@ vim: set ft=armv5: .cpu cortex-m0 .thumb /*.section .bss.co_active_buffer, "aw", %nobits .type co_active_buffer, %object .size co_active_buffer, 4*64 co_active_buffer: .space 4*64 .section .bss.co_active_handle, "aw", %nobits .type co_active_handle, %object .size co_active_handle, 4 co_active_handle: .space 4*/ .extern co_active_handle .extern co_active_buffer .section .text.co_active, "ax", %progbits .type co_active, %function .thumb_func .global co_active co_active:@() ldr r1, =co_active_handle ldr r0, [r1] cmp r0, #0 bne 1f ldr r0, =co_active_buffer str r0, [r1] 1: bx lr .pool .section .text.co_switch, "ax", %progbits .type co_switch, %function .thumb_func .global co_switch co_switch:@(cothread_t handle r0) @ co_previous_handle(r1) = co_active_handle @ co_active_handle = handle(r0) ldr r2, =co_active_handle ldr r1, [r2] str r0, [r2] @ co_swap() @ NOTE: we're assuming that the hw divider's state persistance won't be @ used @ original ARM version: @stmia r1!, {r4-r11,sp,lr} @ldmia r0!, {r4-r11,sp,pc} @bx lr stmia r1!, {r4-r7} mov r2, r8 mov r3, r9 mov r4, r10 mov r5, r11 mov r6, r12 mov r7, sp stmia r1!, {r2-r7} mov r2, lr stmia r1!, {r2} @ TODO: this could be done better, but oh well ldr r2, [r0, #0x10] @ r8 ldr r3, [r0, #0x14] @ r9 ldr r4, [r0, #0x18] @ r10 ldr r5, [r0, #0x1c] @ r11 ldr r6, [r0, #0x20] @ r12 ldr r7, [r0, #0x24] @ sp mov r8, r2 mov r9, r3 mov r10, r4 mov r11, r5 mov r12, r6 mov sp, r7 ldmia r0!, {r4-r7} ldr r2, [r0, #(0x28-0x10)] @ pc mov pc, r2 bx lr .pool .section .text.co_derive, "ax", %progbits .type co_derive, %function .thumb_func .global co_derive co_derive:@(void* memory r0, unsigned int size r1, void(*entrypoint)(void) r2) push {r4} @ if (!co_active_handle) co_active_handle = &co_active_buffer ldr r3, =co_active_handle ldr r4, [r3] cmp r4, #0 bne 1f ldr r4, =co_active_buffer str r4, [r3] @ if (!memory) return 0; 1: cmp r0, #0 beq .Lret @ offset(r3) = size(r1) & ~15 mov r3, r1 mov r4, #0xf bic r3, r4 @ doesn't want to do an immediate, sigh... @ p(r3) = handle(r0) + offset(r3) add r3, r0 @ initialize stack, entrypoint str r3, [r0, #( 9*4)] str r2, [r0, #(10*4)] .Lret: pop {r4} bx lr .pool