# This change reimplements the ARM _dl_linux_resolve entry point - this is # called to resolve DLL PLT entries. The assembler is changed to be thumb # compatible and slightly faster, the C function, _dl_linux_resolver (note # the extra r) is changed to take a byte address in place of an 8 byte # count (faster in caller and callee, and slightly easier to understand). # --- uClibc-0.9.28/.pc/thumb-resolve.patch/ldso/ldso/arm/elfinterp.c 2005-08-17 15:49:41.000000000 -0700 +++ uClibc-0.9.28/ldso/ldso/arm/elfinterp.c 2005-09-17 12:55:26.379172744 -0700 @@ -55,7 +55,7 @@ rel_addr = (ELF_RELOC *) tpnt->dynamic_info[DT_JMPREL]; - this_reloc = rel_addr + (reloc_entry >> 3); + this_reloc = rel_addr + reloc_entry; reloc_type = ELF32_R_TYPE(this_reloc->r_info); symtab_index = ELF32_R_SYM(this_reloc->r_info); @@ -84,7 +84,9 @@ _dl_exit(1); }; #if defined (__SUPPORT_LD_DEBUG__) +#if !defined __SUPPORT_LD_DEBUG_EARLY__ if ((unsigned long) got_addr < 0x40000000) +#endif { if (_dl_debug_bindings) { --- uClibc-0.9.28/.pc/thumb-resolve.patch/ldso/ldso/arm/resolve.S 2005-08-17 15:49:41.000000000 -0700 +++ uClibc-0.9.28/ldso/ldso/arm/resolve.S 2005-09-17 11:02:27.860627464 -0700 @@ -1,43 +1,163 @@ /* - * This function is _not_ called directly. It is jumped to (so no return - * address is on the stack) when attempting to use a symbol that has not yet - * been resolved. The first time a jump symbol (such as a function call inside - * a shared library) is used (before it gets resolved) it will jump here to - * _dl_linux_resolve. When we get called the stack looks like this: - * reloc_entry - * tpnt - * - * This function saves all the registers, puts a copy of reloc_entry and tpnt - * on the stack (as function arguments) then make the function call - * _dl_linux_resolver(tpnt, reloc_entry). _dl_linux_resolver() figures out - * where the jump symbol is _really_ supposed to have jumped to and returns - * that to us. Once we have that, we overwrite tpnt with this fixed up - * address. We then clean up after ourselves, put all the registers back how we - * found them, then we jump to the fixed up address, which is where the jump - * symbol that got us here really wanted to jump to in the first place. - * -Erik Andersen + * On ARM the PLT contains the following three instructions (for ARM calls): + * + * add ip, pc, #0xNN00000 + * add ip, ip, #0xNN000 + * ldr pc, [ip, #0xNNN]! + * + * So that, effectively, causes the following to happen: + * + * ip := pc+0x0NNNNNNN + * pc := *ip + * + * For thumb the above fragment is preceded by "bx pc, nop" to switch to ARM + * mode and the thumb 'bl' must go to PLT-4 - the PLT entry is expanded by + * four bytes to accomodate the trampoline code. + * + * 0x0NNNNNNN is the offset of the GOT entry for this function relative to + * the PLT entry for this function (where the code is). So the code in the + * PLT causes a branch to whatever is in the GOT, leaving the actual address + * of the GOT entry in ip. (Note that the GOT must follow the PLT - the + * added value is 28 bit unsigned). + * + * ip is a pointer to the GOT entry for this function, the first time round + * *ip points to this code: + * + * str lr, [sp, #-4]! @ save lr + * ldr lr, [pc, #4] @ lr := *dat (&GOT_TABLE[0]-.) + * add lr, pc, lr @ lr += &dat (so lr == &GOT_TABLE[0]) + * ldr pc, [lr, #8]! @ pc := GOT_TABLE[2] + *dat: .long &GOT_TABLE[0] - . + * + * (this code is actually held in the first entry of the PLT). The code + * preserves lr then uses it as a scratch register (this preserves the ip + * value calculated above). GOT_TABLE[2] is initialized by INIT_GOT in + * dl-sysdep.h to point to _dl_linux_resolve - this function. The first + * three entries in the GOT are reserved, then they are followed by the + * entries for the PLT entries, in order. + * + * The linker initialises the following (non-reserved) GOT entries to + * the offset of the PLT with an associated relocation so that on load + * the entry is relocated to point to the PLT - the above code. + * + * The net effect of all this is that on the first call to an external (as + * yet unresolved) function all seven of the above instructions are + * executed in sequence and the program ends up executing _dl_linux_resolve + * with the following important values in registers: + * + * ip - a pointer to the GOT entry for the as yet unresolved function + * lr - &GOT_TABLE[2] + * + * GOT_TABLE[2] has already been initialised to _dl_linux_resolve, and + * GOT_TABLE[1] is a pointer to the (elf_resolve*) from INIT_GOT. + * _dl_linux_resolve unfrobnicates the ip and lr values to obtain arguments + * for a call to _dl_linux_resolver (not the additional 'r' on the end) - + * this is in elfinterp.c in this directory. The call takes arguments: + * + * _dl_linux_resolver(struct elf_resolve *tpnt, int reloc_entry) + * + * And returns the address of the function, it also overwrites the GOT + * table entry so that the next time round only the first code fragment will + * be executed - it will call the function directly. + * + * [[Of course, this simply doesn't work on ARM 4T with a thumb target - because + * 4T did not do the thumb/arm change on ldr pc! It can be made to work by + * changing _dl_linux_resolver to return __%s_from_arm for an STT_TFUNC, but + * this hasn't been done, and there is no guarantee that the linker generated + * that glue anyway.]] + * + * _dl_linux_resolve gets the arguments to call the resolver as follows: + * + * tpnt GOT_TABLE[1], [lr-4] + * reloc-entry &GOT-&GOT_TABLE[3], (ip - lr - 4)/4 + * + * (I.e. 'GOT' means the table entry for this function, the thing for which + * ip holds the address.) The reloc-entry is passed as an index, since + * since the GOT table has 4 byte entries the code needs to divide this by 4 + * to get the actual index. + * + * John Bowler, August 13, 2005 - determined by experiment and examination + * of generated ARM code (there was no documentation...) + * + * This code is all ARM code - not thumb - _dl_linux_resolver may, itself, + * be thumb, in which case the linker will insert the appropriate glue. A + * call from thumb to the PLT hits the trampoline code described above. + * This code (now) builds a proper stack frame. + * + * The code does *not* set sb (r9,v6) - to do that the basic PLT instructions + * would need to save sb and load the new value and that would require + * support in the linker since it generates those instructions. (Also note + * that linux/uclibc seems to be using r10 - sl - as a PIC base register - see + * dl-startup.c). */ - -#define sl r10 -#define fp r11 -#define ip r12 +#include .text +.align 4 @ 16 byte boundary and there are 32 bytes below (arm case) +#if !defined(__thumb__) +.arm .globl _dl_linux_resolve .type _dl_linux_resolve,%function -.align 4; _dl_linux_resolve: - stmdb sp!, {r0, r1, r2, r3, sl, fp} - sub r1, ip, lr - sub r1, r1, #4 - add r1, r1, r1 - ldr r0, [lr, #-4] - mov r3,r0 + @ _dl_linux_resolver is a standard subroutine call, therefore it + @ preserves everything except r0-r3 (a1-a4), ip and lr. This + @ function must branch to the real function, and that expects + @ r0-r3 and lr to be as they were before the whole PLT stuff - + @ ip can be trashed. + stmdb sp!, {r0-r3} + ldr r0, [lr, #-4] @ r0 := [lr-4] (GOT_TABLE[1]) + sub r1, lr, ip @ r1 := (lr-ip) (a multple of 4) + mvn r1, r1, ASR #2 @ r1 := ~((lr-ip)>>2), since -x = (1+~x) + @ ~x = -x-1, therefore ~(r1>>2) = (-((lr-ip)>>2)-1) + @ = - ((lr-ip)/4) - 1 = (ip - lr - 4)/4, as required bl _dl_linux_resolver - mov ip, r0 - ldmia sp!, {r0, r1, r2, r3, sl, fp, lr} - mov pc,ip + mov ip, r0 + ldmia sp!, {r0-r3, lr} +#if defined(__THUMB_INTERWORK__) + bx ip +#else + mov pc, ip +#endif +.size _dl_linux_resolve, .