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--- libmalloc/libmalloc-646.0.13/src/nano_malloc_common.c
+++ libmalloc/libmalloc-283/src/nano_malloc_common.c
@@ -23,133 +23,99 @@
#include "internal.h"
+// Code that is common to Nano V1 and Nano V2. When Nano V1 is removed,
+// most of this file will move to nanov2_malloc.c.
+
#if CONFIG_NANOZONE
// Possible enablement modes for Nano V2
typedef enum {
+ NANO_INACTIVE, // Inactive, but can be selected with MallocNanoZone=V2
NANO_ENABLED, // Available and default if Nano is turned on.
NANO_FORCED, // Force use of Nano V2 for all processes.
- NANO_CONDITIONAL, // Use Nano V2 in non space-efficient processes
} nanov2_mode_t;
-// Whether Nano is engaged. By default, none.
+// Which version of Nano is engaged. By default, none.
nano_version_t _malloc_engaged_nano = NANO_NONE;
// Nano mode selection boot argument
static const char mode_boot_arg[] = "nanov2_mode";
+static const char inactive_mode[] = "inactive"; // Use Nano V1 for Nano
static const char enabled_mode[] = "enabled"; // Use Nano V2 for Nano
static const char forced_mode[] = "forced"; // Force Nano V2 everywhere
-static const char conditional_mode[] = "conditional"; // Use Nano V2 in non space-efficient processes
// The maximum number of per-CPU allocation regions to use for Nano.
unsigned int nano_common_max_magazines;
-bool nano_common_max_magazines_is_ncpu = true;
-
-unsigned int nano_max_region = NANOV2_MAX_REGION_NUMBER;
+boolean_t nano_common_max_magazines_is_ncpu = true;
// Boot argument for nano_common_max_magazines
static const char nano_max_magazines_boot_arg[] = "malloc_nano_max_magazines";
-
#pragma mark -
#pragma mark Initialization
-nano_version_t
-_nano_common_init_pick_mode(const char *envp[], const char *apple[], const char *bootargs, bool space_efficient_enabled)
-{
- const char *p = NULL;
- const char *flag = NULL;
- nano_version_t ret = NANO_NONE;
-
+// Shared initialization code. Determines which version of Nano should be used,
+// if any, and sets _malloc_engaged_nano. The Nano version is determined as
+// follows:
+// 1. If the nanov2_mode boot arg has value "forced", Nano V2 is used
+// unconditionally in every process, except in processes that have
+// the MallocNanoZone variable set to V1.
+// 2. If the nanov2_mode boot arg has value "enabled", Nano V2 is used if
+// the process wants to use Nano (i.e. the kernel opts the process in, or
+// the environment variable MallocNanoZone is 1).
+// 3. If the nanov2_mode boot arg is not present or has any other value,
+// Nano V1 is used if the process wants to use Nano (i.e. the kernel opts
+// the process in, or the environment variable MallocNanoZone is 1).
+//
+// In cases (2) and (3), the selection can be explicitly overridden by setting
+// the environment variable MallocNanoZone to V1 or V2.
+void
+nano_common_init(const char *envp[], const char *apple[], const char *bootargs)
+{
// Use the nanov2_mode boot argument and MallocNanoZone to determine
- // whether to use nano
- nanov2_mode_t nanov2_mode = NANOV2_DEFAULT_MODE;
-
- p = malloc_common_value_for_key(bootargs, mode_boot_arg);
+ // which version of Nano to use, if any.
+ nanov2_mode_t nanov2_mode = NANO_ENABLED;
+ const char *p = malloc_common_value_for_key(bootargs, mode_boot_arg);
if (p) {
- if (!strncmp(p, enabled_mode, sizeof(enabled_mode) - 1)) {
+ if (!strncmp(p, inactive_mode, sizeof(inactive_mode) - 1)) {
+ nanov2_mode = NANO_INACTIVE;
+ } else if (!strncmp(p, enabled_mode, sizeof(enabled_mode) - 1)) {
nanov2_mode = NANO_ENABLED;
} else if (!strncmp(p, forced_mode, sizeof(forced_mode) - 1)) {
nanov2_mode = NANO_FORCED;
- } else if (!strncmp(p, conditional_mode, sizeof(conditional_mode) - 1)) {
- nanov2_mode = NANO_CONDITIONAL;
}
}
if (nanov2_mode == NANO_FORCED) {
- ret = NANO_V2;
+ // We will use Nano V2 unless MallocNanoZone is "V1".
