2017-10-12 15:59:41 +03:00
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..
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Copyright (c) 2017 Linaro Limited
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Written by Peter Maydell
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===================
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Load and Store APIs
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===================
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QEMU internally has multiple families of functions for performing
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loads and stores. This document attempts to enumerate them all
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and indicate when to use them. It does not provide detailed
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documentation of each API -- for that you should look at the
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documentation comments in the relevant header files.
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``ld*_p and st*_p``
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~~~~~~~~~~~~~~~~~~~
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These functions operate on a host pointer, and should be used
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when you already have a pointer into host memory (corresponding
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to guest ram or a local buffer). They deal with doing accesses
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with the desired endianness and with correctly handling
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potentially unaligned pointer values.
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Function names follow the pattern:
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2021-02-11 15:27:49 +03:00
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load: ``ld{sign}{size}_{endian}_p(ptr)``
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2017-10-12 15:59:41 +03:00
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2021-02-11 15:27:49 +03:00
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store: ``st{size}_{endian}_p(ptr, val)``
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2017-10-12 15:59:41 +03:00
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``sign``
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2021-02-11 15:27:49 +03:00
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- (empty) : for 32 or 64 bit sizes
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2017-10-12 15:59:41 +03:00
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- ``u`` : unsigned
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- ``s`` : signed
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``size``
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- ``b`` : 8 bits
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- ``w`` : 16 bits
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- ``l`` : 32 bits
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- ``q`` : 64 bits
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``endian``
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- ``he`` : host endian
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- ``be`` : big endian
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- ``le`` : little endian
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The ``_{endian}`` infix is omitted for target-endian accesses.
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The target endian accessors are only available to source
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files which are built per-target.
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2018-06-15 16:57:14 +03:00
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There are also functions which take the size as an argument:
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load: ``ldn{endian}_p(ptr, sz)``
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which performs an unsigned load of ``sz`` bytes from ``ptr``
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as an ``{endian}`` order value and returns it in a uint64_t.
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store: ``stn{endian}_p(ptr, sz, val)``
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which stores ``val`` to ``ptr`` as an ``{endian}`` order value
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of size ``sz`` bytes.
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2017-10-12 15:59:41 +03:00
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Regexes for git grep
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2021-02-11 15:27:49 +03:00
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- ``\<ld[us]\?[bwlq]\(_[hbl]e\)\?_p\>``
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- ``\<st[bwlq]\(_[hbl]e\)\?_p\>``
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2018-06-15 16:57:14 +03:00
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- ``\<ldn_\([hbl]e\)?_p\>``
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- ``\<stn_\([hbl]e\)?_p\>``
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2017-10-12 15:59:41 +03:00
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2019-12-10 08:10:04 +03:00
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``cpu_{ld,st}*_mmuidx_ra``
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~~~~~~~~~~~~~~~~~~~~~~~~~~
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These functions operate on a guest virtual address plus a context,
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known as a "mmu index" or ``mmuidx``, which controls how that virtual
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address is translated. The meaning of the indexes are target specific,
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but specifying a particular index might be necessary if, for instance,
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the helper requires an "always as non-privileged" access rather that
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the default access for the current state of the guest CPU.
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These functions may cause a guest CPU exception to be taken
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(e.g. for an alignment fault or MMU fault) which will result in
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guest CPU state being updated and control longjmp'ing out of the
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function call. They should therefore only be used in code that is
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implementing emulation of the guest CPU.
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The ``retaddr`` parameter is used to control unwinding of the
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guest CPU state in case of a guest CPU exception. This is passed
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to ``cpu_restore_state()``. Therefore the value should either be 0,
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to indicate that the guest CPU state is already synchronized, or
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the result of ``GETPC()`` from the top level ``HELPER(foo)``
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2020-10-15 12:51:47 +03:00
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function, which is a return address into the generated code [#gpc]_.
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.. [#gpc] Note that ``GETPC()`` should be used with great care: calling
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it in other functions that are *not* the top level
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``HELPER(foo)`` will cause unexpected behavior. Instead, the
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value of ``GETPC()`` should be read from the helper and passed
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if needed to the functions that the helper calls.
