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-rw-r--r--flash/uart_boot/uart_boot.c164
1 files changed, 133 insertions, 31 deletions
diff --git a/flash/uart_boot/uart_boot.c b/flash/uart_boot/uart_boot.c
index acfbb8e9c5..914937305c 100644
--- a/flash/uart_boot/uart_boot.c
+++ b/flash/uart_boot/uart_boot.c
@@ -27,6 +27,7 @@ struct
} gCmd;
+
int ProcessCmdLine(int argc, char* argv[])
{
argc--; // exclude our name
@@ -152,7 +153,7 @@ int main(int argc, char* argv[])
UINT16 reg;
FILE* pFile;
size_t size;
- UINT8 abFirmware[512*1024]; // blocksize
+ static UINT8 abFirmware[256*1024]; // blocksize
memset(abFirmware, 0xFF, sizeof(abFirmware));
ProcessCmdLine(argc, argv); // what to do
@@ -172,7 +173,7 @@ int main(int argc, char* argv[])
if (gCmd.bNoDownload)
{ // just set our speed
- if (!UartConfig(serial_handle, gCmd.bRecorder ? 115200 : 14400, eNOPARITY, eONESTOPBIT, 8))
+ if (!UartConfig(serial_handle, gCmd.bRecorder ? 115200 : 38400, eNOPARITY, eONESTOPBIT, 8))
{
printf("Error setting up COM params\n");
exit(1);
@@ -183,7 +184,7 @@ int main(int argc, char* argv[])
if (gCmd.bArchos)
{
printf("Waiting for box startup to download monitor...");
- DownloadArchosMonitor(serial_handle, "minimon_v2.bin"); // load the monitor image
+ DownloadArchosMonitor(serial_handle, "minimon_archos.bin"); // load the monitor image
printf("\b\b\b done.\n");
}
else
@@ -197,6 +198,10 @@ int main(int argc, char* argv[])
{ // we can be faster
SetTargetBaudrate(serial_handle, 11059200, 115200); // set to 115200
}
+ else
+ {
+ SetTargetBaudrate(serial_handle, 12000000, 38400); // set to 38400
+ }
}
}
@@ -219,17 +224,30 @@ int main(int argc, char* argv[])
if (gCmd.bSpindown)
{
// power down the disk
- reg = ReadHalfword(serial_handle, 0x05FFFFCA); // PACR2
- reg &= ~0x0400; // clear bit 10: GPIO
- WriteHalfword(serial_handle, 0x05FFFFCA, reg);
-
- reg = ReadHalfword(serial_handle, 0x05FFFFC4); // PAIOR
- reg |= 0x0020; // set bit 5: output
- WriteHalfword(serial_handle, 0x05FFFFC4, reg);
-
- reg = ReadHalfword(serial_handle, 0x05FFFFC0); // PADR
- reg &= ~0x0020; // clear PA5 to power down
- WriteHalfword(serial_handle, 0x05FFFFC0, reg);
+ if (gCmd.bRecorder)
+ { // Recorder (V1+V2) and FM have disk power control on PA5
+ reg = ReadHalfword(serial_handle, 0x05FFFFCA); // PACR2
+ reg &= ~0x0400; // clear bit 10: GPIO
+ WriteHalfword(serial_handle, 0x05FFFFCA, reg);
+
+ reg = ReadHalfword(serial_handle, 0x05FFFFC4); // PAIOR
+ reg |= 0x0020; // set bit 5: output
+ WriteHalfword(serial_handle, 0x05FFFFC4, reg);
+
+ reg = ReadHalfword(serial_handle, 0x05FFFFC0); // PADR
+ reg &= ~0x0020; // clear PA5 to power down
+ WriteHalfword(serial_handle, 0x05FFFFC0, reg);
+ }
+ else
+ { // new Players have disk power control on PB4
+ reg = ReadHalfword(serial_handle, 0x05FFFFC4); // PBIOR
+ reg |= 0x0010; // set bit 4: output
+ WriteHalfword(serial_handle, 0x05FFFFC6, reg);
+
+ reg = ReadHalfword(serial_handle, 0x05FFFFC0); // PBDR
+ reg &= ~0x0010; // clear PB4 to power down
+ WriteHalfword(serial_handle, 0x05FFFFC2, reg);
+ }
printf("Harddisk powered down.\n");
}
@@ -327,26 +345,110 @@ int main(int argc, char* argv[])
}
- if (gCmd.bTest)
+ if (gCmd.bTest) // DRAM test
{
- // test code: toggle PA5 to test FM IDE power
+ static UINT8 abRam[2*1024*1024]; // DRAM copy, not on stack
+ int i;
+ int fails;
+
+ // init the DRAM controller like the flash boot does
reg = ReadHalfword(serial_handle, 0x05FFFFCA); // PACR2
- reg &= ~0x0400; // clear bit 10: GPIO
- WriteHalfword(serial_handle, 0x05FFFFCA, reg);
-
- reg = ReadHalfword(serial_handle, 0x05FFFFC4); // PAIOR
- reg |= 0x0020; // set bit 5: output
- WriteHalfword(serial_handle, 0x05FFFFC4, reg);
+ reg &= 0xFFFB; // PA1 config: /RAS
+ reg |= 0x0008;
+ WriteHalfword(serial_handle, 0x05FFFFCA, reg); // PACR2
+ reg = 0xAFFF; // CS1, CS3 config: /CASH. /CASL
+ WriteHalfword(serial_handle, 0x05FFFFEE, reg); // CASCR
+ reg = ReadHalfword(serial_handle, 0x05FFFFA0); // BCR
+ reg |= 0x8000; // DRAM enable, default bus
+ WriteHalfword(serial_handle, 0x05FFFFA0, reg); // BCR
+ reg = ReadHalfword(serial_handle, 0x05FFFFA2); // WCR1
+ reg &= 0xFDFD; // 1-cycle CAS
+ WriteHalfword(serial_handle, 0x05FFFFA2, reg); // WCR1
+ reg = 0x0E00; // CAS 35%, multiplexed, 10 bit row addr.
