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mesa/src/amd/common/ac_rtld.c
Antonio Ospite ddf2aa3a4d build: avoid redefining unreachable() which is standard in C23 
In the C23 standard unreachable() is now a predefined function-like
macro in <stddef.h>

See https://android.googlesource.com/platform/bionic/+/HEAD/docs/c23.md#is-now-a-predefined-function_like-macro-in

And this causes build errors when building for C23:

-----------------------------------------------------------------------
In file included from ../src/util/log.h:30,
                 from ../src/util/log.c:30:
../src/util/macros.h:123:9: warning: "unreachable" redefined
  123 | #define unreachable(str)    \
      |         ^~~~~~~~~~~
In file included from ../src/util/macros.h:31:
/usr/lib/gcc/x86_64-linux-gnu/14/include/stddef.h:456:9: note: this is the location of the previous definition
  456 | #define unreachable() (__builtin_unreachable ())
      |         ^~~~~~~~~~~
-----------------------------------------------------------------------

So don't redefine it with the same name, but use the name UNREACHABLE()
to also signify it's a macro.

Using a different name also makes sense because the behavior of the
macro was extending the one of __builtin_unreachable() anyway, and it
also had a different signature, accepting one argument, compared to the
standard unreachable() with no arguments.

This change improves the chances of building mesa with the C23 standard,
which for instance is the default in recent AOSP versions.

All the instances of the macro, including the definition, were updated
with the following command line:

  git grep -l '[^_]unreachable(' -- "src/**" | sort | uniq | \
  while read file; \
  do \
    sed -e 's/\([^_]\)unreachable(/\1UNREACHABLE(/g' -i "$file"; \
  done && \
  sed -e 's/#undef unreachable/#undef UNREACHABLE/g' -i src/intel/isl/isl_aux_info.c

Reviewed-by: Erik Faye-Lund <erik.faye-lund@collabora.com>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/36437>
2025-07-31 17:49:42 +00:00

