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@ -905,7 +905,7 @@ void release_global_lock();
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//
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u32 compute_crc32(u32 crc, u8 *buf, i64 len);
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std::vector<u8> crc32_solve(i64 datalen, u32 current, u32 want);
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std::vector<u8> crc32_solve(u32 current, u32 desired);
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//
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// compress.cc
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175
common/crc32.cc
175
common/crc32.cc
@ -1,42 +1,3 @@
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// This file contains a function to "forge" a CRC. That is, given a piece
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// of data and a desired CRC32 value, crc32_solve() returns a binary blob
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// to add to the end of the original data to yield the desired CRC32
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// value. A trailing garbage is ignored for many bianry file formats, so
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// you can create a file with a desired CRC using crc32_solve(). We need
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// it for --separate-debug-info.
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//
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// The code in this file is based on Mark Adler's "spoof" program. You can
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// obtain the original copy of it at the following URL:
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//
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// https://github.com/madler/spoof/blob/master/spoof.c
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//
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// Below is the original license:
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/* spoof.c -- modify a message to have a desired CRC
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Copyright (C) 2012, 2014, 2016, 2018, 2021 Mark Adler
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This software is provided 'as-is', without any express or implied warranty.
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In no event will the authors be held liable for any damages arising from the
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use of this software.
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Permission is granted to anyone to use this software for any purpose,
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including commercial applications, and to alter it and redistribute it
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freely, subject to the following restrictions:
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1. The origin of this software must not be misrepresented; you must not claim
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that you wrote the original software. If you use this software in a
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product, an acknowledgment in the product documentation would be
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appreciated but is not required.
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2. Altered source versions must be plainly marked as such, and must not be
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misrepresented as being the original software.
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3. This notice may not be removed or altered from any source distribution.
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Mark Adler
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madler@alumni.caltech.edu
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*/
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#include "common.h"
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#include <tbb/parallel_for_each.h>
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@ -44,101 +5,29 @@
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namespace mold {
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static constexpr i64 deg = 32;
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static constexpr u32 poly = 0xedb88320;
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// This function "forges" a CRC. That is, given the current and a desired
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// CRC32 value, crc32_solve() returns a binary blob to add to the end of
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// the original data to yield the desired CRC. Trailing garbage is ignored
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// by many bianry file formats, so you can create a file with a desired
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// CRC using crc32_solve(). We need it for --separate-debug-file.
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std::vector<u8> crc32_solve(u32 current, u32 desired) {
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constexpr u32 poly = 0xedb88320;
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u32 x = ~desired;
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using Mat = std::array<u32, deg>;
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static constexpr u32 gf2_matrix_times(const Mat &mat, u32 vec) {
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u32 n = 0;
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for (i64 i = 0; vec; vec >>= 1, i++)
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if (vec & 1)
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n ^= mat[i];
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return n;
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}
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static constexpr Mat gf2_matrix_square(const Mat &mat) {
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Mat sq;
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for (i64 i = 0; i < deg; i++)
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sq[i] = gf2_matrix_times(mat, mat[i]);
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return sq;
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}
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static consteval std::array<Mat, 64> get_crc_zero_powers() {
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std::array<Mat, 64> p;
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p[1][0] = poly;
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for (i64 n = 1; n < deg; n++)
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p[1][n] = 1 << (n - 1);
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p[0] = gf2_matrix_square(p[1]);
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p[1] = gf2_matrix_square(p[0]);
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p[0] = gf2_matrix_square(p[1]);
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p[1] = gf2_matrix_square(p[0]);
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for (i64 i = 2; i < 64; i++)
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p[i] = gf2_matrix_square(p[i - 1]);
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return p;
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}
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// Efficiently apply len zero bytes to crc, returning the resulting crc.
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static u32 crc_zeros(u32 crc, i64 len) {
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static constexpr std::array<Mat, 64> power = get_crc_zero_powers();
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// apply len zeros to crc
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if (crc)
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for (i64 n = 0; len; len >>= 1, n++)
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if (len & 1)
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crc = gf2_matrix_times(power[n], crc);
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return crc;
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}
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// Solve M x = c for x
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static std::vector<bool> gf2_matrix_solve(std::vector<u32> M, u32 c) {
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i64 cols = M.size();
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i64 rows = deg;
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// create adjoining identity matrix
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std::vector<std::vector<bool>> inv(cols);
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for (i64 i = 0; i < cols; i++) {
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inv[i].resize(cols);
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inv[i][i] = 1;
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// Each iteration computes x = (x * x^-1) mod poly.