+ WriteHalfword(serial_handle, 0x05FFFFA8, reg); // DCR
+ reg = 0x5AB0; // refresh, 4 cycle waitstate
+ WriteHalfword(serial_handle, 0x05FFFFAC, reg); // RCR
+ reg = 0x9605; // refresh constant
+ WriteHalfword(serial_handle, 0x05FFFFB2, reg); // RTCOR
+ reg = 0xA518; // phi/32
+ WriteHalfword(serial_handle, 0x05FFFFAE, reg); // RTCSR
- printf("Toggling PA5 forever... (stop with Ctrl-C)\n");
- reg = ReadHalfword(serial_handle, 0x05FFFFC0); // PADR
- while (1)
- {
- reg ^= 0x0020;
- WriteHalfword(serial_handle, 0x05FFFFC0, reg); // PADR
- Sleep(1000);
- }
- }
+ fails = 0;
+ memset(abRam, 0xFF, sizeof(abRam));
+ printf("writing 0xFF pattern\n");
+ WriteByteMultiple(serial_handle, 0x09000000, sizeof(abRam), abRam);
+ printf("testing marching 0x00\n");
+ for (i=0; i<sizeof(abRam); i++)
+ {
+ UINT8 byte;
+ WriteByte(serial_handle, 0x09000000 + i, 0x00);
+ byte = ReadByte(serial_handle, 0x09000000 + i);
+ WriteByte(serial_handle, 0x09000000 + i, 0xFF);
+
+ if (byte != 0x00)
+ {
+ printf("RAM at offset 0x%06X is 0x%02X instead of 0x%02X\n", i, byte, 0x00);
+ fails++;
+ }
+
+ }
+ printf("%d failures\n", fails);
+
+ fails = 0;
+ memset(abRam, 0x00, sizeof(abRam));
+ printf("writing 0x00 pattern\n");
+ WriteByteMultiple(serial_handle, 0x09000000, sizeof(abRam), abRam);
+ printf("testing marching 0xFF\n");
+ for (i=0; i<sizeof(abRam); i++)
+ {
+ UINT8 byte;
+ WriteByte(serial_handle, 0x09000000 + i, 0xFF);
+ byte = ReadByte(serial_handle, 0x09000000 + i);
+ WriteByte(serial_handle, 0x09000000 + i, 0x00);
+
+ if (byte != 0xFF)
+ {
+ printf("RAM at offset 0x%06X is 0x%02X instead of 0x%02X\n", i, byte, 0xFF);
+ fails++;
+ }
+
+ }
+ printf("%d failures\n", fails);
+
+ fails = 0;
+ memset(abRam, 0xAA, sizeof(abRam));
+ printf("writing 0xAA pattern\n");
+ WriteByteMultiple(serial_handle, 0x09000000, sizeof(abRam), abRam);
+ printf("reading back\n");
+ ReadByteMultiple(serial_handle, 0x09000000, sizeof(abRam), abRam);
+ for (i=0; i<sizeof(abRam); i++)
+ {
+ if (abRam[i] != 0xAA)
+ {
+ printf("RAM at offset 0x%06X is 0x%02X instead of 0x%02X\n", i, abRam[i], 0xAA);
+ fails++;
+ }
+
+ }
+ printf("%d failures\n", fails);
+
+ fails = 0;
+ memset(abRam, 0x55, sizeof(abRam));
+ printf("writing 0x55 pattern\n");
+ WriteByteMultiple(serial_handle, 0x09000000, sizeof(abRam), abRam);
+ printf("reading back\n");
+ ReadByteMultiple(serial_handle, 0x09000000, sizeof(abRam), abRam);
+ for (i=0; i<sizeof(abRam); i++)
+ {
+ if (abRam[i] != 0x55)
+ {
+ printf("RAM at offset 0x%06X is 0x%02X instead of 0x%02X\n", i, abRam[i], 0x55);
+ fails++;
+ }
+
+ }
+ printf("%d failures\n", fails);
+ }
if (gCmd.bBlink)