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/*
* Copyright 2014-2019 Advanced Micro Devices, Inc.
*
* SPDX-License-Identifier: MIT
*/
#include "ac_rtld.h"
#include "ac_binary.h"
#include "ac_gpu_info.h"
#include "util/compiler.h"
#include "util/u_dynarray.h"
#include "util/u_math.h"
#include <gelf.h>
#include <libelf.h>
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifndef EM_AMDGPU
// Old distributions may not have this enum constant
#define EM_AMDGPU 224
#endif
#ifndef R_AMDGPU_NONE
#define R_AMDGPU_NONE 0
#define R_AMDGPU_ABS32_LO 1
#define R_AMDGPU_ABS32_HI 2
#define R_AMDGPU_ABS64 3
#define R_AMDGPU_REL32 4
#define R_AMDGPU_REL64 5
#define R_AMDGPU_ABS32 6
#define R_AMDGPU_GOTPCREL 7
#define R_AMDGPU_GOTPCREL32_LO 8
#define R_AMDGPU_GOTPCREL32_HI 9
#define R_AMDGPU_REL32_LO 10
#define R_AMDGPU_REL32_HI 11
#define R_AMDGPU_RELATIVE64 13
#endif
/* For the UMR disassembler. */
#define DEBUGGER_END_OF_CODE_MARKER 0xbf9f0000 /* invalid instruction */
#define DEBUGGER_NUM_MARKERS 5
struct ac_rtld_section {
bool is_rx : 1;
bool is_pasted_text : 1;
uint64_t offset;
const char *name;
};
struct ac_rtld_part {
Elf *elf;
struct ac_rtld_section *sections;
unsigned num_sections;
};
static void report_errorvf(const char *fmt, va_list va)
{
fprintf(stderr, "ac_rtld error: ");
vfprintf(stderr, fmt, va);
fprintf(stderr, "\n");
}
static void report_errorf(const char *fmt, ...) PRINTFLIKE(1, 2);
static void report_errorf(const char *fmt, ...)
{
va_list va;
va_start(va, fmt);
report_errorvf(fmt, va);
va_end(va);
}
static void report_elf_errorf(const char *fmt, ...) PRINTFLIKE(1, 2);
static void report_elf_errorf(const char *fmt, ...)
{
va_list va;
va_start(va, fmt);
report_errorvf(fmt, va);
va_end(va);
fprintf(stderr, "ELF error: %s\n", elf_errmsg(elf_errno()));
}
/**
* Open a binary consisting of one or more shader parts.
*
* \param binary the uninitialized struct
* \param i binary opening parameters
*/
bool ac_rtld_open(struct ac_rtld_binary *binary, struct ac_rtld_open_info i)
{
/* One of the libelf implementations
* (http://www.mr511.de/software/english.htm) requires calling
* elf_version() before elf_memory().
*/
elf_version(EV_CURRENT);
memset(binary, 0, sizeof(*binary));
memcpy(&binary->options, &i.options, sizeof(binary->options));
binary->wave_size = i.wave_size;
binary->gfx_level = i.info->gfx_level;
binary->num_parts = i.num_parts;
binary->parts = calloc(sizeof(*binary->parts), i.num_parts);
if (!binary->parts)
return false;
uint64_t pasted_text_size = 0;
uint64_t rx_align = 1;
uint64_t rx_size = 0;
uint64_t exec_size = 0;
#define report_if(cond) \
do { \
if ((cond)) { \
report_errorf(#cond); \
goto fail; \
} \
} while (false)
#define report_elf_if(cond) \
do { \
if ((cond)) { \
report_elf_errorf(#cond); \
goto fail; \
} \
} while (false)
/* First pass over all parts: open ELFs, pre-determine the placement of
* sections in the memory image. */
if (binary->options.halt_at_entry)
pasted_text_size += 4;
for (unsigned part_idx = 0; part_idx < i.num_parts; ++part_idx) {
struct ac_rtld_part *part = &binary->parts[part_idx];
part->elf = elf_memory((char *)i.elf_ptrs[part_idx], i.elf_sizes[part_idx]);
report_elf_if(!part->elf);
const Elf64_Ehdr *ehdr = elf64_getehdr(part->elf);
report_elf_if(!ehdr);
report_if(ehdr->e_machine != EM_AMDGPU);
size_t section_str_index;
size_t num_shdrs;
report_elf_if(elf_getshdrstrndx(part->elf, &section_str_index) < 0);
report_elf_if(elf_getshdrnum(part->elf, &num_shdrs) < 0);
part->num_sections = num_shdrs;
part->sections = calloc(sizeof(*part->sections), num_shdrs);
report_if(!part->sections);