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2017-10-12 15:59:41 +03:00
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Function names follow the pattern:
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2020-05-08 18:43:46 +03:00
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load: ``cpu_ld{sign}{size}{end}_mmuidx_ra(env, ptr, mmuidx, retaddr)``
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2017-10-12 15:59:41 +03:00
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2020-05-08 18:43:46 +03:00
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store: ``cpu_st{size}{end}_mmuidx_ra(env, ptr, val, mmuidx, retaddr)``
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2017-10-12 15:59:41 +03:00
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``sign``
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- (empty) : for 32 or 64 bit sizes
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- ``u`` : unsigned
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- ``s`` : signed
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``size``
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- ``b`` : 8 bits
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- ``w`` : 16 bits
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- ``l`` : 32 bits
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- ``q`` : 64 bits
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2020-05-08 18:43:46 +03:00
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``end``
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- (empty) : for target endian, or 8 bit sizes
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- ``_be`` : big endian
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- ``_le`` : little endian
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2019-12-10 08:10:04 +03:00
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Regexes for git grep:
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2020-05-08 18:43:46 +03:00
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- ``\<cpu_ld[us]\?[bwlq](_[bl]e)\?_mmuidx_ra\>``
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- ``\<cpu_st[bwlq](_[bl]e)\?_mmuidx_ra\>``
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2019-12-10 08:10:04 +03:00
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``cpu_{ld,st}*_data_ra``
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~~~~~~~~~~~~~~~~~~~~~~~~
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These functions work like the ``cpu_{ld,st}_mmuidx_ra`` functions
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except that the ``mmuidx`` parameter is taken from the current mode
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of the guest CPU, as determined by ``cpu_mmu_index(env, false)``.
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These are generally the preferred way to do accesses by guest
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virtual address from helper functions, unless the access should
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be performed with a context other than the default.
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Function names follow the pattern:
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2020-05-08 18:43:46 +03:00
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load: ``cpu_ld{sign}{size}{end}_data_ra(env, ptr, ra)``
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2019-12-10 08:10:04 +03:00
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2020-05-08 18:43:46 +03:00
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store: ``cpu_st{size}{end}_data_ra(env, ptr, val, ra)``
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2019-12-10 08:10:04 +03:00
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``sign``
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- (empty) : for 32 or 64 bit sizes
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- ``u`` : unsigned
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- ``s`` : signed
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``size``
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- ``b`` : 8 bits
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- ``w`` : 16 bits
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- ``l`` : 32 bits
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- ``q`` : 64 bits
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2020-05-08 18:43:46 +03:00
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``end``
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- (empty) : for target endian, or 8 bit sizes
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- ``_be`` : big endian
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- ``_le`` : little endian
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2019-12-10 08:10:04 +03:00
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Regexes for git grep:
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2020-05-08 18:43:46 +03:00
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- ``\<cpu_ld[us]\?[bwlq](_[bl]e)\?_data_ra\>``
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- ``\<cpu_st[bwlq](_[bl]e)\?_data_ra\>``
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2019-12-10 08:10:04 +03:00
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``cpu_{ld,st}*_data``
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~~~~~~~~~~~~~~~~~~~~~
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These functions work like the ``cpu_{ld,st}_data_ra`` functions
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except that the ``retaddr`` parameter is 0, and thus does not
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unwind guest CPU state.
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This means they must only be used from helper functions where the
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translator has saved all necessary CPU state. These functions are
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the right choice for calls made from hooks like the CPU ``do_interrupt``
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hook or when you know for certain that the translator had to save all
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the CPU state anyway.
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Function names follow the pattern:
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2020-05-08 18:43:46 +03:00
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load: ``cpu_ld{sign}{size}{end}_data(env, ptr)``
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2019-12-10 08:10:04 +03:00
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2020-05-08 18:43:46 +03:00
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store: ``cpu_st{size}{end}_data(env, ptr, val)``
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2019-12-10 08:10:04 +03:00
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``sign``
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- (empty) : for 32 or 64 bit sizes
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- ``u`` : unsigned
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- ``s`` : signed
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``size``
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- ``b`` : 8 bits
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- ``w`` : 16 bits
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- ``l`` : 32 bits
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- ``q`` : 64 bits
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2017-10-12 15:59:41 +03:00
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2020-05-08 18:43:46 +03:00
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``end``
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- (empty) : for target endian, or 8 bit sizes
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- ``_be`` : big endian
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- ``_le`` : little endian
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2017-10-12 15:59:41 +03:00
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Regexes for git grep
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2020-05-08 18:43:46 +03:00
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- ``\<cpu_ld[us]\?[bwlq](_[bl]e)\?_data\>``
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- ``\<cpu_st[bwlq](_[bl]e)\?_data\+\>``
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2017-10-12 15:59:41 +03:00
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2019-12-10 08:10:04 +03:00
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``cpu_ld*_code``
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~~~~~~~~~~~~~~~~
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2017-10-12 15:59:41 +03:00
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2019-12-10 08:10:04 +03:00
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These functions perform a read for instruction execution. The ``mmuidx``
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parameter is taken from the current mode of the guest CPU, as determined
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by ``cpu_mmu_index(env, true)``. The ``retaddr`` parameter is 0, and
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thus does not unwind guest CPU state, because CPU state is always
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synchronized while translating instructions. Any guest CPU exception
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that is raised will indicate an instruction execution fault rather than
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a data read fault.
