// A WORD OF CAUTION // // This entire file basically needs to be kept in sync with itself. It's not // really possible to modify just one bit of this file without understanding // all the other bits. Documentation tries to reference various bits here and // there but try to make sure to read over everything before tweaking things! // // Also at this time this file is heavily based off the x86_64 file, so you'll // probably want to read that one as well. .text #define CONCAT2(a, b) a ## b #define CONCAT(a, b) CONCAT2(a , b) #define VERSIONED_SYMBOL(a) CONCAT(a, VERSIONED_SUFFIX) #define GLOBL(fnname) .globl VERSIONED_SYMBOL(fnname) #define HIDDEN(fnname) .hidden VERSIONED_SYMBOL(fnname) #define TYPE(fnname) .type VERSIONED_SYMBOL(fnname),@function #define FUNCTION(fnname) VERSIONED_SYMBOL(fnname) #define SIZE(fnname) .size VERSIONED_SYMBOL(fnname),.-VERSIONED_SYMBOL(fnname) // fn(top_of_stack(%x0): *mut u8) HIDDEN(wasmtime_fiber_switch) GLOBL(wasmtime_fiber_switch) .p2align 2 TYPE(wasmtime_fiber_switch) FUNCTION(wasmtime_fiber_switch): // Save all callee-saved registers on the stack since we're assuming // they're clobbered as a result of the stack switch. stmg %r6, %r15, 48(%r15) aghi %r15, -64 std %f8, 0(%r15) std %f9, 8(%r15) std %f10, 16(%r15) std %f11, 24(%r15) std %f12, 32(%r15) std %f13, 40(%r15) std %f14, 48(%r15) std %f15, 56(%r15) // Load our previously saved stack pointer to resume to, and save off our // current stack pointer on where to come back to eventually. lg %r1, -16(%r2) stg %r15, -16(%r2) // Switch to the new stack and restore all our callee-saved registers after // the switch and return to our new stack. ld %f8, 0(%r1) ld %f9, 8(%r1) ld %f10, 16(%r1) ld %f11, 24(%r1) ld %f12, 32(%r1) ld %f13, 40(%r1) ld %f14, 48(%r1) ld %f15, 56(%r1) lmg %r6, %r15, 112(%r1) br %r14 SIZE(wasmtime_fiber_switch) // fn( // top_of_stack(%x0): *mut u8, // entry_point(%x1): extern fn(*mut u8, *mut u8), // entry_arg0(%x2): *mut u8, // ) HIDDEN(wasmtime_fiber_init) GLOBL(wasmtime_fiber_init) .p2align 2 TYPE(wasmtime_fiber_init) FUNCTION(wasmtime_fiber_init): larl %r1, FUNCTION(wasmtime_fiber_start) stg %r1, -48(%r2) // wasmtime_fiber_start - restored into %r14 stg %r2, -112(%r2) // top_of_stack - restored into %r6 stg %r3, -104(%r2) // entry_point - restored into %r7 stg %r4, -96(%r2) // entry_arg0 - restored into %r8 aghi %r2, -160 // 160 bytes register save area stg %r2, 120(%r2) // bottom of register save area - restored into %r15 // `wasmtime_fiber_switch` has a 64 byte stack. aghi %r2, -64 stg %r2, 208(%r2) br %r14 SIZE(wasmtime_fiber_init) .p2align 2 TYPE(wasmtime_fiber_start) FUNCTION(wasmtime_fiber_start): .cfi_startproc simple .cfi_def_cfa_offset 0 // See the x86_64 file for more commentary on what these CFI directives are // doing. Like over there note that the relative offsets to registers here // match the frame layout in `wasmtime_fiber_switch`. .cfi_escape 0x0f, /* DW_CFA_def_cfa_expression */ \ 7, /* the byte length of this expression */ \ 0x7f, 0x90, 0x1, /* DW_OP_breg15 0x90 */ \ 0x06, /* DW_OP_deref */ \ 0x23, 0xe0, 0x1 /* DW_OP_plus_uconst 0xe0 */ .cfi_rel_offset 6, -112 .cfi_rel_offset 7, -104 .cfi_rel_offset 8, -96 .cfi_rel_offset 9, -88 .cfi_rel_offset 10, -80 .cfi_rel_offset 11, -72 .cfi_rel_offset 12, -64 .cfi_rel_offset 13, -56 .cfi_rel_offset 14, -48 .cfi_rel_offset 15, -40 // Load our two arguments prepared by `wasmtime_fiber_init`. lgr %r2, %r8 // entry_arg0 lgr %r3, %r6 // top_of_stack // ... and then we call the function! Note that this is a function call so // our frame stays on the stack to backtrace through. basr %r14, %r7 // entry_point // .. technically we shouldn't get here, so just trap. .word 0x0000 .cfi_endproc SIZE(wasmtime_fiber_start) // Mark that we don't need executable stack. .section .note.GNU-stack,"",%progbits