Fix typos involving "the the"

Change-Id: I179264ee6681a7ba4488b9f1c6bce1a19b4e1772
Signed-off-by: Jonathan Neuschäfer <j.neuschaefer@gmx.net>
Reviewed-on: https://review.coreboot.org/c/30160
Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
Reviewed-by: Angel Pons <th3fanbus@gmail.com>
This commit is contained in:
Jonathan Neuschäfer 2018-12-11 17:53:07 +01:00 committed by Patrick Georgi
parent 7ccb2821d2
commit 45e6c82e68
27 changed files with 51 additions and 51 deletions

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@ -264,7 +264,7 @@
<ul> <ul>
<li>MemoryInit UPD values are correct</li> <li>MemoryInit UPD values are correct</li>
<li>MemoryInit returns 0 (success) and</li> <li>MemoryInit returns 0 (success) and</li>
<li>The the message "ERROR - coreboot's requirements not met by FSP binary!" <li>The message "ERROR - coreboot's requirements not met by FSP binary!"
is not displayed is not displayed
</li> </li>
</ul> </ul>
@ -324,7 +324,7 @@
<ul> <ul>
<li>MemoryInit UPD values are correct</li> <li>MemoryInit UPD values are correct</li>
<li>MemoryInit returns 0 (success) and</li> <li>MemoryInit returns 0 (success) and</li>
<li>The the message "ERROR - coreboot's requirements not met by FSP binary!" <li>The message "ERROR - coreboot's requirements not met by FSP binary!"
is not displayed is not displayed
</li> </li>
</ul> </ul>

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@ -174,7 +174,7 @@ with
regards to the erase block sizes on the ROM - allowing one to replace a regards to the erase block sizes on the ROM - allowing one to replace a
component at runtime without disturbing the others. component at runtime without disturbing the others.
'offset' is the offset of the the first CBFS component (from the start of 'offset' is the offset of the first CBFS component (from the start of
the ROM). This is to allow for arbitrary space to be left at the beginning the ROM). This is to allow for arbitrary space to be left at the beginning
of the ROM for things like embedded controller firmware. of the ROM for things like embedded controller firmware.

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@ -150,7 +150,7 @@ together so people can easily see the connection at the top level of
gerrit. Topics can be set for individual patches in gerrit by going into gerrit. Topics can be set for individual patches in gerrit by going into
the patch and clicking on the icon next to the topic line. Topics can also the patch and clicking on the icon next to the topic line. Topics can also
be set when you push the patches into gerrit. For example, to push a set of be set when you push the patches into gerrit. For example, to push a set of
commits with the the i915-kernel-x60 set, use the command: commits with the i915-kernel-x60 set, use the command:
git push origin HEAD:refs/for/master/i915-kernel-x60 git push origin HEAD:refs/for/master/i915-kernel-x60
* If one of your patches isn't ready to be merged, make sure it's obvious * If one of your patches isn't ready to be merged, make sure it's obvious

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@ -120,7 +120,7 @@ $(foreach supported_arch,$(ARCH_SUPPORTED), \
# values are space separated if using more than one value # values are space separated if using more than one value
# #
# int-add: adds an arbitrary length list of integers # int-add: adds an arbitrary length list of integers
# int-subtract: subtracts the the second of two integers from the first # int-subtract: subtracts the second of two integers from the first
# int-multiply: multiplies an arbitrary length list of integers # int-multiply: multiplies an arbitrary length list of integers
# int-divide: divides the first integer by the second # int-divide: divides the first integer by the second
# int-remainder: arithmetic remainder of the first number divided by the second # int-remainder: arithmetic remainder of the first number divided by the second

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@ -23,7 +23,7 @@ RCSID("$Id: clear.c,v 1.35 2008/07/13 16:08:18 wmcbrine Exp $")
every cell of the window. every cell of the window.
clear() and wclear() are similar to erase() and werase(), but clear() and wclear() are similar to erase() and werase(), but
they also call clearok() to ensure that the the window is they also call clearok() to ensure that the window is
cleared on the next wrefresh(). cleared on the next wrefresh().
clrtobot() and wclrtobot() clear the window from the current clrtobot() and wclrtobot() clear the window from the current