+ const char *flag = _simple_getenv(envp, "MallocNanoZone");
+ if (flag && (flag[0] == 'V' || flag[0] == 'v') && flag[1] == '1') {
+ _malloc_engaged_nano = NANO_V1;
+ } else {
+ _malloc_engaged_nano = NANO_V2;
+ }
} else {
- if (nanov2_mode == NANO_CONDITIONAL) {
- // If conditional mode is selected, ignore the apple[] array and
- // make the decision based of space efficient mode.
- ret = space_efficient_enabled ? NANO_NONE : NANO_V2;
- } else {
- flag = _simple_getenv(apple, "MallocNanoZone");
- if (flag && flag[0] == '1') {
- ret = NANO_V2;
- }
+ const char *flag = _simple_getenv(apple, "MallocNanoZone");
+ if (flag && flag[0] == '1') {
+ _malloc_engaged_nano = nanov2_mode == NANO_ENABLED ? NANO_V2 : NANO_V1;
}
/* Explicit overrides from the environment */
flag = _simple_getenv(envp, "MallocNanoZone");
if (flag) {
if (flag[0] == '1') {
- ret = NANO_V2;
+ _malloc_engaged_nano = nanov2_mode == NANO_ENABLED ? NANO_V2 : NANO_V1;
} else if (flag[0] == '0') {
- ret = NANO_NONE;
+ _malloc_engaged_nano = NANO_NONE;
} else if (flag[0] == 'V' || flag[0] == 'v') {
- if (flag[1] == '1' || flag[1] == '2') {
- ret = NANO_V2;
+ if (flag[1] == '1') {
+ _malloc_engaged_nano = NANO_V1;
+ } else if (flag[1] == '2') {
+ _malloc_engaged_nano = NANO_V2;
}
}
}
}
- return ret;
-}
-
-// Shared initialization code. Determines which version of Nano should be used,
-// if any, and sets _malloc_engaged_nano. The Nano version is determined as
-// follows:
-// 1. If the nanov2_mode boot arg has value "forced", Nano V2 is used
-// unconditionally in every process
-// 2. If the nanov2_mode boot arg has value "enabled", Nano V2 is used if
-// the process wants to use Nano
-void
-nano_common_init(const char *envp[], const char *apple[], const char *bootargs)
-{
- _malloc_engaged_nano = _nano_common_init_pick_mode(envp, apple, bootargs, malloc_space_efficient_enabled);
-
-#if NANOV2_MULTIPLE_REGIONS
- // Override max region number from environment
- const char *p = malloc_common_value_for_key(bootargs, "malloc_nano_max_region");
- if (p) {
- long value = strtol(p, NULL, 10);
- if (value) {
- if (value > NANOV2_MAX_REGION_NUMBER) {
- nano_max_region = NANOV2_MAX_REGION_NUMBER;
- malloc_report(ASL_LEVEL_INFO, "Capping 'malloc_nano_max_region' to %d\n", nano_max_region);
- } else if (value >= 0) {
- nano_max_region = (unsigned int)value;
- } else {
- malloc_report(ASL_LEVEL_ERR, "Received invalid value for 'malloc_nano_max_region': %d\n", (int)value);
- }
- }
- }
- const char *flag = _simple_getenv(envp, "MallocNanoMaxRegion");
- if (flag) {
- long value = strtol(flag, NULL, 10);
- if (value) {
- if (value > NANOV2_MAX_REGION_NUMBER) {
- nano_max_region = NANOV2_MAX_REGION_NUMBER;
- malloc_report(ASL_LEVEL_INFO, "Capping 'MallocNanoMaxRegion' to %d\n", nano_max_region);
- } else if (value >= 0) {
- nano_max_region = (unsigned int)value;
- } else {
- malloc_report(ASL_LEVEL_ERR, "Received invalid value for 'MallocNanoMaxRegion': %d\n", (int)value);
- }
- }
