Revert "Fix unwinding of C -> Haskell FFI calls with -threaded"

This reverts commit cb5c2fe875965b7aedbc189012803fc62e48fb3f.

It appears to have broken OSX and Windows builds.

1 files changed, 10 insertions, 165 deletions

diff --git a/rts/StgCRun.c b/rts/StgCRun.c
index 82d4a4c372..ab66c649fc 100644
--- a/rts/StgCRun.c
+++ b/rts/StgCRun.c
@@ -59,8 +59,8 @@
 #include "StgRun.h"
 #include "Capability.h"
 
-#include "RtsUtils.h"
 #if defined(DEBUG)
+#include "RtsUtils.h"
 #include "Printer.h"
 #endif
 
@@ -90,6 +90,14 @@ StgFunPtr StgReturn(void)
 
 #else /* !USE_MINIINTERPRETER */
 
+#if defined(LEADING_UNDERSCORE)
+#define STG_RUN "_StgRun"
+#define STG_RETURN "_StgReturn"
+#else
+#define STG_RUN "StgRun"
+#define STG_RETURN "StgReturn"
+#endif
+
 #if defined(mingw32_HOST_OS)
 /*
  * Note [Windows Stack allocations]
@@ -249,122 +257,6 @@ StgRunIsImplementedInAssembler(void)
 #define STG_HIDDEN ".hidden "
 #endif
 
-/*
-Note [Unwinding foreign exports on x86-64]
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-For foreign exports, that is Haskell functions exported as C functions when
-we unwind we have to unwind from Haskell code into C code. The current story
-is as follows:
-
-  * The Haskell stack always has stg_stop_thread_info frame at the bottom
-  * We annotate stg_stop_thread_info to unwind the instruction pointer to a
-    label inside StgRun called StgRunJmp. It's the last instruction before the
-    code jumps into Haskell.
-  * StgRun - which is implemented in assembler is annotated with some manual
-    unwinding information. It unwinds all the registers that it has saved
-    on the stack. This is important as rsp and rbp are often required for
-    getting to the next frame and the rest of the saved registers are useful
-    when inspecting locals in gdb.
-
-
- Example x86-64 stack for an FFI call
- from C into a Haskell function:
-
-
-      HASKELL HEAP
-      "ADDRESS SPACE"
-
-  +--------------------+ <------ rbp
-  |                    |
-  |                    |
-  |                    |
-  |                    |
-  |  Haskell           |
-  |  evaluation stack  |
-  |                    |
-  |                    |
-  |--------------------|
-  |stg_catch_frame_info|
-  |--------------------|
-  |  stg_forceIO_info  |
-  |--------------------|
-  |stg_stop_thread_info| -------
-  +--------------------+       |
-           ...                 |
-   (other heap objects)        |
-           ...                 |
-                               |
-                               |
-                               |
-     C STACK "ADDRESS SPACE"   |
-                               v
-  +-----------------------------+ <------ rsp
-  |                             |
-  | RESERVED_C_STACK_BYTES ~16k |
-  |                             |
-  |-----------------------------|
-  |             rbx             ||
-  |-----------------------------| \
-  |             rbp             | |
-  |-----------------------------|  \
-  |             r12             |  |
-  |-----------------------------|   \
-  |             r13             |   | STG_RUN_STACK_FRAME_SIZE
-  |-----------------------------|  /
-  |             r14             |  |
-  |-----------------------------| /
-  |             r15             | |
-  |-----------------------------|/
-  |  rip saved by call StgRun   |
-  |        in schedule()        |
-  +-----------------------------+
-                ...
-      schedule() stack frame
-
-
- Lower addresses on the top
-
-One little snag in this approach is that the annotations accepted by the
-assembler are surprisingly unexpressive. I had to resort to a .cfi_escape
-and hand-assemble a DWARF expression. What made it worse was that big numbers
-are LEB128 encoded, which makes them variable byte length, with length depending
-on the magnitude. I took a shortcut and assumed the magnitude of the relevant
-constant. I think it changes very rarely, so it shouldn't be a big burden.
-
-Here's an example stack generated this way:
-
-  Thread 1 "m" hit Breakpoint 1, Fib_zdfstableZZC0ZZCmainZZCFibZZCfib1_info () at Fib.hs:9
-  9       fib a = return (a + 1)
-  #0  Fib_zdfstableZZC0ZZCmainZZCFibZZCfib1_info () at Fib.hs:9
-  #1  stg_catch_frame_info () at rts/Exception.cmm:372
-  #2  stg_forceIO_info () at rts/StgStartup.cmm:178
-  #3  stg_stop_thread_info () at rts/StgStartup.cmm:42
-  #4  0x00000000007048ab in StgRunIsImplementedInAssembler () at rts/StgCRun.c:255
-  #5  0x00000000006fcf42 in schedule (initialCapability=initialCapability@entry=0x8adac0 <MainCapability>, task=task@entry=0x8cf2a0) at rts/Schedule.c:451
-  #6  0x00000000006fe18e in scheduleWaitThread (tso=0x4200006388, ret=<optimized out>, pcap=0x7fffffffdac0) at rts/Schedule.c:2533
-  #7  0x000000000040a21e in hs_fib ()
-  #8  0x000000000040a083 in main (argc=1, argv=0x7fffffffdc48) at m.cpp:15
-
-(This is from patched gdb. See Note [Info Offset].)
-
-The previous approach was to encode the unwinding information for select
-registers in stg_stop_thread_info with Cmm annotations. The unfortunate thing
-about that approach was that it required introduction of an artificial MachSp
-register that wasn't meaningful outside unwinding. I discovered that to get
-stack unwinding working under -threaded runtime I also needed to unwind rbp
-which would require adding MachRbp. If we wanted to see saved locals in gdb,
-we'd have to add more. The core of the problem is that Cmm is architecture
-independent, while unwinding isn't.
-
-Note [Unwinding foreign imports]
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-For unwinding foreign imports, that is C functions exposed as Haskell functions
-no special handling is required. The C function unwinds according to the rip
-saved on the stack by the call instruction. Then we perform regular Haskell
-stack unwinding.
-*/
-
-
 static void GNUC3_ATTRIBUTE(used)
 StgRunIsImplementedInAssembler(void)
 {
@@ -405,28 +297,6 @@ StgRunIsImplementedInAssembler(void)
         "movq %%xmm14,128(%%rax)\n\t"
         "movq %%xmm15,136(%%rax)\n\t"
 #endif
-
-        /*
-         * Let the unwinder know where we saved the registers
-         * See Note [Unwinding foreign exports on x86-64].
-         */
-        ".cfi_def_cfa rsp, 0\n\t"
-        ".cfi_offset rbx, %c2\n\t"
-        ".cfi_offset rbp, %c3\n\t"
-        ".cfi_offset r12, %c4\n\t"
-        ".cfi_offset r13, %c5\n\t"
-        ".cfi_offset r14, %c6\n\t"
-        ".cfi_offset r15, %c7\n\t"
-        ".cfi_offset rip, %c8\n\t"
-        ".cfi_escape " // DW_CFA_val_expression is not expressible otherwise
-          "0x16, " // DW_CFA_val_expression
-          "0x07, " // register num 7 - rsp
-          "0x04, " // block length
-          "0x77, " // DW_OP_breg7 - signed LEB128 offset from rsp
-          "%c9, " // signed LEB128 encoded delta - byte 1
-          "%c10, " // signed LEB128 encoded delta - byte 2
-          "%c11\n\t" // signed LEB128 encoded delta - byte 2
-
         /*
          * Set BaseReg
          */
@@ -443,12 +313,6 @@ StgRunIsImplementedInAssembler(void)
 #else
         "movq %%rdi,%%rax\n\t"
 #endif
-
-        STG_GLOBAL xstr(STG_RUN_JMP) "\n"
-#if !defined(mingw32_HOST_OS)
-        STG_HIDDEN xstr(STG_RUN_JMP) "\n"
-#endif
-        xstr(STG_RUN_JMP) ":\n\t"
         "jmp *%%rax\n\t"
 
