_delete.8200name_move.8201arg_move.8202conv_phdr_type_stringsds_cf.4772ds_cfnp.4773ds_nf.4774ds_dmp.4771ds_def.4770conv_phdr_flags_stringsvda_cf.4807vda_nf.4808conv_arg.4821ds_phdrs_dmp.4758ds_phdrs_osabi_cfnp.4768ds_phdrs_cf.4759ds_phdrs_osabi_cf.4767ds_phdrs_cfnp.4760ds_phdrs_nf.4761ds_phdrs_osabi_nf.4769ds_phdrs_def.4757ds_phdrs_osabi_def.4766phdrs_osabi_nf.4765phdrs_osabi_cfnp.4764phdrs_osabi_cf.4763phdrs_osabi_def.4762phdrs_nf.4756phdrs_cfnp.4755phdrs_cf.4754phdrs_dmp.4753phdrs_def.4752globals_machelf.ccef_cpcef_setupcef_wrapvernote.s../../include/sgs.h.endname.startnameglobals_msg.cphdr_msg.cglobals.cmap_msg2strmap_vd2strmap_vd22str_conv_iter_msgarrstrproc.c__CTOR_END____FRAME_END____JCR_END____do_global_ctors_auxcrtn.sconv32_invalid_val_END__finielfedit32_init_conv_iter_vd2__DTOR_END__conv_strproc_trimconv_phdr_flags__dso_handlelink_ver_string_conv_map_ds_conv32_expn_field_START__conv_iter_ds_conv_iter_vd__sgs_msg_libconv_globals_conv32_expn_field2conv_iter_strtol_init__sgs_msg_libconv_phdr_lib_versionconv_iter_strtolconv_strproc_extract_valueconv_iter_phdr_typeconv_phdr_typeconv_iter_phdr_flagsconv_strproc_isspace__register_frame_info_basesgettext_edataelfedit32_sec_getdynelfedit_command_usageelfedit64_initelfedit32_sec_getstrelfedit_flagselfedit_printfelfedit_atouielfedit_msgElf64_phdrstrlcpyelfedit64_modified_dataelfedit_atoui_rangeelfedit_array_elts_moveelfedit_atoconstSUNWprivate_1.1_DYNAMICelfedit64_modified_phdrstrncasecmp_etextelfedit32_strtab_insertelfedit_cpl_atoconstelfedit32_modified_dataelfedit_array_elts_deleteElf32_phdrelfedit_getopt_init_PROCEDURE_LINKAGE_TABLE_bzero_GLOBAL_OFFSET_TABLE_elfedit64_strtab_insertelfedit64_sec_getdynstrncpy__deregister_frame_info_baseselfedit_getoptstrcmp_endelfedit32_modified_phdr_Jv_RegisterClassesmemcpystrlenelfedit64_sec_getstrelfedit_outstylesnprintfelfedit_pager_initelfedit_elferr@(#)SunOS 5.11 titanic_53 July 2025.dynamic.eh_frame_hdr.eh_frame.SUNW_syminfo.hash.SUNW_ldynsym.dynsym.dynstr.SUNW_version.SUNW_versym.SUNW_dynsymsort.SUNW_reloc.rela.plt.text.init.fini.rodata.got.data.ctors.dtors.jcr.data.rel.local.data.rel.ro.bss.note.symtab.strtab.comment.debug_abbrev.debug_info.debug_line.debug_loc.debug_pubnames.debug_aranges.debug_str.shstrtabXX phh<p$ "oB06o88[D L"X X  Top)p)To))8bo(*(*boo**0++0B@@DDpFF>  R p  P : C  %%j 0%t