Elf_Scn *section = NULL;
bool first_section = true;
while ((section = elf_nextscn(part->elf, section))) {
Elf64_Shdr *shdr = elf64_getshdr(section);
struct ac_rtld_section *s = &part->sections[elf_ndxscn(section)];
s->name = elf_strptr(part->elf, section_str_index, shdr->sh_name);
report_elf_if(!s->name);
/* Cannot actually handle linked objects yet */
report_elf_if(shdr->sh_addr != 0);
/* Alignment must be 0 or a power of two */
report_elf_if(shdr->sh_addralign & (shdr->sh_addralign - 1));
uint64_t sh_align = MAX2(shdr->sh_addralign, 1);
if (shdr->sh_flags & SHF_ALLOC && shdr->sh_type != SHT_NOTE) {
report_if(shdr->sh_flags & SHF_WRITE);
s->is_rx = true;
if (shdr->sh_flags & SHF_EXECINSTR) {
report_elf_if(shdr->sh_size & 3);
if (!strcmp(s->name, ".text"))
s->is_pasted_text = true;
exec_size += shdr->sh_size;
}
if (s->is_pasted_text) {
if (part_idx > 0 && first_section && binary->options.waitcnt_wa) {
/* Reserve a dword at the beginning of this part. */
exec_size += 4;
pasted_text_size += 4;
first_section = false;
}
s->offset = pasted_text_size;
pasted_text_size += shdr->sh_size;
} else {
rx_align = align(rx_align, sh_align);
rx_size = align(rx_size, sh_align);
s->offset = rx_size;
rx_size += shdr->sh_size;
}
}
}
}
binary->rx_end_markers = pasted_text_size;
pasted_text_size += 4 * DEBUGGER_NUM_MARKERS;
/* Second pass: Adjust offsets of non-pasted text sections. */
binary->rx_size = pasted_text_size;
binary->rx_size = align(binary->rx_size, rx_align);
for (unsigned part_idx = 0; part_idx < i.num_parts; ++part_idx) {
struct ac_rtld_part *part = &binary->parts[part_idx];
size_t num_shdrs;
elf_getshdrnum(part->elf, &num_shdrs);
for (unsigned j = 0; j < num_shdrs; ++j) {
struct ac_rtld_section *s = &part->sections[j];
if (s->is_rx && !s->is_pasted_text)
s->offset += binary->rx_size;
}
}
binary->rx_size += rx_size;
binary->exec_size = exec_size;
return true;
#undef report_if
#undef report_elf_if
fail:
ac_rtld_close(binary);
return false;
}
void ac_rtld_close(struct ac_rtld_binary *binary)
{
for (unsigned i = 0; i < binary->num_parts; ++i) {
struct ac_rtld_part *part = &binary->parts[i];
free(part->sections);
elf_end(part->elf);
}
free(binary->parts);
binary->parts = NULL;
binary->num_parts = 0;
}
static bool get_section_by_name(struct ac_rtld_part *part, const char *name, const char **data,
size_t *nbytes)
{
for (unsigned i = 0; i < part->num_sections; ++i) {
struct ac_rtld_section *s = &part->sections[i];
if (s->name && !strcmp(name, s->name)) {
Elf_Scn *target_scn = elf_getscn(part->elf, i);
Elf_Data *target_data = elf_getdata(target_scn, NULL);
if (!target_data) {
report_elf_errorf("ac_rtld: get_section_by_name: elf_getdata");
return false;
}
*data = target_data->d_buf;
*nbytes = target_data->d_size;
return true;
}
}
return false;
}
bool ac_rtld_get_section_by_name(struct ac_rtld_binary *binary, const char *name, const char **data,
size_t *nbytes)
{
assert(binary->num_parts == 1);
return get_section_by_name(&binary->parts[0], name, data, nbytes);
}
bool ac_rtld_read_config(const struct radeon_info *info, struct ac_rtld_binary *binary,
struct ac_shader_config *config)
{
for (unsigned i = 0; i < binary->num_parts; ++i) {
struct ac_rtld_part *part = &binary->parts[i];
const char *config_data;
size_t config_nbytes;
if (!get_section_by_name(part, ".AMDGPU.config", &config_data, &config_nbytes))
return false;
/* TODO: be precise about scratch use? */
struct ac_shader_config c = {0};
ac_parse_shader_binary_config(config_data, config_nbytes, binary->wave_size, info, &c);
config->num_sgprs = MAX2(config->num_sgprs, c.num_sgprs);
