TOMOYO Linux Cross Reference
Linux/arch/arm/include/debug/brcmstb.S

   /* SPDX-License-Identifier: GPL-2.0-only */
   /* Copyright (C) 2016 Broadcom */
   #include <linux/serial_reg.h>
   #include <asm/cputype.h>
   
   /* Physical register offset and virtual register offset */
   #define REG_PHYS_BASE           0xf0000000
   #define REG_PHYS_BASE_V7        0x08000000
   #define REG_VIRT_BASE           0xfc000000
  #define REG_PHYS_ADDR(x)        ((x) + REG_PHYS_BASE)
  #define REG_PHYS_ADDR_V7(x)     ((x) + REG_PHYS_BASE_V7)
  
  /* Product id can be read from here */
  #define SUN_TOP_CTRL_BASE       REG_PHYS_ADDR(0x404000)
  #define SUN_TOP_CTRL_BASE_V7    REG_PHYS_ADDR_V7(0x404000)
  
  #define UARTA_3390              REG_PHYS_ADDR(0x40a900)
  #define UARTA_72116             UARTA_7255
  #define UARTA_7250              REG_PHYS_ADDR(0x40b400)
  #define UARTA_7255              REG_PHYS_ADDR(0x40c000)
  #define UARTA_7260              UARTA_7255
  #define UARTA_7268              UARTA_7255
  #define UARTA_7271              UARTA_7268
  #define UARTA_7278              REG_PHYS_ADDR_V7(0x40c000)
  #define UARTA_7216              UARTA_7278
  #define UARTA_72164             UARTA_7278
  #define UARTA_72165             UARTA_7278
  #define UARTA_7364              REG_PHYS_ADDR(0x40b000)
  #define UARTA_7366              UARTA_7364
  #define UARTA_74165             UARTA_7278
  #define UARTA_74371             REG_PHYS_ADDR(0x406b00)
  #define UARTA_7439              REG_PHYS_ADDR(0x40a900)
  #define UARTA_7445              REG_PHYS_ADDR(0x40ab00)
  
  #define UART_SHIFT              2
  
  #define checkuart(rp, rv, family_id, family) \
                  /* Load family id */ \
                  ldr     rp, =family_id ; \
                  /* Compare SUN_TOP_CTRL value against it */ \
                  cmp     rp, rv ; \
                  /* Passed test, load address */ \
                  ldreq   rp, =UARTA_##family ; \
                  /* Jump to save UART address */ \
                  beq     91f
  
                  .macro  addruart, rp, rv, tmp
                  adr     \rp, 99f                @ actual addr of 99f
                  ldr     \rv, [\rp]              @ linked addr is stored there
                  sub     \rv, \rv, \rp           @ offset between the two
                  ldr     \rp, [\rp, #4]          @ linked brcmstb_uart_config
                  sub     \tmp, \rp, \rv          @ actual brcmstb_uart_config
                  ldr     \rp, [\tmp]             @ Load brcmstb_uart_config
                  cmp     \rp, #1                 @ needs initialization?
                  bne     100f                    @ no; go load the addresses
                  mov     \rv, #0                 @ yes; record init is done
                  str     \rv, [\tmp]
  
                  /* Check for V7 memory map if B53 */
                  mrc     p15, 0, \rv, c0, c0, 0  @ get Main ID register
                  ldr     \rp, =ARM_CPU_PART_MASK
                  and     \rv, \rv, \rp
                  ldr     \rp, =ARM_CPU_PART_BRAHMA_B53   @ check for B53 CPU
                  cmp     \rv, \rp
                  bne     10f
  
                  /* if PERIPHBASE doesn't overlap REG_PHYS_BASE use V7 map */
                  mrc     p15, 1, \rv, c15, c3, 0 @ get PERIPHBASE from CBAR
                  ands    \rv, \rv, #REG_PHYS_BASE
                  ldreq   \rp, =SUN_TOP_CTRL_BASE_V7
  
                  /* Check SUN_TOP_CTRL base */
  10:             ldrne   \rp, =SUN_TOP_CTRL_BASE @ load SUN_TOP_CTRL PA
                  ldr     \rv, [\rp, #0]          @ get register contents
  ARM_BE8(        rev     \rv, \rv )
                  and     \rv, \rv, #0xffffff00   @ strip revision bits [7:0]
  
