esp-open-rtos/core/include/common_macros.h

/* Some common compiler macros
 *
 * Not esp8266-specific.
 *
 * Part of esp-open-rtos
 * Copyright (C) 2015 Superhouse Automation Pty Ltd
 * BSD Licensed as described in the file LICENSE
 */

#ifndef _COMMON_MACROS_H
#define _COMMON_MACROS_H

#include <sys/cdefs.h>

#define UNUSED __attributed((unused))

#ifndef BIT
#define BIT(X) (1<<(X))
#endif

/* These macros convert values to/from bitfields specified by *_M and *_S (mask
 * and shift) constants.  Used primarily with ESP8266 register access.
 */

#define VAL2FIELD(fieldname, value) ((value) << fieldname##_S)
#define FIELD2VAL(fieldname, regbits) (((regbits) >> fieldname##_S) & fieldname##_M)

#define FIELD_MASK(fieldname) (fieldname##_M << fieldname##_S)
#define SET_FIELD(regbits, fieldname, value) (((regbits) & ~FIELD_MASK(fieldname)) | VAL2FIELD(fieldname, value))

/* VAL2FIELD/SET_FIELD do not normally check to make sure that the passed value
 * will fit in the specified field (without clobbering other bits).  This makes
 * them faster and is usually fine.  If you do need to make sure that the value
 * will not overflow the field, use VAL2FIELD_M or SET_FIELD_M (which will
 * first mask the supplied value to only the allowed number of bits) instead.
 */
#define VAL2FIELD_M(fieldname, value) (((value) & fieldname##_M) << fieldname##_S)
#define SET_FIELD_M(regbits, fieldname, value) (((regbits) & ~FIELD_MASK(fieldname)) | VAL2FIELD_M(fieldname, value))

/* Set bits in reg with specified mask.
 */
#define SET_MASK_BITS(reg, mask) (reg) |= (mask)

/* Clear bits in reg with specified mask
 */
#define CLEAR_MASK_BITS(reg, mask) (reg) &= ~(mask)

/* Use the IRAM macro to place functions into Instruction RAM (IRAM)
   instead of flash (aka irom).

   (This is the opposite to the Espressif SDK, where functions default
   to being placed in IRAM but the ICACHE_FLASH_ATTR attribute will
   place them in flash.)

   Use the IRAM attribute for functions which are called when the
   flash may not be available (for example during NMI exceptions), or
   for functions which are called very frequently and need high
   performance.

   Usage example:

   void IRAM high_performance_function(void)
   {
       // do important thing here
   }

   Bear in mind IRAM is limited (32KB), compared to up to 1MB of flash.
*/
#define IRAM __attribute__((section(".iram1.text")))

/* Use the RAM macro to place constant data (rodata) into RAM (data
   RAM) instead of the default placement in flash. This is useful for
   constant data which needs high performance access.

   Usage example:

   const RAM uint8_t constants[] = { 1, 2, 3, 7 };

   When placing string literals in RAM, they need to be declared with
   the type "const char[]" not "const char *"

   Usage example:

   const RAM char hello_world[] = "Hello World";
*/
#define RAM __attribute__((section(".data")))

/* Use the IRAM_DATA macro to place data into Instruction RAM (IRAM)
   instead of the default of flash (for constant data) or data RAM
   (for non-constant data).

   This may be useful to free up data RAM. However all data read from
   any instruction space (either IRAM or Flash) must be 32-bit aligned
   word reads. Reading unaligned data stored with IRAM_DATA will be
   slower than reading data stored in RAM. You can't perform unaligned
   writes to IRAM.
*/
#define IRAM_DATA __attribute__((section(".iram1.data")))

/* Use the IROM macro to store constant values in IROM flash. In
  esp-open-rtos this is already the default location for most constant
  data (rodata), so you don't need this attribute in 99% of cases.

  The exceptions are to mark data in the core & freertos libraries,
  where the default for constant data storage is RAM.

  (Unlike the Espressif SDK you don't need to use an attribute like
  ICACHE_FLASH_ATTR for functions, they go into flash by default.)