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@ -58,7 +58,7 @@
* modularize it, was basically: 1) no unnecessary subroutine calls, * modularize it, was basically: 1) no unnecessary subroutine calls,
* 2) no routines more than about 200 lines in size, and 3) modularize * 2) no routines more than about 200 lines in size, and 3) modularize
* any code that I might not get right the first time. The fetch_* * any code that I might not get right the first time. The fetch_*
* subroutines fall into the latter category. The The decode_* fall * subroutines fall into the latter category. The decode_* fall
* into the second category. The coding of the "switch(mod){ .... }" * into the second category. The coding of the "switch(mod){ .... }"
* in many of the subroutines below falls into the first category. * in many of the subroutines below falls into the first category.
* Especially, the coding of {add,and,or,sub,...}_{byte,word} * Especially, the coding of {add,and,or,sub,...}_{byte,word}

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@ -37,7 +37,7 @@ void fsp_verify_memory_init_hobs(void)
if (fsp_find_reserved_memory(&fsp_mem)) if (fsp_find_reserved_memory(&fsp_mem))
die("9.1: FSP_RESERVED_MEMORY_RESOURCE_HOB missing!\n"); die("9.1: FSP_RESERVED_MEMORY_RESOURCE_HOB missing!\n");
/* Verify the the bootloader tolum is above the FSP reserved area */ /* Verify the bootloader tolum is above the FSP reserved area */
if (range_entry_end(&tolum) <= range_entry_base(&fsp_mem)) { if (range_entry_end(&tolum) <= range_entry_base(&fsp_mem)) {
printk(BIOS_CRIT, printk(BIOS_CRIT,
"TOLUM end: 0x%08llx != 0x%08llx: FSP rsvd base\n", "TOLUM end: 0x%08llx != 0x%08llx: FSP rsvd base\n",

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@ -31,7 +31,7 @@ void intel_microcode_load_unlocked(const void *microcode_patch);
* required, will skip microcode update if true. */ * required, will skip microcode update if true. */
int soc_skip_ucode_update(u32 currrent_patch_id, u32 new_patch_id); int soc_skip_ucode_update(u32 currrent_patch_id, u32 new_patch_id);
/* return the the version of the currently running microcode */ /* return the version of the currently running microcode */
uint32_t get_current_microcode_rev(void); uint32_t get_current_microcode_rev(void);
/* extract microcode revision from the given patch */ /* extract microcode revision from the given patch */

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@ -235,7 +235,7 @@ static void power_well_enable(void)
gtt_poll(HSW_PWR_WELL_CTL1, HSW_PWR_WELL_STATE, HSW_PWR_WELL_STATE); gtt_poll(HSW_PWR_WELL_CTL1, HSW_PWR_WELL_STATE, HSW_PWR_WELL_STATE);
/* In the native graphics case, we've got about 20 ms. /* In the native graphics case, we've got about 20 ms.
* after we power up the the AUX channel until we can talk to it. * after we power up the AUX channel until we can talk to it.
* So get that going right now. We can't turn on the panel, yet, just VDD. * So get that going right now. We can't turn on the panel, yet, just VDD.
*/ */
if (IS_ENABLED(CONFIG_MAINBOARD_DO_NATIVE_VGA_INIT)) { if (IS_ENABLED(CONFIG_MAINBOARD_DO_NATIVE_VGA_INIT)) {

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@ -22,7 +22,7 @@
/* /*
* Fill the buf and returns 0 on success. * Fill the buf and returns 0 on success.
* Return -1 on failure and the the caller tries sb_read_spd() * Return -1 on failure and the caller tries sb_read_spd()
* to get the SPD from I2C. * to get the SPD from I2C.
*/ */
int mainboard_read_spd(uint8_t spdAddress, char *buf, size_t len); int mainboard_read_spd(uint8_t spdAddress, char *buf, size_t len);

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@ -158,7 +158,7 @@ config STONEYRIDGE_XHCI_ENABLE
The XHCI controller must be enabled and the XHCI firmware The XHCI controller must be enabled and the XHCI firmware
must be added in order to have USB 3.0 support configured must be added in order to have USB 3.0 support configured
by coreboot. The OS will be responsible for enabling the XHCI by coreboot. The OS will be responsible for enabling the XHCI
controller if the the XHCI firmware is available but the controller if the XHCI firmware is available but the
XHCI controller is not enabled by coreboot. XHCI controller is not enabled by coreboot.
config STONEYRIDGE_XHCI_FWM config STONEYRIDGE_XHCI_FWM