                  /* Chip specific detection starts here */
  20:             checkuart(\rp, \rv, 0x33900000, 3390)
  21:             checkuart(\rp, \rv, 0x07211600, 72116)
  22:             checkuart(\rp, \rv, 0x72160000, 7216)
  23:             checkuart(\rp, \rv, 0x07216400, 72164)
  24:             checkuart(\rp, \rv, 0x07216500, 72165)
  25:             checkuart(\rp, \rv, 0x72500000, 7250)
  26:             checkuart(\rp, \rv, 0x72550000, 7255)
  27:             checkuart(\rp, \rv, 0x72600000, 7260)
  28:             checkuart(\rp, \rv, 0x72680000, 7268)
  29:             checkuart(\rp, \rv, 0x72710000, 7271)
  30:             checkuart(\rp, \rv, 0x72780000, 7278)
  31:             checkuart(\rp, \rv, 0x73640000, 7364)
  32:             checkuart(\rp, \rv, 0x73660000, 7366)
  33:             checkuart(\rp, \rv, 0x07416500, 74165)
  34:             checkuart(\rp, \rv, 0x07437100, 74371)
  35:             checkuart(\rp, \rv, 0x74390000, 7439)
  36:             checkuart(\rp, \rv, 0x74450000, 7445)
  
                  /* No valid UART found */
  90:             mov     \rp, #0
                  /* fall through */
 
                 /* Record whichever UART we chose */
 91:             str     \rp, [\tmp, #4]         @ Store in brcmstb_uart_phys
                 cmp     \rp, #0                 @ Valid UART address?
                 bne     92f                     @ Yes, go process it
                 str     \rp, [\tmp, #8]         @ Store 0 in brcmstb_uart_virt
                 b       100f                    @ Done
 92:             and     \rv, \rp, #0xffffff     @ offset within 16MB section
                 add     \rv, \rv, #REG_VIRT_BASE
                 str     \rv, [\tmp, #8]         @ Store in brcmstb_uart_virt
                 b       100f
 
                 .align
 99:             .word   .
                 .word   brcmstb_uart_config
                 .ltorg
 
                 /* Load previously selected UART address */
 100:            ldr     \rp, [\tmp, #4]         @ Load brcmstb_uart_phys
                 ldr     \rv, [\tmp, #8]         @ Load brcmstb_uart_virt
                 .endm
 
                 .macro  store, rd, rx:vararg
 ARM_BE8(        rev     \rd, \rd )
                 str     \rd, \rx
                 .endm
 
                 .macro  load, rd, rx:vararg
                 ldr     \rd, \rx
 ARM_BE8(        rev     \rd, \rd )
                 .endm
 
                 .macro  senduart,rd,rx
                 store   \rd, [\rx, #UART_TX << UART_SHIFT]
                 .endm
 
                 .macro  busyuart,rd,rx
 1002:           load    \rd, [\rx, #UART_LSR << UART_SHIFT]
                 and     \rd, \rd, #UART_LSR_TEMT | UART_LSR_THRE
                 teq     \rd, #UART_LSR_TEMT | UART_LSR_THRE
                 bne     1002b
                 .endm
 
                 .macro  waituarttxrdy,rd,rx
                 .endm
 
                 .macro  waituartcts,rd,rx
                 .endm
 
 /*
  * Storage for the state maintained by the macros above.
  *
  * In the kernel proper, this data is located in arch/arm/mach-bcm/brcmstb.c.
  * That's because this header is included from multiple files, and we only
  * want a single copy of the data. In particular, the UART probing code above
  * assumes it's running using physical addresses. This is true when this file
  * is included from head.o, but not when included from debug.o. So we need
  * to share the probe results between the two copies, rather than having
  * to re-run the probing again later.
  *
  * In the decompressor, we put the symbol/storage right here, since common.c
  * isn't included in the decompressor build. This symbol gets put in .text
  * even though it's really data, since .data is discarded from the
  * decompressor. Luckily, .text is writeable in the decompressor, unless
  * CONFIG_ZBOOT_ROM. That dependency is handled in arch/arm/Kconfig.debug.
  */
 #if defined(ZIMAGE)
 brcmstb_uart_config:
         /* Debug UART initialization required */
         .word 1
         /* Debug UART physical address */
         .word 0
         /* Debug UART virtual address */
         .word 0
 #endif

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