  Important to note: IROM flash is accessed via 32-bit word aligned
  reads. esp-open-rtos does some magic to "fix" unaligned reads, but
  performance is reduced.
*/
#ifdef	__cplusplus
    #define IROM __attribute__((section(".irom0.literal")))
#else
    #define IROM __attribute__((section(".irom0.literal"))) const
#endif


#endif
Basic support for GPIOs 0-15. Start new 'core' component for low-level parts Progress towards #8 2015-06-05 01:46:25 +00:00			`/* Some common compiler macros`
Preprocess all binary SDK symbols to add an sdk_ prefix * This fixes the problem of axTLS symbols hmac_md5/hmac_sha1 having same name as symbols in libwpa (which have incompatible signatures) * Also allows for easier identification and piece-by-piece removal of binary functions. * Some libc symbols are not renamed, list is in lib/symbols_norename.txt 2015-05-30 09:11:04 +00:00			`*`
Basic support for GPIOs 0-15. Start new 'core' component for low-level parts Progress towards #8 2015-06-05 01:46:25 +00:00			`* Not esp8266-specific.`
Preprocess all binary SDK symbols to add an sdk_ prefix * This fixes the problem of axTLS symbols hmac_md5/hmac_sha1 having same name as symbols in libwpa (which have incompatible signatures) * Also allows for easier identification and piece-by-piece removal of binary functions. * Some libc symbols are not renamed, list is in lib/symbols_norename.txt 2015-05-30 09:11:04 +00:00			`*`
Add README, 'make help', header comments, Copyright notices 2015-06-02 05:06:40 +00:00			`* Part of esp-open-rtos`
Basic support for GPIOs 0-15. Start new 'core' component for low-level parts Progress towards #8 2015-06-05 01:46:25 +00:00			`* Copyright (C) 2015 Superhouse Automation Pty Ltd`
Preprocess all binary SDK symbols to add an sdk_ prefix * This fixes the problem of axTLS symbols hmac_md5/hmac_sha1 having same name as symbols in libwpa (which have incompatible signatures) * Also allows for easier identification and piece-by-piece removal of binary functions. * Some libc symbols are not renamed, list is in lib/symbols_norename.txt 2015-05-30 09:11:04 +00:00			`* BSD Licensed as described in the file LICENSE`
			`*/`

Basic support for GPIOs 0-15. Start new 'core' component for low-level parts Progress towards #8 2015-06-05 01:46:25 +00:00			`#ifndef _COMMON_MACROS_H`
			`#define _COMMON_MACROS_H`

common_macros: Include sys/cdefs.h, defines _Static_assert among others 2015-08-26 01:11:31 +00:00			`#include <sys/cdefs.h>`

Basic support for GPIOs 0-15. Start new 'core' component for low-level parts Progress towards #8 2015-06-05 01:46:25 +00:00			`#define UNUSED __attributed((unused))`

			`#ifndef BIT`
Minor core header cleanups 2015-06-17 23:00:02 +00:00			`#define BIT(X) (1<<(X))`
Basic support for GPIOs 0-15. Start new 'core' component for low-level parts Progress towards #8 2015-06-05 01:46:25 +00:00			`#endif`
Preprocess all binary SDK symbols to add an sdk_ prefix * This fixes the problem of axTLS symbols hmac_md5/hmac_sha1 having same name as symbols in libwpa (which have incompatible signatures) * Also allows for easier identification and piece-by-piece removal of binary functions. * Some libc symbols are not renamed, list is in lib/symbols_norename.txt 2015-05-30 09:11:04 +00:00
Add esp/iomux_regs.h 2015-08-19 00:38:31 +00:00			`/* These macros convert values to/from bitfields specified by _M and _S (mask`
			`* and shift) constants. Used primarily with ESP8266 register access.`
			`*/`

Remove unnecessary AND for VAL2FIELD macro Added VAL2FIELD_M / SET_FIELD_M for rare cases when there might actually be some need for it. 2015-08-26 00:07:06 +00:00			`#define VAL2FIELD(fieldname, value) ((value) << fieldname##_S)`
Add esp/iomux_regs.h 2015-08-19 00:38:31 +00:00			`#define FIELD2VAL(fieldname, regbits) (((regbits) >> fieldname##_S) & fieldname##_M)`