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@ -46,7 +46,7 @@ config HUDSON_XHCI_ENABLE
The XHCI controller must be enabled and the XHCI firmware The XHCI controller must be enabled and the XHCI firmware
must be added in order to have USB 3.0 support configured must be added in order to have USB 3.0 support configured
by coreboot. The OS will be responsible for enabling the XHCI by coreboot. The OS will be responsible for enabling the XHCI
controller if the the XHCI firmware is available but the controller if the XHCI firmware is available but the
XHCI controller is not enabled by coreboot. XHCI controller is not enabled by coreboot.
config HUDSON_XHCI_FWM config HUDSON_XHCI_FWM

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@ -49,7 +49,7 @@ config HUDSON_XHCI_ENABLE
The XHCI controller must be enabled and the XHCI firmware The XHCI controller must be enabled and the XHCI firmware
must be added in order to have USB 3.0 support configured must be added in order to have USB 3.0 support configured
by coreboot. The OS will be responsible for enabling the XHCI by coreboot. The OS will be responsible for enabling the XHCI
controller if the the XHCI firmware is available but the controller if the XHCI firmware is available but the
XHCI controller is not enabled by coreboot. XHCI controller is not enabled by coreboot.
config HUDSON_XHCI_FWM config HUDSON_XHCI_FWM

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@ -103,7 +103,7 @@ typedef struct _S3_MEM_NB_BLOCK {
/// Header for heap space to store the special case register. /// Header for heap space to store the special case register.
typedef struct _S3_SPECIAL_CASE_HEAP_HEADER { typedef struct _S3_SPECIAL_CASE_HEAP_HEADER {
UINT8 Node; ///< Node ID for the the header UINT8 Node; ///< Node ID for the header
UINT8 Offset; ///< Offset for the target node UINT8 Offset; ///< Offset for the target node
} S3_SPECIAL_CASE_HEAP_HEADER; } S3_SPECIAL_CASE_HEAP_HEADER;
/*---------------------------------------------------------------------------- /*----------------------------------------------------------------------------

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@ -105,7 +105,7 @@ typedef struct _S3_MEM_NB_BLOCK {
/// Header for heap space to store the special case register. /// Header for heap space to store the special case register.
typedef struct _S3_SPECIAL_CASE_HEAP_HEADER { typedef struct _S3_SPECIAL_CASE_HEAP_HEADER {
UINT8 Node; ///< Node ID for the the header UINT8 Node; ///< Node ID for the header
UINT8 Offset; ///< Offset for the target node UINT8 Offset; ///< Offset for the target node
} S3_SPECIAL_CASE_HEAP_HEADER; } S3_SPECIAL_CASE_HEAP_HEADER;
/*---------------------------------------------------------------------------- /*----------------------------------------------------------------------------

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@ -103,7 +103,7 @@ typedef struct _S3_MEM_NB_BLOCK {
/// Header for heap space to store the special case register. /// Header for heap space to store the special case register.
typedef struct _S3_SPECIAL_CASE_HEAP_HEADER { typedef struct _S3_SPECIAL_CASE_HEAP_HEADER {
UINT8 Node; ///< Node ID for the the header UINT8 Node; ///< Node ID for the header
UINT8 Offset; ///< Offset for the target node UINT8 Offset; ///< Offset for the target node
} S3_SPECIAL_CASE_HEAP_HEADER; } S3_SPECIAL_CASE_HEAP_HEADER;
/*---------------------------------------------------------------------------- /*----------------------------------------------------------------------------

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@ -106,7 +106,7 @@ typedef struct _S3_MEM_NB_BLOCK {
/// Header for heap space to store the special case register. /// Header for heap space to store the special case register.
typedef struct _S3_SPECIAL_CASE_HEAP_HEADER { typedef struct _S3_SPECIAL_CASE_HEAP_HEADER {
UINT8 Node; ///< Node ID for the the header UINT8 Node; ///< Node ID for the header
UINT8 Offset; ///< Offset for the target node UINT8 Offset; ///< Offset for the target node
} S3_SPECIAL_CASE_HEAP_HEADER; } S3_SPECIAL_CASE_HEAP_HEADER;