config->num_vgprs = MAX2(config->num_vgprs, c.num_vgprs);
config->spilled_sgprs = MAX2(config->spilled_sgprs, c.spilled_sgprs);
config->spilled_vgprs = MAX2(config->spilled_vgprs, c.spilled_vgprs);
config->scratch_bytes_per_wave =
MAX2(config->scratch_bytes_per_wave, c.scratch_bytes_per_wave);
assert(i == 0 || config->float_mode == c.float_mode);
config->float_mode = c.float_mode;
/* SPI_PS_INPUT_ENA/ADDR can't be combined. Only the value from
* the main shader part is used. */
assert(config->spi_ps_input_ena == 0 && config->spi_ps_input_addr == 0);
config->spi_ps_input_ena = c.spi_ps_input_ena;
config->spi_ps_input_addr = c.spi_ps_input_addr;
/* TODO: Should we combine these somehow? It's currently only
* used for radeonsi's compute, where multiple parts aren't used. */
assert(config->rsrc1 == 0 && config->rsrc2 == 0);
config->rsrc1 = c.rsrc1;
config->rsrc2 = c.rsrc2;
}
return true;
}
static bool resolve_symbol(const struct ac_rtld_upload_info *u, unsigned part_idx,
const Elf64_Sym *sym, const char *name, uint64_t *value)
{
if (sym->st_shndx == SHN_UNDEF) {
if (u->get_external_symbol(u->binary->gfx_level, u->cb_data, name, value))
return true;
report_errorf("symbol %s: unknown", name);
return false;
}
struct ac_rtld_part *part = &u->binary->parts[part_idx];
if (sym->st_shndx >= part->num_sections) {
report_errorf("symbol %s: section out of bounds", name);
return false;
}
struct ac_rtld_section *s = &part->sections[sym->st_shndx];
if (!s->is_rx) {
report_errorf("symbol %s: bad section", name);
return false;
}
uint64_t section_base = u->rx_va + s->offset;
*value = section_base + sym->st_value;
return true;
}
static bool apply_relocs(const struct ac_rtld_upload_info *u, unsigned part_idx,
const Elf64_Shdr *reloc_shdr, const Elf_Data *reloc_data)
{
#define report_if(cond) \
do { \
if ((cond)) { \
report_errorf(#cond); \
return false; \
} \
} while (false)
#define report_elf_if(cond) \
do { \
if ((cond)) { \
report_elf_errorf(#cond); \
return false; \
} \
} while (false)
struct ac_rtld_part *part = &u->binary->parts[part_idx];
Elf_Scn *target_scn = elf_getscn(part->elf, reloc_shdr->sh_info);
report_elf_if(!target_scn);
Elf_Data *target_data = elf_getdata(target_scn, NULL);
report_elf_if(!target_data);
Elf_Scn *symbols_scn = elf_getscn(part->elf, reloc_shdr->sh_link);
report_elf_if(!symbols_scn);
Elf64_Shdr *symbols_shdr = elf64_getshdr(symbols_scn);
report_elf_if(!symbols_shdr);
uint32_t strtabidx = symbols_shdr->sh_link;
Elf_Data *symbols_data = elf_getdata(symbols_scn, NULL);
report_elf_if(!symbols_data);
const Elf64_Sym *symbols = symbols_data->d_buf;
size_t num_symbols = symbols_data->d_size / sizeof(Elf64_Sym);
struct ac_rtld_section *s = &part->sections[reloc_shdr->sh_info];
report_if(!s->is_rx);
const char *orig_base = target_data->d_buf;
char *dst_base = u->rx_ptr + s->offset;
uint64_t va_base = u->rx_va + s->offset;
Elf64_Rel *rel = reloc_data->d_buf;
size_t num_relocs = reloc_data->d_size / sizeof(*rel);
for (size_t i = 0; i < num_relocs; ++i, ++rel) {
size_t r_sym = ELF64_R_SYM(rel->r_info);
unsigned r_type = ELF64_R_TYPE(rel->r_info);
const char *orig_ptr = orig_base + rel->r_offset;
char *dst_ptr = dst_base + rel->r_offset;
uint64_t va = va_base + rel->r_offset;
uint64_t symbol;
uint64_t addend;
if (r_sym == STN_UNDEF) {
symbol = 0;
} else {
report_elf_if(r_sym >= num_symbols);
const Elf64_Sym *sym = &symbols[r_sym];
const char *symbol_name = elf_strptr(part->elf, strtabidx, sym->st_name);
report_elf_if(!symbol_name);
if (!resolve_symbol(u, part_idx, sym, symbol_name, &symbol))
return false;
}
/* TODO: Should we also support .rela sections, where the