- }
-#endif // NANOV2_MULTIPLE_REGIONS
if (_malloc_engaged_nano) {
// The maximum number of nano magazines can be set either via a
// boot argument or from the environment. Get the boot argument value
@@ -172,6 +138,9 @@
}
switch (_malloc_engaged_nano) {
+ case NANO_V1:
+ nano_init(envp, apple, bootargs);
+ break;
case NANO_V2:
nanov2_init(envp, apple, bootargs);
break;
@@ -224,6 +193,9 @@
nano_common_cpu_number_override_set();
switch (_malloc_engaged_nano) {
+ case NANO_V1:
+ nano_configure();
+ break;
case NANO_V2:
nanov2_configure();
break;
@@ -261,64 +233,34 @@
allocation_mask, alloc_flags, MEMORY_OBJECT_NULL, 0, FALSE,
VM_PROT_DEFAULT, VM_PROT_ALL, VM_INHERIT_DEFAULT);
if (kr) {
- if (kr != KERN_NO_SPACE) {
- malloc_zone_error(debug_flags, false, "*** can't allocate pages: "
- "mach_vm_map(size=%lu) failed (error code=%d)\n", size, kr);
- }
+ malloc_zone_error(debug_flags, false, "*** can't allocate pages: "
+ "mach_vm_map(size=%lu) failed (error code=%d)\n", size, kr);
return NULL;
}
addr = (uintptr_t)vm_addr;
return (void *)addr;
-}
-
-static boolean_t
-_nano_common_map_vm_space(mach_vm_address_t base, mach_vm_size_t size,
- vm_prot_t cur_protection)
-{
- mach_vm_address_t vm_addr = base;
-
- kern_return_t kr = mach_vm_map(mach_task_self(), &vm_addr, size, 0,
- VM_MAKE_TAG(VM_MEMORY_MALLOC_NANO), MEMORY_OBJECT_NULL, 0, FALSE,
- cur_protection, VM_PROT_ALL, VM_INHERIT_DEFAULT);
-
- if (kr != KERN_SUCCESS) {
- return FALSE;
- } else if (vm_addr != base) {
- // allocated somewhere else
- mach_vm_deallocate(mach_task_self(), vm_addr, size);
- return FALSE;
- }
- return TRUE;
}
// Allocates virtual address from a given address for a given size. Succeeds
// (and returns TRUE) only if we get exactly the range of addresses that we
// asked for.
-bool
+boolean_t
nano_common_allocate_vm_space(mach_vm_address_t base, mach_vm_size_t size)
{
- return _nano_common_map_vm_space(base, size, VM_PROT_DEFAULT);
-}
-
-// Reserve virtual address range by allocating without perimissions
-bool
-nano_common_reserve_vm_space(mach_vm_address_t base, mach_vm_size_t size)
-{
- return _nano_common_map_vm_space(base, size, VM_PROT_NONE);
-}
-
-// Set protection to default for address range. Return true on success.
-bool
-nano_common_unprotect_vm_space(mach_vm_address_t base, mach_vm_size_t size)
-{
- kern_return_t kr = mach_vm_protect(mach_task_self(), base,
- size, false, VM_PROT_DEFAULT);
- if (kr != KERN_SUCCESS) {
- malloc_report(ASL_LEVEL_ERR, "mach_vm_protect ret: %d\n", kr);
- return false;
- }
- return true;
+ mach_vm_address_t vm_addr = base;
+ kern_return_t kr = mach_vm_map(mach_task_self(), &vm_addr, size, 0,
+ VM_MAKE_TAG(VM_MEMORY_MALLOC_NANO), MEMORY_OBJECT_NULL, 0, FALSE,
+ VM_PROT_DEFAULT, VM_PROT_ALL, VM_INHERIT_DEFAULT);
+
+ if (kr != KERN_SUCCESS || vm_addr != base) {
+ // Failed or we got allocated somewhere else.
+ if (!kr) {
+ mach_vm_deallocate(mach_task_self(), vm_addr, size);
+ }
+ return FALSE;
+ }
+ return TRUE;
}
void