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authorjohannst <johannes.stoelp@gmail.com>2021-04-26 21:34:20 +0200
committerjohannst <johannes.stoelp@gmail.com>2021-04-26 21:34:20 +0200
commitc7fddba6753757be7def5670d8388e0d20bd4eab (patch)
treee4a1b90215d6590b932e9b8a9263bf0b54f6eba0 /04_dynld_nostd/dynld.c
parent05f740db6fe966d32256d4ed3b897f7b3e051fff (diff)
downloaddynld-c7fddba6753757be7def5670d8388e0d20bd4eab.tar.gz
dynld-c7fddba6753757be7def5670d8388e0d20bd4eab.zip
setup routine for got + brush up some comments
Diffstat (limited to '04_dynld_nostd/dynld.c')
-rw-r--r--04_dynld_nostd/dynld.c85
1 files changed, 61 insertions, 24 deletions
diff --git a/04_dynld_nostd/dynld.c b/04_dynld_nostd/dynld.c
index a7b0fe1..30e60d5 100644
--- a/04_dynld_nostd/dynld.c
+++ b/04_dynld_nostd/dynld.c
@@ -471,17 +471,22 @@ static void resolve_relocs(const Dso* dso, const LinkMap* map) {
/// Dynamic Linking (lazy resolve)
/// ------------------------------
+// Mark `dynresolve_entry` as `naked` because we want to fully control the
+// stack layout.
+//
// `noreturn` Function never returns.
// `naked` Don't generate prologue/epilogue sequences.
__attribute__((noreturn)) __attribute__((naked)) static void dynresolve_entry() {
asm("dynresolve_entry:\n\t"
- // Pop arguments on stack from PLT0 into rdi/rsi argument registers.
+ // Pop arguments of PLT0 from the stack into rdi/rsi registers
+ // These are the first two integer arguments registers as defined by
+ // the SystemV abi and hence will be passed correctly to `dynresolve`.
"pop %rdi\n\t" // GOT[1] entry (pushed by PLT0 pad).
"pop %rsi\n\t" // Relocation index (pushed by PLT0 pad).
"jmp dynresolve");
}
-// `used` Foce to emit code for function.
+// `used` Force to emit code for function.
// `unused` Don't warn about unused function.
__attribute__((used)) __attribute__((unused)) static void dynresolve(uint64_t got1, uint64_t reloc_idx) {
ERROR_ON(true,
@@ -492,6 +497,50 @@ __attribute__((used)) __attribute__((unused)) static void dynresolve(uint64_t go
}
+/// ---------
+/// Setup GOT
+/// ---------
+
+void setup_got(const Dso* dso) {
+ // GOT entries {0, 1, 2} have special meaning for the dynamic link process.
+ // GOT[0] Hold address of dynamic structure referenced by `_DYNAMIC`.
+ // GOT[1] Argument pushed by PLT0 pad on stack before jumping to GOT[2],
+ // can be freely used by dynamic linker to identify the caller.
+ // GOT[2] Jump target for PLT0 pad when doing dynamic resolve (lazy).
+ //
+ // We will not make use of GOT[0]/GOT[1] here but only GOT[2].
+
+ // Install dynamic resolve handler. This handler is used when binding
+ // symbols lazy.
+ //
+ // The handler is installed in the `GOT[2]` entry for each DSO object that
+ // has a GOT. It is jumped to from the `PLT0` pad with the following two
+ // arguments passed via the stack:
+ // - GOT[1] entry.
+ // - Relocation index.
+ //
+ // This can be seen in the following disassembly of section .plt:
+ // PLT0:
+ // push QWORD PTR [rip+0x3002] # GOT[1]
+ // jmp QWORD PTR [rip+0x3004] # GOT[2]
+ // nop DWORD PTR [rax+0x0]
+ //
+ // PLT1:
+ // jmp QWORD PTR [rip+0x3002] # GOT[3]; entry for <PLT1>
+ // push 0x0 # Relocation index
+ // jmp 401000 <PLT0>
+ //
+ // The handler at GOT[2] can pop the arguments as follows:
+ // pop %rdi // GOT[1] entry.
+ // pop %rsi // Relocation index.
+
+ if (dso->dynamic[DT_PLTGOT] != 0) {
+ uint64_t* got = (uint64_t*)(dso->base + dso->dynamic[DT_PLTGOT]);
+ got[2] = (uint64_t)&dynresolve_entry;
+ }
+}
+
+
/// -------------------------
/// Dynamic Linker Entrypoint
/// -------------------------
@@ -517,7 +566,7 @@ void dl_entry(const uint64_t* prctx) {
ERROR_ON(dso_prog.needed_len != 1, "User program should have exactly one dependency!");
const Dso dso_lib = map_dependency(get_str(&dso_prog, dso_prog.needed[0]));
- ERROR_ON(dso_lib.needed_len != 0, "The programs dependency should be stand-alone!");
+ ERROR_ON(dso_lib.needed_len != 0, "The library should not have any further dependencies!");
// Setup LinkMap.
//
@@ -537,29 +586,17 @@ void dl_entry(const uint64_t* prctx) {
// Initialize main program.
init(&dso_prog);
- // Install dynamic resolve handler (lazy resolve).
+ // Setup global offset table (GOT).
//
- // The dynamic resolve handler is used when binding symbols lazily. Hence
- // it should not be called in this example as we resolve all relocations
- // before transfering controll to the user program.
+ // This installs a dynamic resolve handler, which should not be called in
+ // this example as we resolve all relocations before transferring control
+ // to the user program.
// For safety we still install a handler which will terminate the program
- // once it is called, if we wouldn't install this handler the program would
- // most probably SEGFAULT.
- //
- // The handler is installed in the `GOT[2]` entry for each DSO object that
- // has an GOT. It is jumped to from the `PLT0` pad with the following two
- // arguments passed via the stack:
- // pop %rdi // GOT[1] entry.
- // pop %rsi // Relocation index.
- {
- uint64_t* got = (uint64_t*)(dso_prog.base + dso_prog.dynamic[DT_PLTGOT]);
- // Jump target for PLT0 pad.
- got[2] = (uint64_t)&dynresolve_entry;
- }
-
- // GOT[0]; // Hold address of dynamic structure referenced by `_DYNAMIC`.
- // GOT[1]; // Pushed by PLT0 pad on stack before jumping to got[2] -> Word the dynamic linker can use to identify the caller.
- // GOT[2]; // Jump target for PLT0 pad (when doing lazy resolving).
+ // once it is called. If we wouldn't install this handler the program would
+ // most probably SEGFAULT in case symbol binding would be invoked during
+ // runtime.
+ setup_got(&dso_lib);
+ setup_got(&dso_prog);
// Transfer control to user program.
dso_prog.entry();