The Tor Browser: xpcom/reflect/xptcall/src/md/unix/xptcinvoke_amd64

xpcom/reflect/xptcall/src/md/unix/xptcinvoke_amd64_openbsd.cpp@129ffea94266 (annotated)

xpcom/reflect/xptcall/src/md/unix/xptcinvoke_amd64_openbsd.cpp

Sat, 03 Jan 2015 20:18:00 +0100

author: Michael Schloh von Bennewitz <michael@schloh.com>
date: Sat, 03 Jan 2015 20:18:00 +0100
branch: TOR_BUG_3246
changeset 7: 129ffea94266
permissions: -rw-r--r--

Conditionally enable double key logic according to:
private browsing mode or privacy.thirdparty.isolate preference and
implement in GetCookieStringCommon and FindCookie where it counts...
With some reservations of how to convince FindCookie users to test
condition and pass a nullptr when disabling double key logic.

 /* -*- 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
 const uint32_t GPR_COUNT = 6;
 // 8 floating point parameters are passed in SSE registers
 const uint32_t FPR_COUNT = 8;
 // Remember that these 'words' are 64-bit long
 static inline void
 invoke_count_words(uint32_t paramCount, nsXPTCVariant * s,
                    uint32_t & nr_gpr, uint32_t & nr_fpr, uint32_t & nr_stack)
 {
     nr_gpr = 1; // skip one GP register for 'that'
     nr_fpr = 0;
     nr_stack = 0;
     /* Compute number of eightbytes of class MEMORY.  */
     for (uint32_t i = 0; i < paramCount; i++, s++) {
         if (!s->IsPtrData()
             && (s->type == nsXPTType::T_FLOAT || s->type == nsXPTType::T_DOUBLE)) {
             if (nr_fpr < FPR_COUNT)
                 nr_fpr++;
             else
                 nr_stack++;
         }
         else {
             if (nr_gpr < GPR_COUNT)
                 nr_gpr++;
             else
                 nr_stack++;
         }
     }
 }
 static void
 invoke_copy_to_stack(uint64_t * d, uint32_t paramCount, nsXPTCVariant * s,
                      uint64_t * gpregs, double * fpregs)
 {
     uint32_t nr_gpr = 1; // skip one GP register for 'that'
     uint32_t nr_fpr = 0;
     uint64_t value;
     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;
         }
     }
 }
 EXPORT_XPCOM_API(nsresult)
 NS_InvokeByIndex(nsISupports * that, uint32_t methodIndex,
                  uint32_t paramCount, nsXPTCVariant * params)
 {
     uint32_t nr_gpr, nr_fpr, nr_stack;
     invoke_count_words(paramCount, params, nr_gpr, nr_fpr, nr_stack);
     // Stack, if used, must be 16-bytes aligned
     if (nr_stack)
         nr_stack = (nr_stack + 1) & ~1;
     // Load parameters to stack, if necessary
     uint64_t *stack = (uint64_t *) __builtin_alloca(nr_stack * 8);
     uint64_t gpregs[GPR_COUNT];
     double fpregs[FPR_COUNT];
     invoke_copy_to_stack(stack, paramCount, params, gpregs, fpregs);
     // Load FPR registers from fpregs[]
     register double d0 asm("xmm0");
     register double d1 asm("xmm1");
     register double d2 asm("xmm2");
     register double d3 asm("xmm3");
     register double d4 asm("xmm4");
     register double d5 asm("xmm5");
     register double d6 asm("xmm6");
     register double d7 asm("xmm7");
     switch (nr_fpr) {
 #define ARG_FPR(N) \
     case N+1: d##N = fpregs[N];
         ARG_FPR(7);
         ARG_FPR(6);
         ARG_FPR(5);
         ARG_FPR(4);
         ARG_FPR(3);
         ARG_FPR(2);
         ARG_FPR(1);
         ARG_FPR(0);
     case 0:;
 #undef ARG_FPR
     }
     // Load GPR registers from gpregs[]
     register uint64_t a0 asm("rdi");
     register uint64_t a1 asm("rsi");
     register uint64_t a2 asm("rdx");
     register uint64_t a3 asm("rcx");
     register uint64_t a4 asm("r8");
     register uint64_t a5 asm("r9");
     switch (nr_gpr) {
 #define ARG_GPR(N) \
     case N+1: a##N = gpregs[N];
         ARG_GPR(5);
         ARG_GPR(4);
         ARG_GPR(3);
         ARG_GPR(2);
         ARG_GPR(1);
     case 1: a0 = (uint64_t) that;
     case 0:;
 #undef ARG_GPR
     }
     // Ensure that assignments to SSE registers won't be optimized away
     asm("" ::
         "x" (d0), "x" (d1), "x" (d2), "x" (d3),
         "x" (d4), "x" (d5), "x" (d6), "x" (d7));
     // Get pointer to method
     uint64_t methodAddress = *((uint64_t *)that);
     methodAddress += 8 * methodIndex;
     methodAddress = *((uint64_t *)methodAddress);
     typedef nsresult (*Method)(uint64_t, uint64_t, uint64_t, uint64_t, uint64_t, uint64_t);
     nsresult result = ((Method)methodAddress)(a0, a1, a2, a3, a4, a5);
     return result;
 }

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xpcom/reflect/xptcall/src/md/unix/xptcinvoke_amd64_openbsd.cpp@129ffea94266 (annotated)

xpcom/reflect/xptcall/src/md/unix/xptcinvoke_amd64_openbsd.cpp