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2017-10-12 15:59:41 +03:00
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2019-12-10 08:10:04 +03:00
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In general these functions should not be used directly during translation.
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There are wrapper functions that are to be used which also take care of
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plugins for tracing.
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Function names follow the pattern:
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load: ``cpu_ld{sign}{size}_code(env, ptr)``
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``sign``
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- (empty) : for 32 or 64 bit sizes
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- ``u`` : unsigned
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- ``s`` : signed
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``size``
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- ``b`` : 8 bits
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- ``w`` : 16 bits
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- ``l`` : 32 bits
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- ``q`` : 64 bits
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Regexes for git grep:
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- ``\<cpu_ld[us]\?[bwlq]_code\>``
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``translator_ld*``
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~~~~~~~~~~~~~~~~~~
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These functions are a wrapper for ``cpu_ld*_code`` which also perform
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any actions required by any tracing plugins. They are only to be
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called during the translator callback ``translate_insn``.
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2017-10-12 15:59:41 +03:00
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2019-12-10 08:10:04 +03:00
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There is a set of functions ending in ``_swap`` which, if the parameter
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is true, returns the value in the endianness that is the reverse of
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the guest native endianness, as determined by ``TARGET_WORDS_BIGENDIAN``.
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2017-10-12 15:59:41 +03:00
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Function names follow the pattern:
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2019-12-10 08:10:04 +03:00
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load: ``translator_ld{sign}{size}(env, ptr)``
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2017-10-12 15:59:41 +03:00
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2019-12-10 08:10:04 +03:00
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swap: ``translator_ld{sign}{size}_swap(env, ptr, swap)``
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``sign``
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- (empty) : for 32 or 64 bit sizes
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- ``u`` : unsigned
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- ``s`` : signed
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``size``
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- ``b`` : 8 bits
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- ``w`` : 16 bits
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- ``l`` : 32 bits
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- ``q`` : 64 bits
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2017-10-12 15:59:41 +03:00
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Regexes for git grep
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2019-12-10 08:10:04 +03:00
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- ``\<translator_ld[us]\?[bwlq]\(_swap\)\?\>``
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2017-10-12 15:59:41 +03:00
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2019-12-10 08:10:04 +03:00
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``helper_*_{ld,st}*_mmu``
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~~~~~~~~~~~~~~~~~~~~~~~~~
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2017-10-12 15:59:41 +03:00
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These functions are intended primarily to be called by the code
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generated by the TCG backend. They may also be called by target
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2019-12-10 08:10:04 +03:00
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CPU helper function code. Like the ``cpu_{ld,st}_mmuidx_ra`` functions
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they perform accesses by guest virtual address, with a given ``mmuidx``.
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2017-10-12 15:59:41 +03:00
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2019-12-10 08:10:04 +03:00
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These functions specify an ``opindex`` parameter which encodes
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(among other things) the mmu index to use for the access. This parameter
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should be created by calling ``make_memop_idx()``.
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2017-10-12 15:59:41 +03:00
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The ``retaddr`` parameter should be the result of GETPC() called directly
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from the top level HELPER(foo) function (or 0 if no guest CPU state
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unwinding is required).
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**TODO** The names of these functions are a bit odd for historical
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reasons because they were originally expected to be called only from
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2019-12-10 08:10:04 +03:00
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within generated code. We should rename them to bring them more in
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line with the other memory access functions. The explicit endianness
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is the only feature they have beyond ``*_mmuidx_ra``.
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2017-10-12 15:59:41 +03:00
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load: ``helper_{endian}_ld{sign}{size}_mmu(env, addr, opindex, retaddr)``
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store: ``helper_{endian}_st{size}_mmu(env, addr, val, opindex, retaddr)``
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``sign``
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- (empty) : for 32 or 64 bit sizes
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- ``u`` : unsigned
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- ``s`` : signed
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``size``
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- ``b`` : 8 bits
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- ``w`` : 16 bits
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- ``l`` : 32 bits
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- ``q`` : 64 bits
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``endian``
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- ``le`` : little endian
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- ``be`` : big endian
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- ``ret`` : target endianness
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Regexes for git grep
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2019-12-11 22:25:10 +03:00
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- ``\<helper_\(le\|be\|ret\)_ld[us]\?[bwlq]_mmu\>``
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2017-10-12 15:59:41 +03:00
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- ``\<helper_\(le\|be\|ret\)_st[bwlq]_mmu\>``
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``address_space_*``
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~~~~~~~~~~~~~~~~~~~
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These functions are the primary ones to use when emulating CPU
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or device memory accesses. They take an AddressSpace, which is the
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way QEMU defines the view of memory that a device or CPU has.