-_dl_linux_resolve +#else + @ In the thumb case _dl_linux_resolver is thumb. If a bl is used + @ from arm code the linker will insert a stub call which, with + @ binutils 2.16, is not PIC. Since this code is accessed by an + @ ldr pc the reasonable fix is to make _dl_linux_resolve thumb too. +.thumb +.globl _dl_linux_resolve +.thumb_func +.type _dl_linux_resolve,%function + +_dl_linux_resolve: + @ _dl_linux_resolver is a standard subroutine call, therefore it + @ preserves everything except r0-r3 (a1-a4), ip and lr. This + @ function must branch to the real function, and that expects + @ r0-r3 and lr to be as they were before the whole PLT stuff - + @ ip can be trashed. + push {r0-r3} + mov r1, lr @ &GOT_TABLE[2] + sub r0, r1, #4 + mov r2, ip @ &GOT[n] + ldr r0, [r0] @ r0 := GOT_TABLE[1] + @ for the function call r1 := n-3 + sub r1, r2 + asr r1, r1, #2 + mvn r1, r1 @ exactly as in the arm code above + + bl _dl_linux_resolver + + @ r0 contains the branch address, the return address is above + @ the saved r0..r3 + mov ip, r0 + ldr r1, [sp, #16] + mov lr, r1 + pop {r0-r3} + add sp, #4 + bx ip + .size _dl_linux_resolve, .-_dl_linux_resolve +#endif --- uClibc-0.9.28/.pc/thumb-resolve.patch/ldso/ldso/dl-hash.c 2005-08-17 15:49:41.000000000 -0700 +++ uClibc-0.9.28/ldso/ldso/dl-hash.c 2005-09-21 18:56:31.181689732 -0700 @@ -182,28 +182,52 @@ strtab = (char *) (tpnt->dynamic_info[DT_STRTAB]); for (si = tpnt->elf_buckets[hn]; si != STN_UNDEF; si = tpnt->chains[si]) { + char *result; sym = &symtab[si]; - if (type_class & (sym->st_shndx == SHN_UNDEF)) + if (sym->st_shndx == SHN_UNDEF) continue; - if (_dl_strcmp(strtab + sym->st_name, name) != 0) + if (ELF_ST_TYPE(sym->st_info) > STT_FUNC +#if defined(__arm__) || defined(__thumb__) + /* On ARM (only) STT_ARM_TFUNC is a function + * and has a value >STT_FUNC, so this must + * be checked specially. + */ + && ELF_ST_TYPE(sym->st_info) != STT_ARM_TFUNC +#endif + ) continue; - if (sym->st_value == 0) + if (_dl_strcmp(strtab + sym->st_name, name) != 0) continue; - if (ELF_ST_TYPE(sym->st_info) > STT_FUNC) +#if 0 + /* I don't know how to write this test - need to test shndx + * to see if it is the PLT for this module. + */ + if ((type_class & ELF_RTYPE_CLASS_PLT) && some test) continue; +#endif +#if defined(__arm__) || defined(__thumb__) + /* On ARM the caller needs to know that STT_ARM_TFUNC + * is a thumb function call, this is now indicated by + * setting the low bit of the value (and newer binutils + * will do this and record STT_FUNC). + */ + result = (char*)tpnt->loadaddr + (sym->st_value | + (ELF_ST_TYPE(sym->st_info) == STT_ARM_TFUNC)); +#else + result = (char*)tpnt->loadaddr + sym->st_value; +#endif switch (ELF_ST_BIND(sym->st_info)) { case STB_WEAK: -#if 0 -/* Perhaps we should support old style weak symbol handling - * per what glibc does when you export LD_DYNAMIC_WEAK */ + /* Record for use later if we can't find a global. */ if (!weak_result) - weak_result = (char *)tpnt->loadaddr + sym->st_value; + weak_result = result; break; -#endif + case STB_GLOBAL: - return (char*)tpnt->loadaddr + sym->st_value; + return result; + default: /* Local symbols not handled here */ break; }