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@ -150,7 +150,7 @@ static bdk_dram_test_flags_t dram_test_flags; // FIXME: Don't use global
* variables at the beginning of this file. * variables at the beginning of this file.
* *
* @param arg Number of the region we should check * @param arg Number of the region we should check
* @param arg1 Pointer the the test_info structure * @param arg1 Pointer to the test_info structure
*/ */
static void dram_test_thread(int arg, void *arg1) static void dram_test_thread(int arg, void *arg1)
{ {

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@ -11862,7 +11862,7 @@ union bdk_gsernx_lanex_rx_idle_cal_cfg
FIXME no such field RECALIBRATION_OOB_COUNT_ADDER then remove above exempt attribute. */ FIXME no such field RECALIBRATION_OOB_COUNT_ADDER then remove above exempt attribute. */
uint64_t reserved_40_60 : 21; uint64_t reserved_40_60 : 21;
uint64_t max_oob_adder_count : 8; /**< [ 39: 32](R/W) Maximum number of OOB forced pushouts of the idle recalibrations allowed. If the uint64_t max_oob_adder_count : 8; /**< [ 39: 32](R/W) Maximum number of OOB forced pushouts of the idle recalibrations allowed. If the
number of pushouts matches this number, the the idle offset is forced to recalibrate number of pushouts matches this number, the idle offset is forced to recalibrate
regardless of the state of the link. */ regardless of the state of the link. */
uint64_t oob_delay_adder_count : 32; /**< [ 31: 0](R/W) Number of svc_clk ticks allowed to delay the idle recalibration. Default is equal to uint64_t oob_delay_adder_count : 32; /**< [ 31: 0](R/W) Number of svc_clk ticks allowed to delay the idle recalibration. Default is equal to
1 second based on a 10 ns service clock cycle time. */ 1 second based on a 10 ns service clock cycle time. */
@ -11870,7 +11870,7 @@ union bdk_gsernx_lanex_rx_idle_cal_cfg
uint64_t oob_delay_adder_count : 32; /**< [ 31: 0](R/W) Number of svc_clk ticks allowed to delay the idle recalibration. Default is equal to uint64_t oob_delay_adder_count : 32; /**< [ 31: 0](R/W) Number of svc_clk ticks allowed to delay the idle recalibration. Default is equal to
1 second based on a 10 ns service clock cycle time. */ 1 second based on a 10 ns service clock cycle time. */
uint64_t max_oob_adder_count : 8; /**< [ 39: 32](R/W) Maximum number of OOB forced pushouts of the idle recalibrations allowed. If the uint64_t max_oob_adder_count : 8; /**< [ 39: 32](R/W) Maximum number of OOB forced pushouts of the idle recalibrations allowed. If the
number of pushouts matches this number, the the idle offset is forced to recalibrate number of pushouts matches this number, the idle offset is forced to recalibrate
regardless of the state of the link. */ regardless of the state of the link. */
uint64_t reserved_40_60 : 21; uint64_t reserved_40_60 : 21;
uint64_t idle_oob_adder_counter_clear : 1;/**< [ 61: 61](R/W) This bit one set to high, forces the counter counting the number of OOB caused uint64_t idle_oob_adder_counter_clear : 1;/**< [ 61: 61](R/W) This bit one set to high, forces the counter counting the number of OOB caused