* addend is part of the relocation record? */
/* Load the addend from the ELF instead of the destination,
* because the destination may be in VRAM. */
switch (r_type) {
case R_AMDGPU_ABS32:
case R_AMDGPU_ABS32_LO:
case R_AMDGPU_ABS32_HI:
case R_AMDGPU_REL32:
case R_AMDGPU_REL32_LO:
case R_AMDGPU_REL32_HI:
addend = *(const uint32_t *)orig_ptr;
break;
case R_AMDGPU_ABS64:
case R_AMDGPU_REL64:
addend = *(const uint64_t *)orig_ptr;
break;
default:
report_errorf("unsupported r_type == %u", r_type);
return false;
}
uint64_t abs = symbol + addend;
switch (r_type) {
case R_AMDGPU_ABS32:
assert((uint32_t)abs == abs);
FALLTHROUGH;
case R_AMDGPU_ABS32_LO:
*(uint32_t *)dst_ptr = util_cpu_to_le32(abs);
break;
case R_AMDGPU_ABS32_HI:
*(uint32_t *)dst_ptr = util_cpu_to_le32(abs >> 32);
break;
case R_AMDGPU_ABS64:
*(uint64_t *)dst_ptr = util_cpu_to_le64(abs);
break;
case R_AMDGPU_REL32:
assert((int64_t)(int32_t)(abs - va) == (int64_t)(abs - va));
FALLTHROUGH;
case R_AMDGPU_REL32_LO:
*(uint32_t *)dst_ptr = util_cpu_to_le32(abs - va);
break;
case R_AMDGPU_REL32_HI:
*(uint32_t *)dst_ptr = util_cpu_to_le32((abs - va) >> 32);
break;
case R_AMDGPU_REL64:
*(uint64_t *)dst_ptr = util_cpu_to_le64(abs - va);
break;
default:
UNREACHABLE("bad r_type");
}
}
return true;
#undef report_if
#undef report_elf_if
}
/**
* Upload the binary or binaries to the provided GPU buffers, including
* relocations.
*/
int ac_rtld_upload(struct ac_rtld_upload_info *u)
{
#define report_if(cond) \
do { \
if ((cond)) { \
report_errorf(#cond); \
return -1; \
} \
} while (false)
#define report_elf_if(cond) \
do { \
if ((cond)) { \
report_errorf(#cond); \
return -1; \
} \
} while (false)
int size = 0;
if (u->binary->options.halt_at_entry) {
/* s_sethalt 1 */
*(uint32_t *)u->rx_ptr = util_cpu_to_le32(0xbf8d0001);
}
/* First pass: upload raw section data. */
for (unsigned i = 0; i < u->binary->num_parts; ++i) {
struct ac_rtld_part *part = &u->binary->parts[i];
bool first_section = true;
Elf_Scn *section = NULL;
while ((section = elf_nextscn(part->elf, section))) {
Elf64_Shdr *shdr = elf64_getshdr(section);
struct ac_rtld_section *s = &part->sections[elf_ndxscn(section)];
if (!s->is_rx)
continue;
report_if(shdr->sh_type != SHT_PROGBITS);
Elf_Data *data = elf_getdata(section, NULL);
report_elf_if(!data || data->d_size != shdr->sh_size);
if (i > 0 && first_section && u->binary->options.waitcnt_wa) {
assert(s->offset >= 4);
*(uint32_t *)(u->rx_ptr + s->offset - 4) = util_cpu_to_le32(0xbf880fff);
first_section = false;
}
memcpy(u->rx_ptr + s->offset, data->d_buf, shdr->sh_size);
size = MAX2(size, s->offset + shdr->sh_size);
}
}
if (u->binary->rx_end_markers) {
uint32_t *dst = (uint32_t *)(u->rx_ptr + u->binary->rx_end_markers);
for (unsigned i = 0; i < DEBUGGER_NUM_MARKERS; ++i)
*dst++ = util_cpu_to_le32(DEBUGGER_END_OF_CODE_MARKER);
size += 4 * DEBUGGER_NUM_MARKERS;
}
/* Second pass: handle relocations, overwriting uploaded data where
* appropriate. */
for (unsigned i = 0; i < u->binary->num_parts; ++i) {
struct ac_rtld_part *part = &u->binary->parts[i];
Elf_Scn *section = NULL;
while ((section = elf_nextscn(part->elf, section))) {
Elf64_Shdr *shdr = elf64_getshdr(section);
if (shdr->sh_type == SHT_REL) {
Elf_Data *relocs = elf_getdata(section, NULL);
report_elf_if(!relocs || relocs->d_size != shdr->sh_size);
if (!apply_relocs(u, i, shdr, relocs))
return -1;
} else if (shdr->sh_type == SHT_RELA) {
report_errorf("SHT_RELA not supported");
return -1;
}
}
}
return size;
#undef report_if
#undef report_elf_if
}
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