arm-refactor:remove dependency from memory.c to omap_timer.h.

Remove the dependency from memory.c to omap_timer.h.

Change-Id: I1f1a0e5436ac725e4b0db9d7d404194384794802
This commit is contained in:
Kees Jongenburger 2014-02-24 09:47:13 +01:00 committed by Lionel Sambuc
parent c97a47f54e
commit e54d075f6f
9 changed files with 67 additions and 52 deletions

View file

@ -35,6 +35,7 @@ intr_init(const int auto_eoi)
omap_intr.size = 0x1000; /* 4K */
kern_phys_map_ptr(omap_intr.base, omap_intr.size,
VMMF_UNCACHED | VMMF_WRITE,
&intr_phys_map, (vir_bytes) & omap_intr.base);
return 0;
}

View file

@ -7,6 +7,7 @@
#include <minix/mmio.h>
#include <minix/padconf.h>
#include <minix/board.h>
#include <minix/com.h>
#include <assert.h>
#include <io.h>
#include <stdlib.h>
@ -75,6 +76,7 @@ bsp_padconf_init(void)
assert(omap_padconf);
kern_phys_map_ptr(omap_padconf->base, omap_padconf->size,
VMMF_UNCACHED | VMMF_WRITE,
&padconf_phys_map, (vir_bytes) & omap_padconf->base);
return;

View file

@ -47,8 +47,9 @@ bsp_reset_init(void)
omap_reset.size = AM335X_CM_SIZE;
}
kern_phys_map_ptr(omap_reset.base, omap_reset.size, &reset_phys_map,
(vir_bytes) & omap_reset.base);
kern_phys_map_ptr(omap_reset.base, omap_reset.size,
VMMF_UNCACHED | VMMF_WRITE,
&reset_phys_map, (vir_bytes) & omap_reset.base);
}
void

View file

@ -41,7 +41,8 @@ void
omap3_rtc_init(void)
{
if (BOARD_IS_BB(machine.board_id)) {
kern_phys_map_ptr(omap_rtc.base, omap_rtc.size, &rtc_phys_map,
kern_phys_map_ptr(omap_rtc.base, omap_rtc.size,
VMMF_UNCACHED | VMMF_WRITE, &rtc_phys_map,
(vir_bytes) & omap_rtc.base);
}
}

View file

@ -53,7 +53,8 @@ bsp_ser_init()
omap_serial.size = 0x1000; /* 4k */
kern_phys_map_ptr(omap_serial.base, omap_serial.size,
&serial_phys_map, (vir_bytes) & omap_serial.base);
VMMF_UNCACHED | VMMF_WRITE, &serial_phys_map,
(vir_bytes) & omap_serial.base);
assert(omap_serial.base);
}