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@ -1616,13 +1616,13 @@ union bdk_rvu_pf_block_addrx_disc
uint64_t reserved_9_10 : 2; uint64_t reserved_9_10 : 2;
uint64_t num_lfs : 9; /**< [ 8: 0](RO/H) Number of local functions from the block that are provisioned to the VF/PF. uint64_t num_lfs : 9; /**< [ 8: 0](RO/H) Number of local functions from the block that are provisioned to the VF/PF.
When non-zero, the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in When non-zero, the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in
the the block. the block.
Returns 0 for block types that do not have local functions, 0 or 1 for Returns 0 for block types that do not have local functions, 0 or 1 for
single-slot blocks; see RVU_BLOCK_TYPE_E. */ single-slot blocks; see RVU_BLOCK_TYPE_E. */
#else /* Word 0 - Little Endian */ #else /* Word 0 - Little Endian */
uint64_t num_lfs : 9; /**< [ 8: 0](RO/H) Number of local functions from the block that are provisioned to the VF/PF. uint64_t num_lfs : 9; /**< [ 8: 0](RO/H) Number of local functions from the block that are provisioned to the VF/PF.
When non-zero, the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in When non-zero, the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in
the the block. the block.
Returns 0 for block types that do not have local functions, 0 or 1 for Returns 0 for block types that do not have local functions, 0 or 1 for
single-slot blocks; see RVU_BLOCK_TYPE_E. */ single-slot blocks; see RVU_BLOCK_TYPE_E. */
uint64_t reserved_9_10 : 2; uint64_t reserved_9_10 : 2;
@ -2972,10 +2972,10 @@ union bdk_rvu_priv_hwvfx_cptx_cfg
#if __BYTE_ORDER == __BIG_ENDIAN /* Word 0 - Big Endian */ #if __BYTE_ORDER == __BIG_ENDIAN /* Word 0 - Big Endian */
uint64_t reserved_9_63 : 55; uint64_t reserved_9_63 : 55;
uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero, uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero,
the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the the block. */ the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the block. */
#else /* Word 0 - Little Endian */ #else /* Word 0 - Little Endian */
uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero, uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero,
the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the the block. */ the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the block. */
uint64_t reserved_9_63 : 55; uint64_t reserved_9_63 : 55;
#endif /* Word 0 - End */ #endif /* Word 0 - End */
} s; } s;
@ -3140,10 +3140,10 @@ union bdk_rvu_priv_hwvfx_sso_cfg
#if __BYTE_ORDER == __BIG_ENDIAN /* Word 0 - Big Endian */ #if __BYTE_ORDER == __BIG_ENDIAN /* Word 0 - Big Endian */
uint64_t reserved_9_63 : 55; uint64_t reserved_9_63 : 55;
uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero, uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero,
the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the the block. */ the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the block. */
#else /* Word 0 - Little Endian */ #else /* Word 0 - Little Endian */
uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero, uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero,
the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the the block. */ the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the block. */
uint64_t reserved_9_63 : 55; uint64_t reserved_9_63 : 55;
#endif /* Word 0 - End */ #endif /* Word 0 - End */
} s; } s;
@ -3180,10 +3180,10 @@ union bdk_rvu_priv_hwvfx_ssow_cfg
#if __BYTE_ORDER == __BIG_ENDIAN /* Word 0 - Big Endian */ #if __BYTE_ORDER == __BIG_ENDIAN /* Word 0 - Big Endian */
uint64_t reserved_9_63 : 55; uint64_t reserved_9_63 : 55;
uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero, uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero,
the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the the block. */ the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the block. */
#else /* Word 0 - Little Endian */ #else /* Word 0 - Little Endian */
uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero, uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero,
the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the the block. */ the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the block. */
uint64_t reserved_9_63 : 55; uint64_t reserved_9_63 : 55;
#endif /* Word 0 - End */ #endif /* Word 0 - End */
} s; } s;
@ -3220,10 +3220,10 @@ union bdk_rvu_priv_hwvfx_tim_cfg
#if __BYTE_ORDER == __BIG_ENDIAN /* Word 0 - Big Endian */ #if __BYTE_ORDER == __BIG_ENDIAN /* Word 0 - Big Endian */
uint64_t reserved_9_63 : 55; uint64_t reserved_9_63 : 55;
uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero, uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero,
the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the the block. */ the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the block. */
#else /* Word 0 - Little Endian */ #else /* Word 0 - Little Endian */
uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero, uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero,
the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the the block. */ the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the block. */
uint64_t reserved_9_63 : 55; uint64_t reserved_9_63 : 55;
#endif /* Word 0 - End */ #endif /* Word 0 - End */
} s; } s;