Add esp/gpio_regs.h 2015-08-19 05:46:25 +00:00			`#define FIELD_MASK(fieldname) (fieldname##_M << fieldname##_S)`
			`#define SET_FIELD(regbits, fieldname, value) (((regbits) & ~FIELD_MASK(fieldname)) \| VAL2FIELD(fieldname, value))`
Add esp/iomux_regs.h 2015-08-19 00:38:31 +00:00
Remove unnecessary AND for VAL2FIELD macro Added VAL2FIELD_M / SET_FIELD_M for rare cases when there might actually be some need for it. 2015-08-26 00:07:06 +00:00			`/* VAL2FIELD/SET_FIELD do not normally check to make sure that the passed value`
			`* will fit in the specified field (without clobbering other bits). This makes`
			`* them faster and is usually fine. If you do need to make sure that the value`
			`* will not overflow the field, use VAL2FIELD_M or SET_FIELD_M (which will`
			`* first mask the supplied value to only the allowed number of bits) instead.`
			`*/`
			`#define VAL2FIELD_M(fieldname, value) (((value) & fieldname##_M) << fieldname##_S)`
			`#define SET_FIELD_M(regbits, fieldname, value) (((regbits) & ~FIELD_MASK(fieldname)) \| VAL2FIELD_M(fieldname, value))`

i2s_dma: Implementation of I2S + DMA wrapper library 2016-08-16 07:10:35 +00:00			`/* Set bits in reg with specified mask.`
			`*/`
			`#define SET_MASK_BITS(reg, mask) (reg) \|= (mask)`

			`/* Clear bits in reg with specified mask`
			`*/`
			`#define CLEAR_MASK_BITS(reg, mask) (reg) &= ~(mask)`

Add new "RAM" storage macro for putting constant data in RAM Also update comments in common_macros.h following #142 2016-05-28 02:29:28 +00:00			`/* Use the IRAM macro to place functions into Instruction RAM (IRAM)`
			`instead of flash (aka irom).`
Preprocess all binary SDK symbols to add an sdk_ prefix * This fixes the problem of axTLS symbols hmac_md5/hmac_sha1 having same name as symbols in libwpa (which have incompatible signatures) * Also allows for easier identification and piece-by-piece removal of binary functions. * Some libc symbols are not renamed, list is in lib/symbols_norename.txt 2015-05-30 09:11:04 +00:00
Add new "RAM" storage macro for putting constant data in RAM Also update comments in common_macros.h following #142 2016-05-28 02:29:28 +00:00			`(This is the opposite to the Espressif SDK, where functions default`
			`to being placed in IRAM but the ICACHE_FLASH_ATTR attribute will`
			`place them in flash.)`
Preprocess all binary SDK symbols to add an sdk_ prefix * This fixes the problem of axTLS symbols hmac_md5/hmac_sha1 having same name as symbols in libwpa (which have incompatible signatures) * Also allows for easier identification and piece-by-piece removal of binary functions. * Some libc symbols are not renamed, list is in lib/symbols_norename.txt 2015-05-30 09:11:04 +00:00
Add new "RAM" storage macro for putting constant data in RAM Also update comments in common_macros.h following #142 2016-05-28 02:29:28 +00:00			`Use the IRAM attribute for functions which are called when the`
			`flash may not be available (for example during NMI exceptions), or`
			`for functions which are called very frequently and need high`
			`performance.`
Preprocess all binary SDK symbols to add an sdk_ prefix * This fixes the problem of axTLS symbols hmac_md5/hmac_sha1 having same name as symbols in libwpa (which have incompatible signatures) * Also allows for easier identification and piece-by-piece removal of binary functions. * Some libc symbols are not renamed, list is in lib/symbols_norename.txt 2015-05-30 09:11:04 +00:00
Add new "RAM" storage macro for putting constant data in RAM Also update comments in common_macros.h following #142 2016-05-28 02:29:28 +00:00			`Usage example:`
Preprocess all binary SDK symbols to add an sdk_ prefix * This fixes the problem of axTLS symbols hmac_md5/hmac_sha1 having same name as symbols in libwpa (which have incompatible signatures) * Also allows for easier identification and piece-by-piece removal of binary functions. * Some libc symbols are not renamed, list is in lib/symbols_norename.txt 2015-05-30 09:11:04 +00:00
Add new "RAM" storage macro for putting constant data in RAM Also update comments in common_macros.h following #142 2016-05-28 02:29:28 +00:00			`void IRAM high_performance_function(void)`
			`{`
			`// do important thing here`
			`}`
Removed INLINED (force inline) macro. Progress towards #57. 2015-11-28 07:01:03 +00:00
			`Bear in mind IRAM is limited (32KB), compared to up to 1MB of flash.`
			`*/`
Add IRAM attribute for IRAM loaded symbols, add to common FreeRTOS functions Closes #7. It'd be nice to change the linker script so .text is always linked to IROM instead of needing to objcopy each compiled file. The sticking point for this is libgcc & libhal, which have symbols in .text that need to be loaded to IRAM. 2015-06-08 07:54:46 +00:00			`#define IRAM __attribute__((section(".iram1.text")))`

