FreeCalypso > hg > fc-magnetite
view src/cs/layer1/gtt_include/ctm/fifo.h @ 673:62a5285e014a
Lorekeeping: allow tpudrv-leonardo.lib on Leonardo/Tango
Back in 2015 the Mother's idea was to produce a FreeCalypso development
board that would be a clone of TI Leonardo, including the original
quadband RFFE; one major additional stipulation was that this board
needed to be able to run original unmodified TCS211-20070608 firmware
with all blobs intact, with only minimal binary patches to main.lib
and tpudrv.lib. The necessary patched libs were produced at that time
in the tcs211-patches repository.
That plan was changed and we produced FCDEV3B instead, with Openmoko's
triband RFFE instead of Leonardo quadband, but when FC Magnetite started
in 2016, a TPUDRV_blob= provision was still made, allowing the possibility
of patching OM's tpudrv.lib for a restored Leonardo RFFE.
Now in 2020 we have FC Tango which is essentially a verbatim clone of
Leonardo core, including the original quadband RFFE. We have also
deblobbed our firmware so much that we have absolutely no real need
for a blob version of tpudrv.lib - but I thought it would be neat to put
the ancient TPUDRV_blob= mechanism (classic config) to its originally
intended use, just for the heck of it.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Fri, 29 May 2020 03:55:36 +0000 |
| parents | 945cf7f506b2 |
| children |
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/* ******************************************************************************* * * COPYRIGHT (C) 2000 BY ERICSSON EUROLAB DEUTSCHLAND GmbH * 90411 NUERNBERG, GERMANY, Tel Int + 49 911 5217 100 * * The program(s) may be used and/or copied only with the * written permission from Ericsson or in accordance * with the terms and conditions stipulated in the agreement or * contract under which the program(s) have been supplied. * ******************************************************************************* * * File : fifo.h * Author : Matthias Doerbecker * Tested Platforms : DEC Alpha 250 4/266 (OSF/1 3.2) * Description : File I/O for float and double (32/64 bit signed) * values. * * Revision history * * Rev Date Name Description * ------------------------------------------------------------------- * pA1 12-MAR-97 M.Doerbecker initial version * (based on shortio.h pA2) * ******************************************************************************* */ #ifndef fifo_h #define fifo_h "$Id: $" /* ******************************************************************************* * INCLUDE FILES ******************************************************************************* */ #include "ctm_typedefs.h" /* ******************************************************************************* * DEFINITION OF CONSTANTS ******************************************************************************* */ /* ******************************************************************************* * DEFINITION OF DATA TYPES ******************************************************************************* */ // typedef float Float; // typedef char Char; typedef enum {SHORTINT_FIFO, FLOAT_FIFO, CHAR_FIFO} fifo_type_t; /* fifo_state_t is the state variable type that is used for both types */ /* of fifo structures: Shortint_fifo as well as Float_fifo. */ typedef struct { WORD16 *buffer_Shortint; /* buffer for Shortint_fifo_xxx() */ Float *buffer_Float; /* buffer for Float_fifo_xxx() */ Char *buffer_Char; /* buffer for Char_fifo_xxx() */ WORD32 length_buffer; /* maximum length of the fifo buffer */ WORD32 num_entries_actual;/* actual number of elements in fifo */ fifo_type_t fifo_type; /* either SHORTINT_FIFO or FLOAT_FIFO */ WORD32 magic_number; /* for detecting wheter fifo is initialized */ } fifo_state_t; /* ******************************************************************************* * DECLARATION OF PROTOTYPES ******************************************************************************* */ /* ******************************************************************************* * * Function : Shortint_fifo_init * In : length_fifo determines maximukm length of the buffer * Out : fifo_state initialized state variable * Calls : calloc, fprintf, exit * Tables : <none> * Compile Defines : <none> * Return : 0 on success, 1 in case of an error * Information : initialization of a fifo structure for buffering * Shortint data * ******************************************************************************* */ int Shortint_fifo_init(fifo_state_t *fifo_state, WORD32 length_fifo); /* ******************************************************************************* * * Function : Shortint_fifo_reset * In : * In/Out : fifo_state initialized state variable * Calls : <none> * Tables : <none> * Compile Defines : <none> * Return : 0 on success, 1 in case of an error * Information : reset of the fifo structure, i.e. all buffered * elements are removed * ******************************************************************************* */ int Shortint_fifo_reset(fifo_state_t *fifo_state); /* ******************************************************************************* * * Function : Shortint_fifo_exit * In : length_fifo determines maximum length of the buffer * In/Out : fifo_state initialized state variable * Calls : free, fprintf, exit * Tables : <none> * Compile Defines : <none> * Return : 0 on success, 1 in case of an error * Information : shuts down fifo structure, frees allocated memory * ******************************************************************************* */ int Shortint_fifo_exit(fifo_state_t *fifo_state); /* ******************************************************************************* * * Function : Shortint_fifo_push * In : elements_to_push vector containing the elements * In num_elements_to_push number of the elements * In/Out : fifo_state state variable * Calls : fprintf, exit * Tables : <none> * Compile Defines : <none> * Return : 0 on success, 1 in case of an error * Information : pushes elements into the fifo * ******************************************************************************* */ int Shortint_fifo_push(fifo_state_t *fifo_state, WORD16 *elements_to_push, WORD32 num_elements_to_push); /* ******************************************************************************* * * Function : Shortint_fifo_pop * In : num_elements_to_pop number of the elements * Out : popped_elements vector containing the elements * In/Out : fifo_state state variable * Calls : fprintf, exit * Tables : <none> * Compile Defines : <none> * Return : 0 on success, 1 in case of an error * Information : pops elements from the fifo * ******************************************************************************* */ int Shortint_fifo_pop(fifo_state_t *fifo_state, WORD16 *popped_elements, WORD32 num_elements_to_pop); /* ******************************************************************************* * * Function : Shortint_fifo_peek * In : num_elements_to_peek number of the elements * Out : peeked_elements vector containing the elements * In/Out : fifo_state state variable * Calls : fprintf, exit * Tables : <none> * Compile Defines : <none> * Return : 0 on success, 1 in case of an error * Information : similar to pop, but elements are remaining in buffer * ******************************************************************************* */ int Shortint_fifo_peek(fifo_state_t *fifo_state, WORD16 *peeked_elements, WORD32 num_elements_to_peek); /* ******************************************************************************* * * Function : Shortint_fifo_check * In/Out : fifo_state state variable * Calls : <none> * Tables : <none> * Compile Defines : <none> * Return : number of elements in fifo * Information : determines the number of valid elements in fifo * ******************************************************************************* */ WORD32 Shortint_fifo_check(fifo_state_t *fifo_state); #endif