@ -3357,10 +3357,10 @@ union bdk_rvu_priv_pfx_cptx_cfg
#if __BYTE_ORDER == __BIG_ENDIAN /* Word 0 - Big Endian */ #if __BYTE_ORDER == __BIG_ENDIAN /* Word 0 - Big Endian */
uint64_t reserved_9_63 : 55; uint64_t reserved_9_63 : 55;
uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero, uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero,
the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the the block. */ the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the block. */
#else /* Word 0 - Little Endian */ #else /* Word 0 - Little Endian */
uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero, uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero,
the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the the block. */ the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the block. */
uint64_t reserved_9_63 : 55; uint64_t reserved_9_63 : 55;
#endif /* Word 0 - End */ #endif /* Word 0 - End */
} s; } s;
@ -3660,10 +3660,10 @@ union bdk_rvu_priv_pfx_sso_cfg
#if __BYTE_ORDER == __BIG_ENDIAN /* Word 0 - Big Endian */ #if __BYTE_ORDER == __BIG_ENDIAN /* Word 0 - Big Endian */
uint64_t reserved_9_63 : 55; uint64_t reserved_9_63 : 55;
uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero, uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero,
the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the the block. */ the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the block. */
#else /* Word 0 - Little Endian */ #else /* Word 0 - Little Endian */
uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero, uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero,
the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the the block. */ the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the block. */
uint64_t reserved_9_63 : 55; uint64_t reserved_9_63 : 55;
#endif /* Word 0 - End */ #endif /* Word 0 - End */
} s; } s;
@ -3700,10 +3700,10 @@ union bdk_rvu_priv_pfx_ssow_cfg
#if __BYTE_ORDER == __BIG_ENDIAN /* Word 0 - Big Endian */ #if __BYTE_ORDER == __BIG_ENDIAN /* Word 0 - Big Endian */
uint64_t reserved_9_63 : 55; uint64_t reserved_9_63 : 55;
uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero, uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero,
the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the the block. */ the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the block. */
#else /* Word 0 - Little Endian */ #else /* Word 0 - Little Endian */
uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero, uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero,
the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the the block. */ the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the block. */
uint64_t reserved_9_63 : 55; uint64_t reserved_9_63 : 55;
#endif /* Word 0 - End */ #endif /* Word 0 - End */
} s; } s;
@ -3740,10 +3740,10 @@ union bdk_rvu_priv_pfx_tim_cfg
#if __BYTE_ORDER == __BIG_ENDIAN /* Word 0 - Big Endian */ #if __BYTE_ORDER == __BIG_ENDIAN /* Word 0 - Big Endian */
uint64_t reserved_9_63 : 55; uint64_t reserved_9_63 : 55;
uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero, uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero,
the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the the block. */ the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the block. */
#else /* Word 0 - Little Endian */ #else /* Word 0 - Little Endian */
uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero, uint64_t num_lfs : 9; /**< [ 8: 0](R/W) Number of LFs from the block that are provisioned to the PF/VF. When non-zero,
the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the the block. */ the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in the block. */
uint64_t reserved_9_63 : 55; uint64_t reserved_9_63 : 55;
#endif /* Word 0 - End */ #endif /* Word 0 - End */
} s; } s;
@ -3792,13 +3792,13 @@ union bdk_rvu_vf_block_addrx_disc
uint64_t reserved_9_10 : 2; uint64_t reserved_9_10 : 2;
uint64_t num_lfs : 9; /**< [ 8: 0](RO/H) Number of local functions from the block that are provisioned to the VF/PF. uint64_t num_lfs : 9; /**< [ 8: 0](RO/H) Number of local functions from the block that are provisioned to the VF/PF.
When non-zero, the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in When non-zero, the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in
the the block. the block.
Returns 0 for block types that do not have local functions, 0 or 1 for Returns 0 for block types that do not have local functions, 0 or 1 for
single-slot blocks; see RVU_BLOCK_TYPE_E. */ single-slot blocks; see RVU_BLOCK_TYPE_E. */
#else /* Word 0 - Little Endian */ #else /* Word 0 - Little Endian */
uint64_t num_lfs : 9; /**< [ 8: 0](RO/H) Number of local functions from the block that are provisioned to the VF/PF. uint64_t num_lfs : 9; /**< [ 8: 0](RO/H) Number of local functions from the block that are provisioned to the VF/PF.
When non-zero, the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in When non-zero, the provisioned LFs are mapped to slots 0 to [NUM_LFS]-1 in
the the block. the block.
Returns 0 for block types that do not have local functions, 0 or 1 for Returns 0 for block types that do not have local functions, 0 or 1 for
single-slot blocks; see RVU_BLOCK_TYPE_E. */ single-slot blocks; see RVU_BLOCK_TYPE_E. */
uint64_t reserved_9_10 : 2; uint64_t reserved_9_10 : 2;