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(They generally correspond to being the "master" end of a hardware bus
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or bus fabric.)
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Each CPU has an AddressSpace. Some kinds of CPU have more than
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2020-03-10 00:58:18 +03:00
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one AddressSpace (for instance Arm guest CPUs have an AddressSpace
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2017-10-12 15:59:41 +03:00
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for the Secure world and one for NonSecure if they implement TrustZone).
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Devices which can do DMA-type operations should generally have an
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AddressSpace. There is also a "system address space" which typically
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has all the devices and memory that all CPUs can see. (Some older
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device models use the "system address space" rather than properly
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modelling that they have an AddressSpace of their own.)
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Functions are provided for doing byte-buffer reads and writes,
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and also for doing one-data-item loads and stores.
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In all cases the caller provides a MemTxAttrs to specify bus
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transaction attributes, and can check whether the memory transaction
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succeeded using a MemTxResult return code.
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``address_space_read(address_space, addr, attrs, buf, len)``
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``address_space_write(address_space, addr, attrs, buf, len)``
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``address_space_rw(address_space, addr, attrs, buf, len, is_write)``
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``address_space_ld{sign}{size}_{endian}(address_space, addr, attrs, txresult)``
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``address_space_st{size}_{endian}(address_space, addr, val, attrs, txresult)``
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``sign``
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- (empty) : for 32 or 64 bit sizes
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- ``u`` : unsigned
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(No signed load operations are provided.)
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``size``
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- ``b`` : 8 bits
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- ``w`` : 16 bits
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- ``l`` : 32 bits
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- ``q`` : 64 bits
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``endian``
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- ``le`` : little endian
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- ``be`` : big endian
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The ``_{endian}`` suffix is omitted for byte accesses.
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Regexes for git grep
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- ``\<address_space_\(read\|write\|rw\)\>``
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- ``\<address_space_ldu\?[bwql]\(_[lb]e\)\?\>``
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- ``\<address_space_st[bwql]\(_[lb]e\)\?\>``
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2018-12-14 16:30:48 +03:00
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``address_space_write_rom``
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~~~~~~~~~~~~~~~~~~~~~~~~~~~
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This function performs a write by physical address like
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``address_space_write``, except that if the write is to a ROM then
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the ROM contents will be modified, even though a write by the guest
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CPU to the ROM would be ignored. This is used for non-guest writes
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like writes from the gdb debug stub or initial loading of ROM contents.
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Note that portions of the write which attempt to write data to a
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device will be silently ignored -- only real RAM and ROM will
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be written to.
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Regexes for git grep
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- ``address_space_write_rom``
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2017-10-12 15:59:41 +03:00
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``{ld,st}*_phys``
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~~~~~~~~~~~~~~~~~
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These are functions which are identical to
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``address_space_{ld,st}*``, except that they always pass
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``MEMTXATTRS_UNSPECIFIED`` for the transaction attributes, and ignore
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whether the transaction succeeded or failed.
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The fact that they ignore whether the transaction succeeded means
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they should not be used in new code, unless you know for certain
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|
that your code will only be used in a context where the CPU or
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device doing the access has no way to report such an error.
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``load: ld{sign}{size}_{endian}_phys``
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``store: st{size}_{endian}_phys``
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``sign``
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|
- (empty) : for 32 or 64 bit sizes
|
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|
|
- ``u`` : unsigned
|
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|
|
|
(No signed load operations are provided.)
|
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|
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|
|
``size``
|
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|
|
- ``b`` : 8 bits
|
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|
- ``w`` : 16 bits
|
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|
- ``l`` : 32 bits
|
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|
- ``q`` : 64 bits
|
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|
``endian``
|
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|
- ``le`` : little endian
|
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|
- ``be`` : big endian
|
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The ``_{endian}_`` infix is omitted for byte accesses.