Add new "RAM" storage macro for putting constant data in RAM Also update comments in common_macros.h following #142 2016-05-28 02:29:28 +00:00			`/* Use the RAM macro to place constant data (rodata) into RAM (data`
			`RAM) instead of the default placement in flash. This is useful for`
			`constant data which needs high performance access.`

			`Usage example:`

			`const RAM uint8_t constants[] = { 1, 2, 3, 7 };`
Removed INLINED (force inline) macro. Progress towards #57. 2015-11-28 07:01:03 +00:00
Add new "RAM" storage macro for putting constant data in RAM Also update comments in common_macros.h following #142 2016-05-28 02:29:28 +00:00			`When placing string literals in RAM, they need to be declared with`
			`the type "const char[]" not "const char *"`

			`Usage example:`

			`const RAM char hello_world[] = "Hello World";`
			`*/`
			`#define RAM __attribute__((section(".data")))`

			`/* Use the IRAM_DATA macro to place data into Instruction RAM (IRAM)`
			`instead of the default of flash (for constant data) or data RAM`
			`(for non-constant data).`
Fatal exceptions: Cleanly deal with exceptions that occur inside fatal_exception_handler_inner() In case of heap corruption or some other major problem, dumping details in the exception handler can cause a crash loop - so fail out if we seem to be going in circles. 2016-05-16 23:08:53 +00:00
Removed INLINED (force inline) macro. Progress towards #57. 2015-11-28 07:01:03 +00:00			`This may be useful to free up data RAM. However all data read from`
Add new "RAM" storage macro for putting constant data in RAM Also update comments in common_macros.h following #142 2016-05-28 02:29:28 +00:00			`any instruction space (either IRAM or Flash) must be 32-bit aligned`
			`word reads. Reading unaligned data stored with IRAM_DATA will be`
			`slower than reading data stored in RAM. You can't perform unaligned`
			`writes to IRAM.`
			`*/`
			`#define IRAM_DATA __attribute__((section(".iram1.data")))`

			`/* Use the IROM macro to store constant values in IROM flash. In`
			`esp-open-rtos this is already the default location for most constant`
			`data (rodata), so you don't need this attribute in 99% of cases.`

			`The exceptions are to mark data in the core & freertos libraries,`
			`where the default for constant data storage is RAM.`

			`(Unlike the Espressif SDK you don't need to use an attribute like`
			`ICACHE_FLASH_ATTR for functions, they go into flash by default.)`

			`Important to note: IROM flash is accessed via 32-bit word aligned`
			`reads. esp-open-rtos does some magic to "fix" unaligned reads, but`
			`performance is reduced.`
Removed INLINED (force inline) macro. Progress towards #57. 2015-11-28 07:01:03 +00:00			`*/`
Add new "RAM" storage macro for putting constant data in RAM Also update comments in common_macros.h following #142 2016-05-28 02:29:28 +00:00			`#ifdef __cplusplus`
			`#define IROM __attribute__((section(".irom0.literal")))`
			`#else`
			`#define IROM __attribute__((section(".irom0.literal"))) const`
			`#endif`

Removed INLINED (force inline) macro. Progress towards #57. 2015-11-28 07:01:03 +00:00
Preprocess all binary SDK symbols to add an sdk_ prefix * This fixes the problem of axTLS symbols hmac_md5/hmac_sha1 having same name as symbols in libwpa (which have incompatible signatures) * Also allows for easier identification and piece-by-piece removal of binary functions. * Some libc symbols are not renamed, list is in lib/symbols_norename.txt 2015-05-30 09:11:04 +00:00			`#endif`