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@ -180,7 +180,7 @@ typedef struct {
/// EFI_CERT_TYPE_RSA2048_SHA256_GUID. If the attribute specifies /// EFI_CERT_TYPE_RSA2048_SHA256_GUID. If the attribute specifies
/// authenticated access, then the Data buffer should begin with an /// authenticated access, then the Data buffer should begin with an
/// authentication descriptor prior to the data payload and DataSize /// authentication descriptor prior to the data payload and DataSize
/// should reflect the the data.and descriptor size. The caller /// should reflect the data.and descriptor size. The caller
/// shall digest the Monotonic Count value and the associated data /// shall digest the Monotonic Count value and the associated data
/// for the variable update using the SHA-256 1-way hash algorithm. /// for the variable update using the SHA-256 1-way hash algorithm.
/// The ensuing the 32-byte digest will be signed using the private /// The ensuing the 32-byte digest will be signed using the private

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@ -177,7 +177,7 @@ GetSectionFromFv (
/** /**
Searches the FFS file the the currently executing module was loaded from and returns the first matching FFS section. Searches the FFS file the currently executing module was loaded from and returns the first matching FFS section.
This function searches the FFS file that the currently executing module was loaded from for a FFS sections of type SectionType. This function searches the FFS file that the currently executing module was loaded from for a FFS sections of type SectionType.
If the FFS file contains at least SectionInstance instances of the FFS section specified by SectionType, If the FFS file contains at least SectionInstance instances of the FFS section specified by SectionType,

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@ -119,7 +119,7 @@ RETURN_STATUS
If GetInfoHandler is NULL, then ASSERT(). If GetInfoHandler is NULL, then ASSERT().
If DecodeHandler is NULL, then ASSERT(). If DecodeHandler is NULL, then ASSERT().
@param[in] SectionGuid A pointer to the GUID associated with the the handlers @param[in] SectionGuid A pointer to the GUID associated with the handlers
of the GUIDed section type being registered. of the GUIDed section type being registered.
@param[in] GetInfoHandler Pointer to a function that examines a GUIDed section and returns the @param[in] GetInfoHandler Pointer to a function that examines a GUIDed section and returns the
size of the decoded buffer and the size of an optional scratch buffer size of the decoded buffer and the size of an optional scratch buffer
@ -168,7 +168,7 @@ ExtractGuidedSectionGetGuidList (
Examines a GUIDed section specified by InputSection. Examines a GUIDed section specified by InputSection.
If GUID for InputSection does not match any of the GUIDs registered through ExtractGuidedSectionRegisterHandlers(), If GUID for InputSection does not match any of the GUIDs registered through ExtractGuidedSectionRegisterHandlers(),
then RETURN_UNSUPPORTED is returned. then RETURN_UNSUPPORTED is returned.
If the GUID of InputSection does match the GUID that this handler supports, then the the associated handler If the GUID of InputSection does match the GUID that this handler supports, then the associated handler
of type EXTRACT_GUIDED_SECTION_GET_INFO_HANDLER that was registered with ExtractGuidedSectionRegisterHandlers() of type EXTRACT_GUIDED_SECTION_GET_INFO_HANDLER that was registered with ExtractGuidedSectionRegisterHandlers()
is used to retrieve the OututBufferSize, ScratchSize, and Attributes values. The return status from the handler of is used to retrieve the OututBufferSize, ScratchSize, and Attributes values. The return status from the handler of
type EXTRACT_GUIDED_SECTION_GET_INFO_HANDLER is returned. type EXTRACT_GUIDED_SECTION_GET_INFO_HANDLER is returned.
@ -211,7 +211,7 @@ ExtractGuidedSectionGetInfo (
Decodes the GUIDed section specified by InputSection. Decodes the GUIDed section specified by InputSection.
If GUID for InputSection does not match any of the GUIDs registered through ExtractGuidedSectionRegisterHandlers(), If GUID for InputSection does not match any of the GUIDs registered through ExtractGuidedSectionRegisterHandlers(),
then RETURN_UNSUPPORTED is returned. then RETURN_UNSUPPORTED is returned.
If the GUID of InputSection does match the GUID that this handler supports, then the the associated handler If the GUID of InputSection does match the GUID that this handler supports, then the associated handler
of type EXTRACT_GUIDED_SECTION_DECODE_HANDLER that was registered with ExtractGuidedSectionRegisterHandlers() of type EXTRACT_GUIDED_SECTION_DECODE_HANDLER that was registered with ExtractGuidedSectionRegisterHandlers()
is used to decode InputSection into the buffer specified by OutputBuffer and the authentication status of this is used to decode InputSection into the buffer specified by OutputBuffer and the authentication status of this
decode operation is returned in AuthenticationStatus. If the decoded buffer is identical to the data in InputSection, decode operation is returned in AuthenticationStatus. If the decoded buffer is identical to the data in InputSection,