         ".globl " STG_RETURN "\n"
@@ -485,26 +349,7 @@ StgRunIsImplementedInAssembler(void)
 
         :
         : "i"(RESERVED_C_STACK_BYTES),
-          "i"(STG_RUN_STACK_FRAME_SIZE /* stack frame size */),
-          "i"(RESERVED_C_STACK_BYTES /* rbx relative to cfa (rsp) */),
-          "i"(RESERVED_C_STACK_BYTES + 8 /* rbp relative to cfa (rsp) */),
-          "i"(RESERVED_C_STACK_BYTES + 16 /* r12 relative to cfa (rsp) */),
-          "i"(RESERVED_C_STACK_BYTES + 24 /* r13 relative to cfa (rsp) */),
-          "i"(RESERVED_C_STACK_BYTES + 32 /* r14 relative to cfa (rsp) */),
-          "i"(RESERVED_C_STACK_BYTES + 40 /* r15 relative to cfa (rsp) */),
-          "i"(RESERVED_C_STACK_BYTES + STG_RUN_STACK_FRAME_SIZE
-            /* rip relative to cfa */),
-#define RSP_DELTA (RESERVED_C_STACK_BYTES + STG_RUN_STACK_FRAME_SIZE + 8)
-#if (RSP_DELTA < (1<<14)) || (RSP_DELTA >= (1<<21))
-#error "RSP_DELTA signed LEB128 encoding isn't 3 bytes"
-#endif
-          "i"((RSP_DELTA & 127) | 128
-            /* signed LEB128-encoded delta from rsp - byte 1 */),
-          "i"(((RSP_DELTA >> 7) & 127) | 128
-            /* signed LEB128-encoded delta from rsp - byte 2 */),
-          "i"((RSP_DELTA >> 14) & 127
-            /* signed LEB128-encoded delta from rsp - byte 3 */)
-#undef RSP_DELTA
+          "i"(STG_RUN_STACK_FRAME_SIZE /* stack frame size */)
         );
         /*
          * See Note [Stack Alignment on X86]