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7.9 .cfi_startproc [simple]

.cfi_startproc is used at the beginning of each function that should have an entry in .eh_frame. It initializes some internal data structures. Don't forget to close the function by .cfi_endproc.

Unless .cfi_startproc is used along with parameter simple it also emits some architecture dependent initial CFI instructions.

7.10 .cfi_endproc

.cfi_endproc is used at the end of a function where it closes its unwind entry previously opened by .cfi_startproc, and emits it to .eh_frame.

7.11 .cfi_personality encoding [, exp]

.cfi_personality defines personality routine and its encoding. encoding must be a constant determining how the personality should be encoded. If it is 255 (DW_EH_PE_omit), second argument is not present, otherwise second argument should be a constant or a symbol name. When using indirect encodings, the symbol provided should be the location where personality can be loaded from, not the personality routine itself. The default after .cfi_startproc is .cfi_personality 0xff, no personality routine.

7.12 .cfi_lsda encoding [, exp]

.cfi_lsda defines LSDA and its encoding. encoding must be a constant determining how the LSDA should be encoded. If it is 255 (DW_EH_PE_omit), second argument is not present, otherwise second argument should be a constant or a symbol name. The default after .cfi_startproc is .cfi_lsda 0xff, no LSDA.

7.13 .cfi_def_cfa register, offset

.cfi_def_cfa defines a rule for computing CFA as: take address from register and add offset to it.

7.14 .cfi_def_cfa_register register

.cfi_def_cfa_register modifies a rule for computing CFA. From now on register will be used instead of the old one. Offset remains the same.

7.15 .cfi_def_cfa_offset offset

.cfi_def_cfa_offset modifies a rule for computing CFA. Register remains the same, but offset is new. Note that it is the absolute offset that will be added to a defined register to compute CFA address.

7.16 .cfi_adjust_cfa_offset offset

Same as .cfi_def_cfa_offset but offset is a relative value that is added/substracted from the previous offset.

7.17 .cfi_offset register, offset

Previous value of register is saved at offset offset from CFA.

7.18 .cfi_rel_offset register, offset

Previous value of register is saved at offset offset from the current CFA register. This is transformed to .cfi_offset using the known displacement of the CFA register from the CFA. This is often easier to use, because the number will match the code it's annotating.

7.19 .cfi_register register1, register2

Previous value of register1 is saved in register register2.

7.20 .cfi_restore register

.cfi_restore says that the rule for register is now the same as it was at the beginning of the function, after all initial instruction added by .cfi_startproc were executed.

7.21 .cfi_undefined register

From now on the previous value of register can't be restored anymore.

7.22 .cfi_same_value register

Current value of register is the same like in the previous frame, i.e. no restoration needed.

7.23 .cfi_remember_state,

First save all current rules for all registers by .cfi_remember_state, then totally screw them up by subsequent .cfi_* directives and when everything is hopelessly bad, use .cfi_restore_state to restore the previous saved state.

7.24 .cfi_return_column register

Change return column register, i.e. the return address is either directly in register or can be accessed by rules for register.

7.25 .cfi_signal_frame

Mark current function as signal trampoline.

7.26 .cfi_window_save

SPARC register window has been saved.

7.27 .cfi_escape expression[, ...]

Allows the user to add arbitrary bytes to the unwind info. One might use this to add OS-specific CFI opcodes, or generic CFI opcodes that GAS does not yet support.

7.28 .cfi_val_encoded_addr register, encoding, label

The current value of register is label. The value of label will be encoded in the output file according to encoding; see the description of .cfi_personality for details on this encoding.

The usefulness of equating a register to a fixed label is probably limited to the return address register. Here, it can be useful to mark a code segment that has only one return address which is reached by a direct branch and no copy of the return address exists in memory or another register.