mescc: Mes C Library: ARM: syscall.c: Inline fake asm.

* lib/linux/arm-mes-gcc/syscall.c (__sys_call, __sys_call1, __sys_call2,
__sys_call3, __sys_call4): Use inline fake asm.
This commit is contained in:
Jan (janneke) Nieuwenhuizen 2020-12-07 13:03:33 +01:00
parent e5ce69ec3f
commit 6703c33f96
No known key found for this signature in database
GPG key ID: F3C1A0D9C1D65273

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@ -38,23 +38,19 @@ __sys_call (long sys_call)
return r; return r;
} }
#else //__TINYC__ #else //__TINYC__
long __sys_call (long sys_call); long
__asm__ (".global __sys_call\n"); __sys_call (long sys_call)
__asm__ ("__sys_call:\n"); {
__asm__ (".int 0xe92d0880\n"); //push {r7, fp} long r;
__asm__ (".int 0xe28db004\n"); //add fp, sp, #4 __asm__ (".int 0xe1a07000\n"); //mov r7, r0
__asm__ (".int 0xe24dd010\n"); //sub sp, sp, #16 // __asm__ (".int 0xe1a00001\n"); //mov r0, r1
__asm__ (".int 0xe50b0010\n"); //str r0, [fp, #-16] // __asm__ (".int 0xe1a01002\n"); //mov r1, r2
__asm__ (".int 0xe51b3010\n"); //ldr r3, [fp, #-16] // __asm__ (".int 0xe1a02003\n"); //mov r2, r3
__asm__ (".int 0xe1a07003\n"); //mov r7, r3 // __asm__ (".int 0xe1a03004\n"); //mov r3, r4
__asm__ (".int 0xef000000\n"); //svc 0x00000000 __asm__ (".int 0xef000000\n"); //svc 0x00000000
__asm__ (".int 0xe1a03000\n"); //mov r3, r0 __asm__ (".int 0xe50b0004\n"); //str r0, [fp, #-4]
__asm__ (".int 0xe50b3008\n"); //str r3, [fp, #-8] return r;
__asm__ (".int 0xe51b3008\n"); //ldr r3, [fp, #-8] }
__asm__ (".int 0xe1a00003\n"); //mov r0, r3
__asm__ (".int 0xe24bd004\n"); //sub sp, fp, #4
__asm__ (".int 0xe8bd0880\n"); //pop {r7, fp}
__asm__ (".int 0xe12fff1e\n"); //bx lr
#endif //__TINYC__ #endif //__TINYC__
#if !__TINYC__ #if !__TINYC__
@ -74,26 +70,19 @@ __sys_call1 (long sys_call, long one)
return r; return r;
} }
#else //__TINYC__ #else //__TINYC__
long __sys_call1 (long sys_call, long one); long
__asm__ (".global __sys_call1\n"); __sys_call1 (long sys_call, long one)
__asm__ ("__sys_call1:\n"); {
__asm__ (".int 0xe92d0880\n"); //push {r7, fp} long r;
__asm__ (".int 0xe28db004\n"); //add fp, sp, #4 __asm__ (".int 0xe1a07000\n"); //mov r7, r0
__asm__ (".int 0xe24dd010\n"); //sub sp, sp, #16 __asm__ (".int 0xe1a00001\n"); //mov r0, r1
__asm__ (".int 0xe50b0010\n"); //str r0, [fp, #-16] // __asm__ (".int 0xe1a01002\n"); //mov r1, r2
__asm__ (".int 0xe50b1014\n"); //str r1, [fp, #-20] ; 0xffffffec // __asm__ (".int 0xe1a02003\n"); //mov r2, r3
__asm__ (".int 0xe51b3010\n"); //ldr r3, [fp, #-16] // __asm__ (".int 0xe1a03004\n"); //mov r3, r4
__asm__ (".int 0xe51b2014\n"); //ldr r2, [fp, #-20] ; 0xffffffec __asm__ (".int 0xef000000\n"); //svc 0x00000000
__asm__ (".int 0xe1a07003\n"); //mov r7, r3 __asm__ (".int 0xe50b0004\n"); //str r0, [fp, #-4]
__asm__ (".int 0xe1a00002\n"); //mov r0, r2 return r;
__asm__ (".int 0xef000000\n"); //svc 0x00000000 }
__asm__ (".int 0xe1a03000\n"); //mov r3, r0
__asm__ (".int 0xe50b3008\n"); //str r3, [fp, #-8]
__asm__ (".int 0xe51b3008\n"); //ldr r3, [fp, #-8]
__asm__ (".int 0xe1a00003\n"); //mov r0, r3
__asm__ (".int 0xe24bd004\n"); //sub sp, fp, #4
__asm__ (".int 0xe8bd0880\n"); //pop {r7, fp}
__asm__ (".int 0xe12fff1e\n"); //bx lr
#endif //__TINYC__ #endif //__TINYC__