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Regexes for git grep
|
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|
- ``\<ldu\?[bwlq]\(_[bl]e\)\?_phys\>``
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- ``\<st[bwlq]\(_[bl]e\)\?_phys\>``
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|
|
``cpu_physical_memory_*``
|
|
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
|
|
|
|
These are convenience functions which are identical to
|
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|
|
``address_space_*`` but operate specifically on the system address space,
|
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|
|
always pass a ``MEMTXATTRS_UNSPECIFIED`` set of memory attributes and
|
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|
|
ignore whether the memory transaction succeeded or failed.
|
|
|
|
For new code they are better avoided:
|
|
|
|
|
|
|
|
* there is likely to be behaviour you need to model correctly for a
|
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|
|
failed read or write operation
|
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|
|
* a device should usually perform operations on its own AddressSpace
|
|
|
|
rather than using the system address space
|
|
|
|
|
|
|
|
``cpu_physical_memory_read``
|
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|
|
|
|
|
|
``cpu_physical_memory_write``
|
|
|
|
|
|
|
|
``cpu_physical_memory_rw``
|
|
|
|
|
|
|
|
Regexes for git grep
|
|
|
|
- ``\<cpu_physical_memory_\(read\|write\|rw\)\>``
|
|
|
|
|
|
|
|
``cpu_memory_rw_debug``
|
|
|
|
~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
|
|
|
|
Access CPU memory by virtual address for debug purposes.
|
|
|
|
|
|
|
|
This function is intended for use by the GDB stub and similar code.
|
|
|
|
It takes a virtual address, converts it to a physical address via
|
|
|
|
an MMU lookup using the current settings of the specified CPU,
|
|
|
|
and then performs the access (using ``address_space_rw`` for
|
|
|
|
reads or ``cpu_physical_memory_write_rom`` for writes).
|
|
|
|
This means that if the access is a write to a ROM then this
|
|
|
|
function will modify the contents (whereas a normal guest CPU access
|
|
|
|
would ignore the write attempt).
|
|
|
|
|
|
|
|
``cpu_memory_rw_debug``
|
|
|
|
|
|
|
|
``dma_memory_*``
|
|
|
|
~~~~~~~~~~~~~~~~
|
|
|
|
|
|
|
|
These behave like ``address_space_*``, except that they perform a DMA
|
|
|
|
barrier operation first.
|
|
|
|
|
|
|
|
**TODO**: We should provide guidance on when you need the DMA
|
|
|
|
barrier operation and when it's OK to use ``address_space_*``, and
|
|
|
|
make sure our existing code is doing things correctly.
|
|
|
|
|
|
|
|
``dma_memory_read``
|
|
|
|
|
|
|
|
``dma_memory_write``
|
|
|
|
|
|
|
|
``dma_memory_rw``
|
|
|
|
|
|
|
|
Regexes for git grep
|
|
|
|
- ``\<dma_memory_\(read\|write\|rw\)\>``
|
2020-10-23 18:19:15 +03:00
|
|
|
- ``\<ldu\?[bwlq]\(_[bl]e\)\?_dma\>``
|
|
|
|
- ``\<st[bwlq]\(_[bl]e\)\?_dma\>``
|
2017-10-12 15:59:41 +03:00
|
|
|
|
|
|
|
``pci_dma_*`` and ``{ld,st}*_pci_dma``
|
|
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
|
|
|
|
These functions are specifically for PCI device models which need to
|
|
|
|
perform accesses where the PCI device is a bus master. You pass them a
|
|
|
|
``PCIDevice *`` and they will do ``dma_memory_*`` operations on the
|
|
|
|
correct address space for that device.
|
|
|
|
|
|
|
|
``pci_dma_read``
|
|
|
|
|
|
|
|
``pci_dma_write``
|
|
|
|
|
|
|
|
``pci_dma_rw``
|
|
|
|
|
|
|
|
``load: ld{sign}{size}_{endian}_pci_dma``
|
|
|
|
|
|
|
|
``store: st{size}_{endian}_pci_dma``
|
|
|
|
|
|
|
|
``sign``
|
|
|
|
- (empty) : for 32 or 64 bit sizes
|
|
|
|
- ``u`` : unsigned
|
|
|
|
|
|
|
|
(No signed load operations are provided.)
|
|
|
|
|
|
|
|
``size``
|
|
|
|
- ``b`` : 8 bits
|
|
|
|
- ``w`` : 16 bits
|
|
|
|
- ``l`` : 32 bits
|
|
|
|
- ``q`` : 64 bits
|
|
|
|
|
|
|
|
``endian``
|
|
|
|
- ``le`` : little endian
|
|
|
|
- ``be`` : big endian
|
|
|
|
|
|
|
|
The ``_{endian}_`` infix is omitted for byte accesses.
|
|
|
|
|
|
|
|
Regexes for git grep
|
|
|
|
- ``\<pci_dma_\(read\|write\|rw\)\>``
|
|
|
|
- ``\<ldu\?[bwlq]\(_[bl]e\)\?_pci_dma\>``
|
|
|
|
- ``\<st[bwlq]\(_[bl]e\)\?_pci_dma\>``
|