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@ -409,7 +409,7 @@ EfiReleaseLock (
This function tests whether the driver specified by DriverBindingHandle is This function tests whether the driver specified by DriverBindingHandle is
currently managing the controller specified by ControllerHandle. This test currently managing the controller specified by ControllerHandle. This test
is performed by evaluating if the the protocol specified by ProtocolGuid is is performed by evaluating if the protocol specified by ProtocolGuid is
present on ControllerHandle and is was opened by DriverBindingHandle with an present on ControllerHandle and is was opened by DriverBindingHandle with an
attribute of EFI_OPEN_PROTOCOL_BY_DRIVER. attribute of EFI_OPEN_PROTOCOL_BY_DRIVER.
If ProtocolGuid is NULL, then ASSERT(). If ProtocolGuid is NULL, then ASSERT().

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@ -180,7 +180,7 @@ EFI_STATUS
@param[in] Type On entry, it points to the type of the next SMBIOS record to return. If NULL, it @param[in] Type On entry, it points to the type of the next SMBIOS record to return. If NULL, it
indicates that the next record of any type will be returned. Type is not indicates that the next record of any type will be returned. Type is not
modified by the this function. modified by the this function.
@param[out] Record On exit, points to a pointer to the the SMBIOS Record consisting of the formatted area @param[out] Record On exit, points to a pointer to the SMBIOS Record consisting of the formatted area
followed by the unformatted area. The unformatted area optionally contains text strings. followed by the unformatted area. The unformatted area optionally contains text strings.
@param[out] ProducerHandle On exit, points to the ProducerHandle registered by Add(). If no @param[out] ProducerHandle On exit, points to the ProducerHandle registered by Add(). If no
ProducerHandle was passed into Add() NULL is returned. If a NULL pointer is ProducerHandle was passed into Add() NULL is returned. If a NULL pointer is

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@ -182,7 +182,7 @@ typedef struct {
/// EFI_CERT_TYPE_RSA2048_SHA256_GUID. If the attribute specifies /// EFI_CERT_TYPE_RSA2048_SHA256_GUID. If the attribute specifies
/// authenticated access, then the Data buffer should begin with an /// authenticated access, then the Data buffer should begin with an
/// authentication descriptor prior to the data payload and DataSize /// authentication descriptor prior to the data payload and DataSize
/// should reflect the the data.and descriptor size. The caller /// should reflect the data.and descriptor size. The caller
/// shall digest the Monotonic Count value and the associated data /// shall digest the Monotonic Count value and the associated data
/// for the variable update using the SHA-256 1-way hash algorithm. /// for the variable update using the SHA-256 1-way hash algorithm.
/// The ensuing the 32-byte digest will be signed using the private /// The ensuing the 32-byte digest will be signed using the private

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@ -142,7 +142,7 @@ typedef struct {
/// EFI_CERT_TYPE_RSA2048_SHA256_GUID. If the attribute specifies /// EFI_CERT_TYPE_RSA2048_SHA256_GUID. If the attribute specifies
/// authenticated access, then the Data buffer should begin with an /// authenticated access, then the Data buffer should begin with an
/// authentication descriptor prior to the data payload and DataSize /// authentication descriptor prior to the data payload and DataSize
/// should reflect the the data.and descriptor size. The caller /// should reflect the data.and descriptor size. The caller
/// shall digest the Monotonic Count value and the associated data /// shall digest the Monotonic Count value and the associated data
/// for the variable update using the SHA-256 1-way hash algorithm. /// for the variable update using the SHA-256 1-way hash algorithm.
/// The ensuing the 32-byte digest will be signed using the private /// The ensuing the 32-byte digest will be signed using the private