#if !__TINYC__ #if !__TINYC__
@ -114,29 +103,19 @@ __sys_call2 (long sys_call, long one, long two)
return r; return r;
} }
#else //__TINYC__ #else //__TINYC__
long __sys_call2 (long sys_call, long one, long two); long
__asm__ (".global __sys_call2\n"); __sys_call2 (long sys_call, long one, long two)
__asm__ ("__sys_call2:\n"); {
__asm__ (".int 0xe92d0880\n"); //push {r7, fp} long r;
__asm__ (".int 0xe28db004\n"); //add fp, sp, #4 __asm__ (".int 0xe1a07000\n"); //mov r7, r0
__asm__ (".int 0xe24dd018\n"); //sub sp, sp, #24 __asm__ (".int 0xe1a00001\n"); //mov r0, r1
__asm__ (".int 0xe50b0010\n"); //str r0, [fp, #-16] __asm__ (".int 0xe1a01002\n"); //mov r1, r2
__asm__ (".int 0xe50b1014\n"); //str r1, [fp, #-20] ; 0xffffffec // __asm__ (".int 0xe1a02003\n"); //mov r2, r3
__asm__ (".int 0xe50b2018\n"); //str r2, [fp, #-24] ; 0xffffffe8 // __asm__ (".int 0xe1a03004\n"); //mov r3, r4
__asm__ (".int 0xe51b3010\n"); //ldr r3, [fp, #-16] __asm__ (".int 0xef000000\n"); //svc 0x00000000
__asm__ (".int 0xe51b2014\n"); //ldr r2, [fp, #-20] ; 0xffffffec __asm__ (".int 0xe50b0004\n"); //str r0, [fp, #-4]
__asm__ (".int 0xe51bc018\n"); //ldr ip, [fp, #-24] ; 0xffffffe8 return r;
__asm__ (".int 0xe1a07003\n"); //mov r7, r3 }
__asm__ (".int 0xe1a00002\n"); //mov r0, r2
__asm__ (".int 0xe1a0100c\n"); //mov r1, ip
__asm__ (".int 0xef000000\n"); //svc 0x00000000
__asm__ (".int 0xe1a03000\n"); //mov r3, r0
__asm__ (".int 0xe50b3008\n"); //str r3, [fp, #-8]
__asm__ (".int 0xe51b3008\n"); //ldr r3, [fp, #-8]
__asm__ (".int 0xe1a00003\n"); //mov r0, r3
__asm__ (".int 0xe24bd004\n"); //sub sp, fp, #4
__asm__ (".int 0xe8bd0880\n"); //pop {r7, fp}
__asm__ (".int 0xe12fff1e\n"); //bx lr
#endif //__TINYC__ #endif //__TINYC__
#if !__TINYC__ #if !__TINYC__
@ -158,31 +137,19 @@ __sys_call3 (long sys_call, long one, long two, long three)
return r; return r;
} }
#else //__TINYC__ #else //__TINYC__
long __sys_call3 (long sys_call, long one, long two, long three); long
__asm__ (".global __sys_call3\n"); __sys_call3 (long sys_call, long one, long two, long three)
__asm__ ("__sys_call3:\n"); {
__asm__ (".int 0xe92d4890\n"); //push {r4, r7, fp, lr} long r;
__asm__ (".int 0xe28db00c\n"); //add fp, sp, #12 __asm__ (".int 0xe1a07000\n"); //mov r7, r0
__asm__ (".int 0xe24dd018\n"); //sub sp, sp, #24 __asm__ (".int 0xe1a00001\n"); //mov r0, r1
__asm__ (".int 0xe50b0018\n"); //str r0, [fp, #-24] ; 0xffffffe8 __asm__ (".int 0xe1a01002\n"); //mov r1, r2
__asm__ (".int 0xe50b101c\n"); //str r1, [fp, #-28] ; 0xffffffe4 __asm__ (".int 0xe1a02003\n"); //mov r2, r3
__asm__ (".int 0xe50b2020\n"); //str r2, [fp, #-32] ; 0xffffffe0 // __asm__ (".int 0xe1a03004\n"); //mov r3, r4
__asm__ (".int 0xe50b3024\n"); //str r3, [fp, #-36] ; 0xffffffdc __asm__ (".int 0xef000000\n"); //svc 