View file

@ -149,6 +149,26 @@ bsp_register_timer_handler(const irq_handler_t handler)
/* meta data for remapping */
static kern_phys_map timer_phys_map;
static kern_phys_map fr_timer_phys_map;
static kern_phys_map fr_timer_user_phys_map; /* struct for when the free */
/* running timer is mapped to */
/* userland */
/* callback for when the free running clock gets mapped */
int
kern_phys_fr_user_mapped(vir_bytes id, phys_bytes address)
{
/* the only thing we need to do at this stage is to set the address */
/* in the kerninfo struct */
if (BOARD_IS_BBXM(machine.board_id)) {
minix_kerninfo.minix_frclock_tcrr = address + OMAP3_TIMER_TCRR;
minix_kerninfo.minix_arm_frclock_hz = 1625000;
} else if (BOARD_IS_BB(machine.board_id)) {
minix_kerninfo.minix_frclock_tcrr =
address + AM335X_TIMER_TCRR;
minix_kerninfo.minix_arm_frclock_hz = 1500000;
}
return 0;
}
void
omap3_frclock_init(void)
@ -158,8 +178,16 @@ omap3_frclock_init(void)
/* enable the clock */
if (BOARD_IS_BBXM(machine.board_id)) {
fr_timer = &dm37xx_fr_timer;
kern_phys_map_ptr(fr_timer->base, ARM_PAGE_SIZE,
&fr_timer_phys_map, (vir_bytes) & fr_timer->base);
VMMF_UNCACHED | VMMF_WRITE, &fr_timer_phys_map,
(vir_bytes) & fr_timer->base);
/* the timer is also mapped in user space hence the this */
/* second mapping and callback to set kerninfo frclock_tcrr */
kern_req_phys_map(fr_timer->base, ARM_PAGE_SIZE,
VMMF_UNCACHED | VMMF_USER,
&fr_timer_user_phys_map, kern_phys_fr_user_mapped, 0);
/* Stop timer */
mmio_clear(fr_timer->base + fr_timer->regs->TCLR,
@ -177,7 +205,14 @@ omap3_frclock_init(void)
} else if (BOARD_IS_BB(machine.board_id)) {
fr_timer = &am335x_fr_timer;
kern_phys_map_ptr(fr_timer->base, ARM_PAGE_SIZE,
VMMF_UNCACHED | VMMF_WRITE,
&fr_timer_phys_map, (vir_bytes) & fr_timer->base);
/* the timer is also mapped in user space hence the this */
/* second mapping and callback to set kerninfo frclock_tcrr */
kern_req_phys_map(fr_timer->base, ARM_PAGE_SIZE,
VMMF_UNCACHED | VMMF_USER,
&fr_timer_user_phys_map, kern_phys_fr_user_mapped, 0);
/* Disable the module and wait for the module to be disabled */
set32(CM_PER_TIMER7_CLKCTRL, CM_MODULEMODE_MASK,
CM_MODULEMODE_DISABLED);
@ -236,8 +271,9 @@ bsp_timer_init(unsigned freq)
u32_t tisr;
if (BOARD_IS_BBXM(machine.board_id)) {
timer = &dm37xx_timer;
kern_phys_map_ptr(timer->base, ARM_PAGE_SIZE, &timer_phys_map,
(vir_bytes) & timer->base);
kern_phys_map_ptr(timer->base, ARM_PAGE_SIZE,
VMMF_UNCACHED | VMMF_WRITE,
&timer_phys_map, (vir_bytes) & timer->base);
/* Stop timer */
mmio_clear(timer->base + timer->regs->TCLR, OMAP3_TCLR_ST);
@ -245,8 +281,9 @@ bsp_timer_init(unsigned freq)
mmio_clear(OMAP3_CM_CLKSEL_WKUP, OMAP3_CLKSEL_GPT1);
} else if (BOARD_IS_BB(machine.board_id)) {
timer = &am335x_timer;
kern_phys_map_ptr(timer->base, ARM_PAGE_SIZE, &timer_phys_map,
(vir_bytes) & timer->base);
kern_phys_map_ptr(timer->base, ARM_PAGE_SIZE,
VMMF_UNCACHED | VMMF_WRITE,
&timer_phys_map, (vir_bytes) & timer->base);
/* disable the module and wait for the module to be disabled */
set32(CM_WKUP_TIMER1_CLKCTRL, CM_MODULEMODE_MASK,
CM_MODULEMODE_DISABLED);

View file

@ -54,7 +54,7 @@ extern void * k_stacks;
/*
* Definition of a callback used when a memory map changes it's base address
* Definition of a callback used when a memory map changed it's base address
*/
typedef int (*kern_phys_map_mapped)(vir_bytes id, vir_bytes new_addr );
@ -69,6 +69,7 @@ typedef struct kern_phys_map{
phys_bytes addr; /* The physical address to map */
vir_bytes size; /* The size of the mapping */
vir_bytes id; /* an id passed to the callback */
int vm_flags; /* flags to be passed to vm map */
kern_phys_map_mapped cb; /* the callback itself */
phys_bytes vir; /* The virtual address once remapped */
int index; /* index */
@ -103,15 +104,16 @@ typedef struct kern_phys_map{
* the same reason.
*/
int kern_req_phys_map( phys_bytes base_address, vir_bytes io_size,
kern_phys_map * priv, kern_phys_map_mapped cb,
vir_bytes id);
int vm_flags, kern_phys_map * priv,
kern_phys_map_mapped cb, vir_bytes id);
/*
* Request a physical mapping and put the result in the given prt
* Note that ptr will only be valid once the callback happened.
*/
int kern_phys_map_ptr( phys_bytes base_address, vir_bytes io_size,
kern_phys_map * priv, vir_bytes ptr);
int vm_flags, kern_phys_map * priv,
vir_bytes ptr);
void arch_ser_init();