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for (i64 i = 0; i < 32; i++) {
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x = std::rotl(x, 1);
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x ^= (x & 1) * (poly << 1);
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}
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for (i64 j = 0; j < rows; j++) {
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u32 pos = 1 << j;
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x ^= ~current;
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if ((M[j] & pos) == 0) {
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i64 k;
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for (k = j + 1; k < cols; k++)
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if (M[k] & pos)
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break;
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if (k == cols) {
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std::cerr << "mold: internal error: crc32_solve: no solution\n";
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exit(1);
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}
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std::swap(M[j], M[k]);
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std::swap(inv[j], inv[k]);
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}
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for (i64 k = 0; k < cols; k++) {
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if (k != j && (M[k] & pos)) {
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M[k] ^= M[j];
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for (i64 i = 0; i < cols; i++)
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inv[k][i] = inv[k][i] ^ inv[j][i];
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}
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}
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}
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// multiply inverse by c to get result x
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std::vector<bool> x(cols);
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for (i64 j = 0; c; c >>= 1, j++)
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if (c & 1)
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for (i64 i = 0; i < cols; i++)
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x[i] = x[i] ^ inv[j][i];
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return x;
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std::vector<u8> out(4);
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out[0] = x;
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out[1] = x >> 8;
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out[2] = x >> 16;
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out[3] = x >> 24;
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return out;
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}
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// Compute a CRC for given data in parallel
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@ -168,30 +57,4 @@ u32 compute_crc32(u32 crc, u8 *buf, i64 len) {
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return crc;
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}
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// Given input data and a desired CRC value, this function returns
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// a binary blob such that if the blob is appended to the end of the
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// input data, the entire data's CRC value becomes the desired CRC.
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std::vector<u8> crc32_solve(i64 datalen, u32 current, u32 desired) {
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// Compute the CRC for the given data and the all-zero trailer
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constexpr i64 trailer_len = 16;
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current = ~crc_zeros(~current, trailer_len);
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// Compute CRCs for all bits in the trailer
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std::vector<u32> mat;
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for (i64 i = 0; i < trailer_len * 8; i++) {
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u8 buf[trailer_len] = {};
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buf[i / 8] = 1 << (i % 8);
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mat.push_back(~crc32_z(~crc_zeros(0, datalen), buf, sizeof(buf)));
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}
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// Find desired trailer data
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std::vector<bool> sol = gf2_matrix_solve(mat, desired ^ current);
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std::vector<u8> out(trailer_len);
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for (i64 i = 0; i < trailer_len * 8; i++)
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if (sol[i])
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out[i / 8] |= 1 << (i % 8);
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return out;
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}
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} // namespace mold
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@ -85,6 +85,8 @@ Options:
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--defsym=SYMBOL=VALUE Define a symbol alias
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--demangle Demangle C++ symbols in log messages (default)
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--no-demangle
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--detach Create separate debug info file in the background (default)
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--no-detach
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--enable-new-dtags Emit DT_RUNPATH for --rpath (default)
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--disable-new-dtags Emit DT_RPATH for --rpath
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--execute-only Make executable segments unreadable
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@ -759,6 +761,10 @@ std::vector<std::string> parse_nonpositional_args(Context<E> &ctx) {
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ctx.arg.demangle = true;
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} else if (read_flag("no-demangle")) {
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ctx.arg.demangle = false;
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} else if (read_flag("detach")) {
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ctx.arg.detach = true;
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} else if (read_flag("no-detach")) {
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ctx.arg.detach = false;
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} else if (read_flag("default-symver")) {
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ctx.arg.default_symver = true;
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} else if (read_flag("noinhibit-exec")) {
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@ -1413,6 +1419,10 @@ std::vector<std::string> parse_nonpositional_args(Context<E> &ctx) {
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if (ctx.arg.shared && warn_shared_textrel)
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ctx.arg.warn_textrel = true;
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// We don't want the background process to write to stdout
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if (ctx.arg.stats || ctx.arg.perf)
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ctx.arg.detach = false;
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ctx.arg.undefined.push_back(ctx.arg.entry);
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for (i64 i = 0; i < ctx.arg.defsyms.size(); i++) {
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@ -1740,6 +1740,7 @@ struct Context {
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bool color_diagnostics = false;
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bool default_symver = false;
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bool demangle = true;
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bool detach = true;
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bool discard_all = false;
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bool discard_locals = false;
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bool eh_frame_hdr = true;
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@ -3058,7 +3058,7 @@ void write_separate_debug_file(Context<E> &ctx) {
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// We want to write to the debug info file in background so that the
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// user doesn't have to wait for it to complete.
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if (!ctx.arg.stats && !ctx.arg.perf)
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if (ctx.arg.detach)
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notify_parent();
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// A debug info file contains all sections as the original file, though
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@ -3102,13 +3102,13 @@ void write_separate_debug_file(Context<E> &ctx) {
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// Reverse-compute a CRC32 value so that the CRC32 checksum embedded to
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// the .gnu_debuglink section in the main executable matches with the
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// debug info file's CRC32 checksum.
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std::vector<u8> &buf2 = ctx.output_file->buf2;
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i64 datalen = filesize + buf2.size();
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u32 crc = compute_crc32(0, ctx.buf, filesize);
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crc = compute_crc32(crc, buf2.data(), buf2.size());
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std::vector<u8> trailer = crc32_solve(datalen, crc, ctx.gnu_debuglink->crc32);
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std::vector<u8> &buf2 = ctx.output_file->buf2;
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if (!buf2.empty())
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crc = compute_crc32(crc, buf2.data(), buf2.size());
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std::vector<u8> trailer = crc32_solve(crc, ctx.gnu_debuglink->crc32);
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append(ctx.output_file->buf2, trailer);
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ctx.output_file->close(ctx);
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}
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