0x00000000
__asm__ (".int 0xe51b3018\n"); //ldr r3, [fp, #-24] ; 0xffffffe8 __asm__ (".int 0xe50b0004\n"); //str r0, [fp, #-4]
__asm__ (".int 0xe51bc01c\n"); //ldr ip, [fp, #-28] ; 0xffffffe4 return r;
__asm__ (".int 0xe51be020\n"); //ldr lr, [fp, #-32] ; 0xffffffe0 }
__asm__ (".int 0xe51b4024\n"); //ldr r4, [fp, #-36] ; 0xffffffdc
__asm__ (".int 0xe1a07003\n"); //mov r7, r3
__asm__ (".int 0xe1a0000c\n"); //mov r0, ip
__asm__ (".int 0xe1a0100e\n"); //mov r1, lr
__asm__ (".int 0xe1a02004\n"); //mov r2, r4
__asm__ (".int 0xef000000\n"); //svc 0x00000000
__asm__ (".int 0xe1a03000\n"); //mov r3, r0
__asm__ (".int 0xe50b3010\n"); //str r3, [fp, #-16]
__asm__ (".int 0xe51b3010\n"); //ldr r3, [fp, #-16]
__asm__ (".int 0xe1a00003\n"); //mov r0, r3
__asm__ (".int 0xe24bd00c\n"); //sub sp, fp, #12
__asm__ (".int 0xe8bd8890\n"); //pop {r4, r7, fp, pc}
#endif //__TINYC__ #endif //__TINYC__
#if !__TINYC__ #if !__TINYC__
@ -205,33 +172,19 @@ __sys_call4 (long sys_call, long one, long two, long three, long four)
return r; return r;
} }
#else //__TINYC__ #else //__TINYC__
long __sys_call4 (long sys_call, long one, long two, long three, long four); long
__asm__ (".global __sys_call4\n"); __sys_call4 (long sys_call, long one, long two, long three, long four)
__asm__ ("__sys_call4:\n"); {
__asm__ (".int 0xe92d48f0\n"); //push {r4, r5, r6, r7, fp, lr} long r;
__asm__ (".int 0xe28db014\n"); //add fp, sp, #20 __asm__ (".int 0xe1a07000\n"); //mov r7, r0
__asm__ (".int 0xe24dd018\n"); //sub sp, sp, #24 __asm__ (".int 0xe1a00001\n"); //mov r0, r1
__asm__ (".int 0xe50b0020\n"); //str r0, [fp, #-32] ; 0xffffffe0 __asm__ (".int 0xe1a01002\n"); //mov r1, r2
__asm__ (".int 0xe50b1024\n"); //str r1, [fp, #-36] ; 0xffffffdc __asm__ (".int 0xe1a02003\n"); //mov r2, r3
__asm__ (".int 0xe50b2028\n"); //str r2, [fp, #-40] ; 0xffffffd8 __asm__ (".int 0xe1a03004\n"); //mov r3, r4
__asm__ (".int 0xe50b302c\n"); //str r3, [fp, #-44] ; 0xffffffd4 __asm__ (".int 0xef000000\n"); //svc 0x00000000
__asm__ (".int 0xe51bc020\n"); //ldr ip, [fp, #-32] ; 0xffffffe0 __asm__ (".int 0xe50b0004\n"); //str r0, [fp, #-4]
__asm__ (".int 0xe51be024\n"); //ldr lr, [fp, #-36] ; 0xffffffdc return r;
__asm__ (".int 0xe51b4028\n"); //ldr r4, [fp, #-40] ; 0xffffffd8 }
__asm__ (".int 0xe51b502c\n"); //ldr r5, [fp, #-44] ; 0xffffffd4
__asm__ (".int 0xe59b6004\n"); //ldr r6, [fp, #4]
__asm__ (".int 0xe1a0700c\n"); //mov r7, ip
__asm__ (".int 0xe1a0000e\n"); //mov r0, lr
__asm__ (".int 0xe1a01004\n"); //mov r1, r4
__asm__ (".int 0xe1a02005\n"); //mov r2, r5
__asm__ (".int 0xe1a03006\n"); //mov r3, r6
__asm__ (".int 0xef000000\n"); //svc 0x00000000
__asm__ (".int 0xe1a0c000\n"); //mov ip, r0
__asm__ (".int 0xe50bc018\n"); //str ip, [fp, #-24] ; 0xffffffe8
__asm__ (".int 0xe51b3018\n"); //ldr r3, [fp, #-24] ; 0xffffffe8
__asm__ (".int 0xe1a00003\n"); //mov r0, r3
__asm__ (".int 0xe24bd014\n"); //sub sp, fp, #20
__asm__ (".int 0xe8bd88f0\n"); //pop {r4, r5, r6, r7, fp, pc}
#endif //__TINYC__ #endif //__TINYC__
#if 0 #if 0