View file

@ -20,7 +20,6 @@
#include "kernel/proto.h"
#include "kernel/debug.h"
#include "bsp_timer.h"
#include "bsp/ti/omap_timer_registers.h"
#define HASPT(procptr) ((procptr)->p_seg.p_ttbr != 0)
@ -684,11 +683,7 @@ void arch_proc_init(struct proc *pr, const u32_t ip, const u32_t sp,
pr->p_reg.retreg = ps_str; /* a.k.a r0*/
}
/* TODO keesj: rewrite the free running clock to use callbacks
* the current implementation introduces a two-way depedency
*/
static int frclock_index = -1,
usermapped_glo_index = -1,
static int usermapped_glo_index = -1,
usermapped_index = -1, first_um_idx = -1;
@ -709,7 +704,6 @@ int arch_phys_map(const int index,
if(first) {
memset(&minix_kerninfo, 0, sizeof(minix_kerninfo));
frclock_index = freeidx++;
if(glo_len > 0) {
usermapped_glo_index = freeidx++;
}
@ -742,26 +736,14 @@ int arch_phys_map(const int index,
*flags = VMMF_USER;
return OK;
}
else if (index == frclock_index) {
if (BOARD_IS_BBXM(machine.board_id)){
*addr = OMAP3_GPTIMER10_BASE;
} else if (BOARD_IS_BB(machine.board_id)){
*addr = AM335X_DMTIMER7_BASE;
} else {
panic("Can not do the clock setup. machine (0x%08x) is unknown\n",machine.board_id);
};
*len = ARM_PAGE_SIZE;
*flags = VMMF_UNCACHED | VMMF_USER;
return OK;
}
/* if this all fails loop over the maps */
phys_maps = kern_phys_map_head;
while(phys_maps != NULL){
if(phys_maps->index == index){
*addr = phys_maps->addr;
*len = phys_maps->size;
*flags = VMMF_UNCACHED | VMMF_WRITE;
*flags = phys_maps->vm_flags;
return OK;
}
phys_maps = phys_maps->next;
@ -792,26 +774,12 @@ int arch_phys_map_reply(const int index, const vir_bytes addr)
minix_kerninfo.kerninfo_magic = KERNINFO_MAGIC;
minix_kerninfo.minix_feature_flags = minix_feature_flags;
minix_kerninfo_user = (vir_bytes) FIXEDPTR(&minix_kerninfo);
return OK;
}
if (index == usermapped_index) {
return OK;
}
else if (index == frclock_index) {
if (BOARD_IS_BBXM(machine.board_id)){
minix_kerninfo.minix_frclock_tcrr = addr + OMAP3_TIMER_TCRR;
minix_kerninfo.minix_arm_frclock_hz = 1625000;
} else if (BOARD_IS_BB(machine.board_id)){
minix_kerninfo.minix_frclock_tcrr = addr + AM335X_TIMER_TCRR;
minix_kerninfo.minix_arm_frclock_hz = 1500000;
} else {
panic("memory setup errot machine (0x%08x) is unhandled\n",machine.board_id);
};
return OK;
}
/* if this all fails loop over the maps */
/* list over the maps and index them */
@ -867,8 +835,8 @@ void release_address_space(struct proc *pr)
* Request a physical mapping
*/
int kern_req_phys_map( phys_bytes base_address, vir_bytes io_size,
kern_phys_map * priv, kern_phys_map_mapped cb,
vir_bytes id)
int vm_flags, kern_phys_map * priv,
kern_phys_map_mapped cb, vir_bytes id)
{
/* Assign the values to the given struct and add priv
to the list */
@ -878,6 +846,7 @@ int kern_req_phys_map( phys_bytes base_address, vir_bytes io_size,
priv->addr = base_address;
priv->size = io_size;
priv->vm_flags = vm_flags;
priv->cb = cb;
priv->id = id;
priv->index = -1;
@ -916,9 +885,10 @@ int kern_phys_map_mapped_ptr(vir_bytes id, phys_bytes address){
int kern_phys_map_ptr(
phys_bytes base_address,
vir_bytes io_size,
int vm_flags,
kern_phys_map * priv,
vir_bytes ptr)
{
return kern_req_phys_map(base_address,io_size,priv,kern_phys_map_mapped_ptr,ptr);
return kern_req_phys_map(base_address,io_size,vm_flags,priv,kern_phys_map_mapped_ptr,ptr);
}

View file

@ -415,6 +415,6 @@ void send_diag_sig(void) { }
void minix_shutdown(minix_timer_t *t) { arch_shutdown(0); }
void busy_delay_ms(int x) { }
int raise(int n) { panic("raise(%d)\n", n); }
int kern_phys_map_ptr( phys_bytes base_address, vir_bytes io_size,
int kern_phys_map_ptr( phys_bytes base_address, vir_bytes io_size, int vm_flags,
struct kern_phys_map * priv, vir_bytes ptr) {};
struct machine machine; /* pre init stage machine */