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-rw-r--r--arch/blackfin/kernel/ftrace-entry.S140
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diff --git a/arch/blackfin/kernel/ftrace-entry.S b/arch/blackfin/kernel/ftrace-entry.S
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+/*
+ * mcount and friends -- ftrace stuff
+ *
+ * Copyright (C) 2009 Analog Devices Inc.
+ * Licensed under the GPL-2 or later.
+ */
+
+#include <linux/linkage.h>
+#include <asm/ftrace.h>
+
+.text
+
+/* GCC will have called us before setting up the function prologue, so we
+ * can clobber the normal scratch registers, but we need to make sure to
+ * save/restore the registers used for argument passing (R0-R2) in case
+ * the profiled function is using them. With data registers, R3 is the
+ * only one we can blow away. With pointer registers, we have P0-P2.
+ *
+ * Upon entry, the RETS will point to the top of the current profiled
+ * function. And since GCC setup the frame for us, the previous function
+ * will be waiting there. mmmm pie.
+ */
+ENTRY(__mcount)
+ /* save third function arg early so we can do testing below */
+ [--sp] = r2;
+
+ /* load the function pointer to the tracer */
+ p0.l = _ftrace_trace_function;
+ p0.h = _ftrace_trace_function;
+ r3 = [p0];
+
+ /* optional micro optimization: don't call the stub tracer */
+ r2.l = _ftrace_stub;
+ r2.h = _ftrace_stub;
+ cc = r2 == r3;
+ if ! cc jump .Ldo_trace;
+
+#ifdef CONFIG_FUNCTION_GRAPH_TRACER
+ /* if the ftrace_graph_return function pointer is not set to
+ * the ftrace_stub entry, call prepare_ftrace_return().
+ */
+ p0.l = _ftrace_graph_return;
+ p0.h = _ftrace_graph_return;
+ r3 = [p0];
+ cc = r2 == r3;
+ if ! cc jump _ftrace_graph_caller;
+
+ /* similarly, if the ftrace_graph_entry function pointer is not
+ * set to the ftrace_graph_entry_stub entry, ...
+ */
+ p0.l = _ftrace_graph_entry;
+ p0.h = _ftrace_graph_entry;
+ r2.l = _ftrace_graph_entry_stub;
+ r2.h = _ftrace_graph_entry_stub;
+ r3 = [p0];
+ cc = r2 == r3;
+ if ! cc jump _ftrace_graph_caller;
+#endif
+
+ r2 = [sp++];
+ rts;
+
+.Ldo_trace:
+
+ /* save first/second function arg and the return register */
+ [--sp] = r0;
+ [--sp] = r1;
+ [--sp] = rets;
+
+ /* setup the tracer function */
+ p0 = r3;
+
+ /* tracer(ulong frompc, ulong selfpc):
+ * frompc: the pc that did the call to ...
+ * selfpc: ... this location
+ * the selfpc itself will need adjusting for the mcount call
+ */
+ r1 = rets;
+ r0 = [fp + 4];
+ r1 += -MCOUNT_INSN_SIZE;
+
+ /* call the tracer */
+ call (p0);
+
+ /* restore state and get out of dodge */
+.Lfinish_trace:
+ rets = [sp++];
+ r1 = [sp++];
+ r0 = [sp++];
+ r2 = [sp++];
+
+.globl _ftrace_stub
+_ftrace_stub:
+ rts;
+ENDPROC(__mcount)
+
+#ifdef CONFIG_FUNCTION_GRAPH_TRACER
+/* The prepare_ftrace_return() function is similar to the trace function
+ * except it takes a pointer to the location of the frompc. This is so
+ * the prepare_ftrace_return() can hijack it temporarily for probing
+ * purposes.
+ */
+ENTRY(_ftrace_graph_caller)
+ /* save first/second function arg and the return register */
+ [--sp] = r0;
+ [--sp] = r1;
+ [--sp] = rets;
+
+ r0 = fp;
+ r1 = rets;
+ r0 += 4;
+ r1 += -MCOUNT_INSN_SIZE;
+ call _prepare_ftrace_return;
+
+ jump .Lfinish_trace;
+ENDPROC(_ftrace_graph_caller)
+
+/* Undo the rewrite caused by ftrace_graph_caller(). The common function
+ * ftrace_return_to_handler() will return the original rets so we can
+ * restore it and be on our way.
+ */
+ENTRY(_return_to_handler)
+ /* make sure original return values are saved */
+ [--sp] = p0;
+ [--sp] = r0;
+ [--sp] = r1;
+
+ /* get original return address */
+ call _ftrace_return_to_handler;
+ rets = r0;
+
+ /* anomaly 05000371 - make sure we have at least three instructions
+ * between rets setting and the return
+ */
+ r1 = [sp++];
+ r0 = [sp++];
+ p0 = [sp++];
+ rts;
+ENDPROC(_return_to_handler)
+#endif