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author | athenian200 <athenian200@outlook.com> | 2019-10-10 15:38:27 -0500 |
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committer | athenian200 <athenian200@outlook.com> | 2019-10-21 04:53:44 -0500 |
commit | 2f4488521db663520c703a9a836d5549d679266c (patch) | |
tree | afe79a621a5037846f0089f22e5b59be0a95c8d9 /xpcom/reflect/xptcall/md/unix | |
parent | 7d65eb2b3a345abe22f42361e00c97da2e968009 (diff) | |
download | uxp-2f4488521db663520c703a9a836d5549d679266c.tar.gz |
MoonchildProductions#1251 - Part 23: Allow AMD64 build to work.
https://developer.mozilla.org/en-US/docs/Mozilla/Developer_guide/Build_Instructions/Compiling_32-bit_Firefox_on_a_Linux_64-bit_OS
Setting this up turned out to be easier than I thought it would be. All I had to do was apply these instructions in reverse and add the following to my .mozconfig file:
CC="gcc -m64"
CXX="g++ -m64"
AS="gas --64"
ac_add_options --target=x86_64-pc-solaris2.11
export PKG_CONFIG_PATH=/usr/lib/amd64/pkgconfig
ac_add_options --libdir=/usr/lib/amd64
ac_add_options --x-libraries=/usr/lib/amd64
Most of these changes were fairly trivial, just requiring me to make a few of the changes I made earlier conditional on a 32-bit build. The biggest challenge was figuring out why the JavaScript engine triggered a segfault everytime it tried to allocate memory. But this patch fixes it:
https://github.com/OpenIndiana/oi-userland/blob/oi/hipster/components/web/firefox/patches/patch-js_src_gc_Memory.cpp.patch
Turns out that Solaris on AMD64 handles memory management in a fairly unusual way with a segmented memory model, but it's not that different from what we see on other 64-bit processors. In fact, I saw a SPARC crash for a similar reason, and noticed that it looked just like mine except the numbers in the first segment were reversed. Having played around with hex editors before, I had a feeling I might be dealing with a little-endian version of a big-endian problem, but I didn't expect that knowledge to actually yield an easy solution.
https://bugzilla.mozilla.org/show_bug.cgi?id=577056
https://www.oracle.com/technetwork/server-storage/solaris10/solaris-memory-135224.html
As far as I can tell, this was the last barrier to an AMD64 Solaris build of Pale Moon.
Diffstat (limited to 'xpcom/reflect/xptcall/md/unix')
-rw-r--r-- | xpcom/reflect/xptcall/md/unix/moz.build | 2 | ||||
-rw-r--r-- | xpcom/reflect/xptcall/md/unix/xptcinvoke_x86_64_solaris.cpp | 75 |
2 files changed, 76 insertions, 1 deletions
diff --git a/xpcom/reflect/xptcall/md/unix/moz.build b/xpcom/reflect/xptcall/md/unix/moz.build index a005880284..8ee7b31817 100644 --- a/xpcom/reflect/xptcall/md/unix/moz.build +++ b/xpcom/reflect/xptcall/md/unix/moz.build @@ -53,7 +53,7 @@ if CONFIG['OS_ARCH'] == 'SunOS': if CONFIG['OS_TEST'] == 'x86_64': SOURCES += [ 'xptcinvoke_asm_x86_64_unix.S', - 'xptcinvoke_x86_64_unix.cpp', + 'xptcinvoke_x86_64_solaris.cpp', 'xptcstubs_x86_64_linux.cpp' ] elif '86' in CONFIG['OS_TEST']: diff --git a/xpcom/reflect/xptcall/md/unix/xptcinvoke_x86_64_solaris.cpp b/xpcom/reflect/xptcall/md/unix/xptcinvoke_x86_64_solaris.cpp new file mode 100644 index 0000000000..a9db2a693a --- /dev/null +++ b/xpcom/reflect/xptcall/md/unix/xptcinvoke_x86_64_solaris.cpp @@ -0,0 +1,75 @@ +/* -*- Mode: C; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- + * + * This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ + +// Platform specific code to invoke XPCOM methods on native objects + +#include "xptcprivate.h" + +// 6 integral parameters are passed in registers, but 1 is |this| which isn't +// considered here. +const uint32_t GPR_COUNT = 5; + +// 8 floating point parameters are passed in SSE registers +const uint32_t FPR_COUNT = 8; + +extern "C" void +InvokeCopyToStack(uint64_t * gpregs, double * fpregs, + uint32_t paramCount, nsXPTCVariant * s, + uint64_t* d) +{ + uint32_t nr_gpr = 0u; // skip one GP register for 'that' + uint32_t nr_fpr = 0u; + uint64_t value = 0u; + + for (uint32_t i = 0; i < paramCount; i++, s++) { + if (s->IsPtrData()) + value = (uint64_t) s->ptr; + else { + switch (s->type) { + case nsXPTType::T_FLOAT: break; + case nsXPTType::T_DOUBLE: break; + case nsXPTType::T_I8: value = s->val.i8; break; + case nsXPTType::T_I16: value = s->val.i16; break; + case nsXPTType::T_I32: value = s->val.i32; break; + case nsXPTType::T_I64: value = s->val.i64; break; + case nsXPTType::T_U8: value = s->val.u8; break; + case nsXPTType::T_U16: value = s->val.u16; break; + case nsXPTType::T_U32: value = s->val.u32; break; + case nsXPTType::T_U64: value = s->val.u64; break; + case nsXPTType::T_BOOL: value = s->val.b; break; + case nsXPTType::T_CHAR: value = s->val.c; break; + case nsXPTType::T_WCHAR: value = s->val.wc; break; + default: value = (uint64_t) s->val.p; break; + } + } + + if (!s->IsPtrData() && s->type == nsXPTType::T_DOUBLE) { + if (nr_fpr < FPR_COUNT) + fpregs[nr_fpr++] = s->val.d; + else { + *((double *)d) = s->val.d; + d++; + } + } + else if (!s->IsPtrData() && s->type == nsXPTType::T_FLOAT) { + if (nr_fpr < FPR_COUNT) + // The value in %xmm register is already prepared to + // be retrieved as a float. Therefore, we pass the + // value verbatim, as a double without conversion. + fpregs[nr_fpr++] = s->val.d; + else { + *((float *)d) = s->val.f; + d++; + } + } + else { + if (nr_gpr < GPR_COUNT) + gpregs[nr_gpr++] = value; + else + *d++ = value; + } + } +} |